The satellite navigation system, also known as the global satellite navigation system, is an air-based radio navigation and positioning system that can provide users with all-weather three-dimensional coordinates, speed and time information at any location on the earth’s surface or in near-Earth space.
The satellite navigation system is an important space infrastructure for mankind. It is an indispensable tool for a country’s national security and economic and social development. It has a profound impact on the form of war, combat style, and people’s production and lifestyle.
At present, there are four major global satellite navigation systems in the world, namely, the United States’ GPS, Russia’s GLONASS, Europe’s Galileo and China’s Beidou. Global competition in satellite navigation technology is becoming increasingly fierce.
Standing at a new starting point of profound changes in the world’s military, and looking at the future battlefield with a high degree of integration of informatization and intelligence, intelligent navigation systems will come into being and play an important role.
Satellite navigation becomes a “standard” element of the intelligent battlefield
The future intelligent battlefield will present the characteristics of high-tech warfare, which will comprehensively use intelligent weapons and means under information conditions, realize efficient command and control, and implement precise and flexible strikes. Satellite navigation technology can provide high-precision, all-weather, large-scale and multi-purpose positioning, navigation and timing services for various objects on land, sea, air and space.
Provide a unified time and space benchmark for systematic operations. For the intelligent battlefield, there are many linked elements and the situation changes rapidly, which requires accurate positioning of combat units to achieve intelligence reconnaissance, command and control, battlefield maneuvers, offensive and defensive operations, and support and guarantee under a unified time and space benchmark, ensuring that all elements of the entire battlefield form a coordinated organic whole.
The basic function of satellite navigation is to provide accurate time and space references for various combat elements. Without an accurate and unified time and space reference, the precise command of joint operations may be out of balance, combat operations may be out of control, and intelligence fusion and target identification cannot be achieved. If the time error is one hundredth of a second, a target locked by more than a dozen radars will become more than a dozen targets, and accurate defense and counterattack will not be possible.
Under a unified standard time and geographic coordinate system, satellite navigation provides precision guidance for various weapon platforms, fine frequency calibration for electronic warfare weapons, and all-weather positioning and navigation for individual combatants, significantly improving the coordination and strike effectiveness of joint firepower strikes.
Provide synchronous situation cognition for combat command and control. Accurately grasping the battlefield situation is the premise and basis for commanders to flexibly and accurately implement command and control. The satellite navigation system provides strong support for battlefield situation awareness.
Since the 1990s, the U.S. military has developed a “Blue Force Tracking” system based on GPS and satellite communications to build a precise command and control system. The “Blue Force Tracking” system has effectively supported the U.S. military in forming a networked information advantage on the ground battlefield and effectively solved the problem of “where are we, our friends, and our enemies?”
Relying on the two major services of navigation positioning and position reporting of the global satellite network, the military has realized battlefield situation monitoring and sharing, which has become an important means for the military to “know itself”. At the same time, it has optimized the combat operation process, realized the issuance of combat orders at the minute level, and accelerated the development of the military’s command and control mode towards “integration” and “flattening”.
Providing a tool to enhance the precision strike of weapons and ammunition. In the intelligent battlefield, precision-guided weapons have become the “trump card” that determines victory or defeat. Using the satellite navigation system, the flight process of the missile can be corrected throughout to ensure the accuracy of the hit. It can be said that the satellite navigation system is a tool to enhance the precision strike of weapon platforms.
In recent local wars, the proportion of GPS precision-guided weapons of the US military has continued to rise: 7.6% in the Gulf War in 1991, 35% in the Kosovo War in 1999, 60% in the Afghanistan War in 2001, 68.3% in the Iraq War in 2003, and 100% in the Syrian War in 2018.
Intelligent battlefield requires satellite navigation to have new “responsibilities”
As the core and cornerstone of the precise and unified space-time system, the modern satellite navigation system must take on new responsibilities in response to the development needs of future intelligent battlefields.
In the era of intelligence, new combat elements represented by “AI, cloud, network, group, and terminal” will reconstruct the battlefield ecology and completely change the winning mechanism of war. Satellite navigation services need to adapt to the characteristics of the intelligent battlefield with wider dimensions, higher precision, and stronger system.
Navigation positioning and timing have a wider range and higher accuracy. The current satellite navigation system has achieved coverage of the earth’s surface. However, on the intelligent battlefield, it needs to extend to deep space and under the sea. The combat time domain and air domain are wider, requiring the construction of a comprehensive service system covering land, sea, air and space, with unified standards, high efficiency and intelligence, to form time and space information coverage at all times and everywhere, and to achieve more powerful, safer and more reliable time and space service capabilities.
For example, in the intelligent battlefield, unmanned combat has become the basic form. Autonomous driving of unmanned vehicles, precision approach of drones, and measurement of intelligent missile positions all urgently need to be improved by an order of magnitude on the basis of existing navigation accuracy to ensure higher navigation integrity, faster first positioning time, and stronger cross-domain capabilities of land, sea, air, and space.
The military navigation confrontation system is more complete and more powerful. The means of navigation confrontation in the information age is a simple confrontation form based on signal energy enhancement and interference attack. Navigation in the intelligent era is intertwined with detection, perception, communication, command, and decision-making. It requires a navigation capability level with higher power and faster effectiveness in any region of the world, the ability to intelligently adjust navigation signals, and the development of multiple navigation means such as quantum navigation, pulsar navigation, and deep-sea navigation. It is necessary to integrate navigation methods with different principles, methods, and carriers to achieve navigation confrontation capabilities at the system level and system level.
The bandwidth of navigation information interaction is larger and the access is wider. In the intelligent era, the role of cyberspace in the combat system is gradually increasing, and it is integrated with the navigation space-time system. The navigation information and cyberspace system that provide space-time position will connect the scattered combat forces and combat elements into a whole, forming a networked and systematic combat capability. This requires support for ubiquitous perception, left-right collaboration, and reliable and reconfigurable navigation capabilities, support for highly reliable, highly anti-interference, and readily accessible signaling channels, and timely acquisition of required navigation auxiliary information such as geography, maps, and images. On this basis, the real integration of communication and navigation is realized, achieving the effect of “one domain combat, multi-domain support”.
Adapting to the needs of military intelligence development and promoting the construction of intelligent navigation system
Judging from the development trend of the world’s military powers, facing the future intelligent battlefield, intelligent navigation systems are gradually building a space-time reference network and navigation information service network that integrates the earth and the sky, with space-based, systematized, on-demand and cloud-based as the main characteristics, forming a comprehensive navigation, positioning and timing system with unified reference, seamless coverage, security and reliability, high efficiency and convenience, and strong practicality.
The core of the transformation from a basic navigation system to an intelligent navigation system is to upgrade from “positioning navigation service” to “intelligent navigation service”, and the focus is on achieving the following four aspects of transformation:
The space-time benchmark is shifting from relying on ground systems to autonomous space-time benchmark maintenance. The space-time benchmark maintenance equipment of the ground system will gradually be transferred to the satellite, and the satellite will be equipped with higher-precision optical clocks and astronomical measurement equipment to form a more stable and reliable space-based space benchmark through high-precision anchoring and laser intersatellite measurement. The use of intelligent navigation systems can make ordinary navigation positioning accuracy reach sub-meter level, the timing accuracy will be increased by about 5 times, and the precision positioning service can achieve fast convergence of centimeter-level accuracy. Intelligent navigation can fully support the cross-domain integration of combat platforms, the doubling of the effectiveness of distributed lethal weapons, and the precise navigation of the entire process of air-space integrated drones from cruising to precision approach.
The satellite power confrontation mode is transformed into a navigation system confrontation. In terms of navigation confrontation services, the traditional satellite power confrontation mode will no longer meet the needs of the intelligent battlefield. Navigation system confrontation is the only way for the development of intelligent equipment in order to enhance the ability of troops to quickly adapt to the battlefield environment. Specifically, it includes precise release of navigation performance, heterogeneous backup of constellations, and global hotspot mobility. The main features are intelligent navigation signals and flexible theater reinforcements. Based on controllable point beam energy enhancement technology, energy delivery in hotspot areas, enhanced area expansion, deception or blocking interference, and digital transmission service guarantee are realized. In a high-interference and blocking environment, ensure service continuity and accuracy, and gradually release strength as the war progresses.
The simple integration of communication and navigation will be transformed into integrated on-demand services. It will provide deeper and broader navigation information services, deeply integrate into the military information network, and provide high, medium and low-speed classified and hierarchical navigation information services to users on land, sea, air and space. Reuse the favorable conditions of global multiple continuous coverage of navigation satellites to meet users’ communication and navigation needs in a global range and in any posture, and realize high reliability and strong interference-resistant search and rescue, position reporting, and signaling transmission. The navigation satellite space-based network interacts with the ground network information to build inter-satellite and satellite-to-ground high-speed backbone networks. Through miniaturized laser terminals and enhanced space routers, a stable and reliable space network is formed, equipped with a complete and standardized protocol system to support the autonomous and intelligent operation of hybrid constellation networks.
The computing resources of payload modules are separated and transformed into cloud computing resources of constellation. It will provide more intelligent space-based cloud computing services and reliable space-based intelligent support for intelligent weapon platforms. The main features are virtualization of onboard hardware resources and balancing of task loads. Through the configuration of public onboard computing modules, large-capacity storage units, and high-speed bus networks on navigation satellites, a ubiquitous space network shared resource pool is formed. The powerful data processing capability can support the autonomous establishment and maintenance of space-based space-time benchmarks, intelligent maintenance of navigation signal quality, and autonomous management of space networks. At the same time, it can provide computing, push, and storage services for complex information such as spatial position for various high-end users in the sky, air, land, and sea.
(The author is an academician of the Chinese Academy of Engineering)
Above: Schematic diagram of satellite navigation system supporting operations.
The basic form of information warfare is system confrontation. Different from any form of warfare in history, information warfare is not a discrete confrontation or local decentralized warfare with the simple superposition of various combat units and elements, but a holistic confrontation between systems. The system integration capability of war determines the effectiveness of combat and the achievement of war objectives; achieving effective integration of various systems is the fundamental way to win information warfare.
Multi-space fusion
The battlefield space is the stage for the war hostile parties to compete. Due to the widespread use of high-tech weapons, the battlefield space of informationized warfare has been greatly expanded, forming a multi-dimensional battlefield space of land, sea, air, space, and information. Under the strong “bonding” of information technology, each battlefield space is integrated around a unified combat purpose. First, the three-dimensional, all-round reconnaissance and surveillance network covers the battlefield. Under the conditions of informatization, the military reconnaissance and surveillance capabilities have been unprecedentedly improved. The large-scale, three-dimensional, multi-means, and automated intelligence reconnaissance and surveillance network connects outer space, high altitude, medium altitude, low altitude, ground (sea), and underground (underwater) into one, thereby obtaining battlefield intelligence information in multiple fields. Second, long-range, high-precision informationized weapons are densely distributed and threaten the battlefield. The extraordinary combat capability of the informationized weapon system to cover and strike targets in the entire battlefield space has realized that discovery means destruction, and promoted the high integration of various battlefield spaces. In addition, the development of space and air power has made strikes more precise, means more flexible, and combat efficiency higher, and the battlefield space has become an integrated battlefield of sea, land, air, and space. This integrated battlefield structure has a high degree of integration of multiple spaces, and multiple spaces and multiple fields restrict each other. Third, the battlefield is restricted by electromagnetic and information competition in all time and space and throughout the entire process. The development of military information technology not only realizes the integration of tangible battlefields on land, sea, air and space through reconnaissance and strikes, but also opens up the competition for invisible battlefields in the electromagnetic and information fields. Electromagnetic and information are the soul of informationized warfare and the link between the battlefields on land, sea, air and space. They exist in the entire time and space of combat, act on all elements of war, run through the entire process of combat, and deeply affect the tangible battlefields on land, sea, air and space.
It can be seen that the informationized battlefield is precisely through the increasingly mature information technology, centering on the purpose of war and combat needs, closely integrating the multi-dimensional space of land, sea, air, space, information, etc., forming an inseparable and interdependent organic unity. Leaving any dimension of the battlefield space, or losing control of any dimension, will directly affect the overall combat effectiveness, thus leading to the failure of the war.
Fusion of multiple forces
War power is the protagonist of the battle between the two opposing sides of a war. The “integrated joint combat force” of system integration is a prominent feature of information warfare. Various participating forces in information warfare are highly integrated. Regardless of their affiliation and combat mission, they will be equal users and resources of the entire combat system and integrated into a unified large system. First, the participating forces are united. Information warfare is a joint operation in which the army, navy, air force, aerospace, special operations, information operations and other forces participate. Each participating force has advantages that other participating forces do not have or cannot replace. They communicate and connect through information technology to achieve “seamless connection” and form a force system that can play to its strengths and avoid its weaknesses and complement each other’s advantages, becoming an organic whole that combines “soft” strike and “hard” destruction capabilities, combat and support capabilities, mobility and assault capabilities, and attack and defense capabilities. Second, the participants are diversified. With the development of information networks, wars in the information age no longer have a distinction between the front and the rear, and the networking of combat systems can also make home a “battlefield”. In the industrial age, wars were “over, go home”; in the information age, wars can also be “go home and fight”. Participants in war are not limited to the military forces of countries and political groups. Non-governmental and group-based people can join the “battlefield” as long as they have high-tech knowledge and are proficient in computer applications. Third, the support force is socialized. With the development of science and technology, the mutual tolerance, intercommunication and compatibility of military and civilian technologies have been greatly enhanced. A large number of combat facilities and platforms will rely more on local basic resources. Not only does the material support in combat need to be socialized, but also the technical support and information support need to be socialized.
It can be seen that the victory or defeat of the informationized battlefield depends on the overall strength of the warring parties. Various combat forces are both interrelated and mutually influential, but any single force is difficult to determine the outcome of the war. Only when multiple forces work closely together and learn from each other’s strengths and weaknesses can the overall combat system benefits be brought into play and victory be ultimately achieved.
Multi-level integration
The war level is the pattern of the war between the two hostile parties. In information warfare, the distinction between strategy, campaign and battle is no longer as clear as in traditional warfare. Instead, there is a mutual integration of you and me, and the distinction between levels has become relatively vague. First, the war path is simplified. With the centralized use of a large number of informationized weapons and equipment and their information systems, the precision strike capability of the troops has been unprecedentedly improved. A small-scale combat operation and a high-efficiency information offensive operation can effectively achieve certain strategic goals. A battle, a campaign or a carefully planned information operation may be a war. The path to achieve the purpose of war is becoming simpler and the convergence of war, campaign and even battle in purpose and time and space is prominent. Second, command and control is real-time. The widespread use of automated command and control systems on the battlefield has greatly enhanced the command and control function. Campaign commanders and even the highest political and military leadership of the country can plan and command and control all participating forces and specific combat operations in a unified manner, and directly intervene in campaigns, battles and even the actions of individual soldiers or combat platforms in near real time. Combat and campaign operations are similar to strategic engagements. Third, the combat process is fast-tracked. Quick victory and quick decision are important features of information warfare. The combat time is showing a trend of shortening. There is no concept of time for all combat operations. More often, the participating forces at all levels are carried out simultaneously in different fields. The beginning and the end are closely linked. The combat operations in various battlefield spaces penetrate each other, are closely linked, and gradually merge into an integrated and coordinated system, which is difficult to distinguish at the level.
It can be seen that information warfare has a strong overall nature. Campaigns, as a bridge for achieving strategic and even war objectives, are gradually integrated into battles. Combat, as the most basic combat activity in war, is also gradually sublimated into strategies and campaigns. All levels are intertwined and serve to achieve the purpose of war. Only by comprehensively exerting the combat capabilities of all levels and achieving overall effects can we seize the initiative in the war.
Fusion of various styles
The combat style is the carrier for the war hostile parties to compete. Informationized warfare is a process of confrontation between multiple forces and multiple fields, and is manifested in multiple combat actions and confrontation styles. Various combat actions are inseparable from the overall combat situation, and various actions are closely linked, mutually conditional, coordinated, and integrated to form an overall combat power. The first is the unity of combat actions. The victory or defeat of informationized warfare is the result of the system confrontation between the two warring parties. Isolated and single combat actions are often difficult to work. This requires multiple military services to adopt a variety of combat styles in different combat spaces and combat fields, while the combat style dominated by a single military service can only “live” in the overall joint action as a sub-combat action, and all combat actions are unified in the system confrontation. The second is the integration of combat actions. Informationized warfare is a form of war that pursues high efficiency. Objectively, it requires that multiple combat styles and actions must be highly “integrated” from the perspective of system effectiveness. Comprehensively use a variety of combat styles and tactics, combine tangible combat actions with intangible combat actions, combine non-linear combat with non-contact combat and asymmetric combat, combine psychological warfare with public opinion warfare and legal warfare, combine regular combat with irregular combat, and combine soft strikes with hard destruction to form an overall advantage. The third is the mutation of combat actions. In information warfare, while integrating various combat resources and exerting overall power, both hostile parties strive to find the “center of gravity” and “joint points” of the other side. Once the enemy’s weak points are found, all combat forces and actions are linked as a whole and autonomously coordinated, and various styles and means of destruction are adopted to cause a sudden change in the enemy’s combat capability and a comprehensive “collapse” of the combat system, so as to achieve combat initiative and advantage.
It can be seen that information warfare is a practical activity in which various forces use a variety of combat styles and means to compete in multiple battlefield spaces and combat fields. Only when multiple combat styles and means cooperate, support and complement each other can a multiplier effect be produced, thereby exerting the maximum combat effectiveness of the entire system.
Multi-method integration
The means of war are methods used to achieve the purpose of war. In addition to powerful military means, information warfare must also use all available ways and means to cooperate with each other, organically integrate, and form a whole to achieve a favorable situation. First, the use of war means is comprehensive. All wars have a distinct political nature and serve certain political purposes. With the influence of factors such as the globalization of the world economy and the multipolarization of international politics, information warfare is more based on military means, and military means are used in combination with various means such as economy, diplomacy, culture, and technology. Second, the use of war means is gradient. With the development of the times, war as a means of maintaining and seeking power and interests has been increasingly restricted by international law and international public opinion. In addition, resorting to war requires a high price. Therefore, in the information age, the use of war means presents a gradual development gradient, usually starting from retaliation, display of force, and violent retaliation (strike) in the sense of international law, and finally developing into local or even large-scale wars. Third, the use of war means is systematic. Information warfare is a contest of the comprehensive national strength of the hostile parties. The victory of the war depends on the comprehensive and systematic use of various war means. In specific combat operations, various means of warfare have different functions and natures, occupying different positions and playing different roles in the war. Only by closely combining various effective means of warfare into an organic whole can we form a combat system that fully utilizes our strengths and avoids our weaknesses, and maximize the overall combat effectiveness.
It can be seen that information warfare is subject to more restrictive factors, simpler war objectives, and newer combat styles. In the process of decision-making and action, only by coordinating and integrating with struggle actions in other fields such as politics, economy, culture, and diplomacy can the overall goal of the war be achieved efficiently.
The weaponization of artificial intelligence is an inevitable trend in the new round of military transformation. Local wars and conflicts in recent years have further stimulated relevant countries to promote the strategic deployment of artificial intelligence weaponization and seize the commanding heights of future wars. The potential risks of artificial intelligence weaponization cannot be ignored. It may intensify the arms race and break the strategic balance; empower the combat process and increase the risk of conflict; increase the difficulty of accountability and increase collateral casualties; lower the threshold of proliferation and lead to misuse and abuse. In this regard, we should strengthen international strategic communication to ensure consensus and cooperation among countries on the military application of artificial intelligence; promote dialogue and coordination on the construction of laws and regulations to form a unified and standardized legal framework; strengthen the ethical constraints of artificial intelligence to ensure that technological development meets ethical standards; actively participate in global security governance cooperation and jointly maintain peace and stability in the international community.
The weaponization of artificial intelligence is to apply artificial intelligence-related technologies, platforms and services to the military field, making it an important driving force for enabling military operations, thereby improving the efficiency, accuracy and autonomy of military operations. With the widespread application of artificial intelligence technology in the military field, major powers and military powers have increased their strategic and resource investment and accelerated the pace of research and development and application. The frequent regional wars and conflicts in recent years have further stimulated the battlefield application of artificial intelligence, and profoundly shaped the form of war and the future direction of military transformation.
It cannot be ignored that, as a rapidly developing technology, AI itself may have potential risks due to the immaturity of its inherent technology, inaccurate scene matching, and incomplete supporting conditions. It is also easy to bring various risks and challenges to the military field and even the international security field due to human misuse, abuse, or even malicious use. To conscientiously implement the global security initiative proposed by General Secretary Xi Jinping, we must face the development trend of weaponization of AI worldwide, conduct in-depth analysis of the security risks that may be brought about by the weaponization of AI, and think about scientific and feasible governance ideas and measures.
Current trends in the weaponization of artificial intelligence
In recent years, the application of artificial intelligence in the military field is fundamentally reshaping the future form of war, changing the future combat system, and affecting the future direction of military reform. Major military powers have regarded artificial intelligence as a subversive key technology that will change the rules of future wars, and have invested a lot of resources to promote the research and development and application of artificial intelligence weapons.
The weaponization of artificial intelligence is an inevitable trend in military transformation.
With the rapid development of science and technology, the necessity and urgency of military reform have become increasingly prominent. Artificial intelligence can simulate human thinking processes, extend human brainpower and physical strength, realize rapid information processing, analysis and decision-making, and develop increasingly complex unmanned weapon system platforms, thus providing unprecedented intelligent support for military operations.
First, it provides intelligent support for military intelligence reconnaissance and analysis. Traditional intelligence reconnaissance methods are constrained by multiple factors such as manpower and time, and it is difficult to effectively respond to large-scale, high-speed and high-complexity intelligence processing needs. The introduction of artificial intelligence technology has brought innovation and breakthroughs to the field of intelligence reconnaissance. In military infrastructure, the application of artificial intelligence technology can build an intelligent monitoring system to provide high-precision and real-time intelligence perception services. In the field of intelligence reconnaissance, artificial intelligence technology has the ability to process multiple “information flows” in real time, thereby greatly improving analysis efficiency. ① By using technical tools such as deep learning, it is also possible to “see the essence through the phenomenon”, dig out the deep context and causal relationship in various types of fragmented intelligence information, and quickly transform massive fragmented data into usable intelligence, thereby improving the quality and efficiency of intelligence analysis.
Second, provide data support for combat command and decision-making. Artificial intelligence provides strong support for combat command and military decision-making in terms of battlefield situation awareness. ② Its advantage lies in the ability to perform key tasks such as data mining, data fusion, and predictive analysis. In information-based and intelligent warfare, the battlefield environment changes rapidly, and the amount of intelligence information is huge, requiring rapid and accurate decision-making responses. Therefore, advanced computer systems have become an important tool to assist commanders in managing intelligence data, making enemy situation judgments, proposing combat plan suggestions, and formulating plans and orders. Taking the US military as an example, the ISTAR (Intelligence, Surveillance, Target Identification and Tracking) system developed by Raytheon Technologies Corporation of the United States covers intelligence collection, surveillance, target identification and tracking functions, and can gather data from multiple information sources such as satellites, ships, aircraft and ground stations, and conduct in-depth analysis and processing. This not only significantly improves the speed at which commanders obtain information, but also can provide data support with the help of intelligent analysis systems, making decisions faster, more efficient and more accurate.
Third, it provides important support for unmanned combat systems. Unmanned combat systems are a new type of weapon and equipment system that can independently complete military tasks without direct human manipulation. They mainly include intelligent unmanned combat platforms, intelligent ammunition, and intelligent combat command and control systems, and have significant autonomy and intelligent features. As a technical equipment that leads the transformation of future war forms, unmanned combat systems have become an important bargaining chip in military competition between countries. The system has achieved adaptability to different battlefield environments and combat spaces by using key technologies such as autonomous navigation, target recognition, and path planning. With the help of advanced algorithms such as deep learning and reinforcement learning, unmanned combat systems can independently complete navigation tasks and achieve precise strikes on targets. The design concept of this system is “unmanned platform, manned system”, and its essence is an intelligent extension of manned combat systems. For example, the “MQM-57 Falconer” drone developed by the US Department of Defense’s Advanced Research Projects Agency (DARPA) uses advanced artificial intelligence technology and has highly autonomous target recognition and tracking functions.
Fourth, provide technical support for military logistics and equipment support. In the context of information warfare, the war process has accelerated, mobility has improved, and combat consumption has increased significantly. The traditional “excessive pre-storage” support model can no longer adapt to the rapidly changing needs of the modern battlefield. Therefore, higher requirements are placed on combat troops to provide timely, appropriate, appropriate, appropriate, and appropriate rapid and accurate after-sales support. As a technology with spillover and cross-integration characteristics, artificial intelligence is integrated with cutting-edge technologies such as the Internet of Things, big data, and cloud computing, allowing artificial intelligence knowledge groups, technology groups, and industrial groups to fully penetrate the military after-sales field, significantly improving the logistics equipment support capabilities.
Major countries are planning to develop military applications of artificial intelligence.
In order to enhance their global competitiveness in the field of artificial intelligence, major powers such as the United States, Russia, and Japan have stepped up their strategic layout for the military application of artificial intelligence. First, by updating and adjusting the top-level strategic planning in the field of artificial intelligence, they provide clear guidance for future development; second, in response to future war needs, they accelerate the deep integration of artificial intelligence technology and the military field, and promote the intelligent, autonomous, and unmanned development of equipment systems; in addition, they actively innovate combat concepts to drive combat force innovation, thereby improving combat effectiveness and competitive advantages.
The first is to formulate a strategic plan. Based on the strategic paranoia of pursuing military hegemony, political hegemony, and economic hegemony with technological hegemony, the United States is accelerating its military intelligence process. In November 2023, the U.S. Department of Defense issued the “Data, Analysis and Artificial Intelligence Adoption Strategy”, which aims to expand the advanced capabilities of the entire Department of Defense system to gain lasting military decision-making advantages. The Russian military promulgated the “Russian Weapons and Equipment Development Outline from 2024 to 2033”, known as the “3.0 version”, which aims to provide guidance for the development of weapons and equipment in the next 10 years. The outline emphasizes the continued advancement of nuclear and conventional weapons construction, and focuses on the research of artificial intelligence and robotics technology, hypersonic weapons and other strike weapons based on new physical principles.
The second is to develop advanced equipment systems. Since 2005, the U.S. military has released a version of the “Unmanned System Roadmap” every few years to look forward to and design unmanned system platforms in various fields such as air, ground, surface/underwater, and connect the development chain of unmanned weapons and equipment such as research and development-production-testing-training-combat-support. At present, more than 70 countries in the world can develop unmanned system platforms, and various types of drones, unmanned vehicles, unmanned ships (boats), and unmanned submarines are springing up like mushrooms after rain. On July 15, 2024, Mark Milley, former chairman of the U.S. Joint Chiefs of Staff, said in an interview with U.S. Defense News that by 2039, one-third of the U.S. military will be composed of robots. The Platform-M combat robot, the “Lancet” suicide drone, and the S70 “Hunter” heavy drone developed by the Russian army have been put into actual combat testing.
The third is to innovate future combat concepts. The combat concept is a forward-looking study of future war styles and combat methods, which can often lead to the leapfrog development of new combat force formations and weapons and equipment. In recent years, the US military has successively proposed combat concepts such as “distributed lethality”, “multi-domain warfare” and “mosaic warfare” in an attempt to lead the development direction of military transformation. Taking “mosaic warfare” as an example, this combat concept regards various sensors, communication networks, command and control systems, weapon platforms, etc. as “mosaic fragments”. These “fragment” units, with the support of artificial intelligence technology, can be dynamically linked, autonomously planned, and collaboratively combined through network information systems to form an on-demand integrated, highly flexible, and flexible killing network. In March 2022, the US Department of Defense released the “Joint All-Domain Command and Control (JADC2) Strategic Implementation Plan”, which aims to expand multi-domain operations to all-domain operations concepts, connect sensors of various services to a unified “Internet of Things”, and use artificial intelligence algorithms to help improve combat command decisions. ③
War conflicts stimulate the weaponization of artificial intelligence.
In recent years, local conflicts such as the Libyan conflict, the Nagorno-Karabakh conflict, the Ukrainian crisis, and the Israeli-Kazakh conflict have continued, further stimulating the development of the weaponization of artificial intelligence.
In the Libyan conflict, the warring parties used various types of drones to perform reconnaissance and combat missions. According to a report released by the United Nations Panel of Experts on Libya, the Turkish-made Kargu-2 drone carried out a “hunt and engage remotely” operation in Libya in 2020, and could autonomously attack retreating enemy soldiers. This incident marked the first use of lethal autonomous weapon systems in actual combat. As American scholar Zachary Cullenborn said, if someone unfortunately died in such an autonomous attack, this would most likely be the first known example in history of artificial intelligence autonomous weapons being used for killing. In the 2020 Nagorno-Karabakh conflict, Azerbaijan used a formation of Turkish-made “Flagship” TB2 drones and Israeli-made “Harop” drones to successfully break through the Armenian air defense system and gain air superiority and initiative on the battlefield. ④ The remarkable results of the Azerbaijani army’s drone operations are largely due to the Armenian army’s “underestimation of the enemy” mentality and insufficient understanding of the importance and threat of drones in modern warfare. Secondly, from the perspective of offensive strategy, the Azerbaijani army has made bold innovations in drone warfare. They flexibly use advanced equipment such as reconnaissance and strike drones and cruise missiles, which not only improves combat efficiency, but also greatly enhances the suddenness and lethality of combat. ⑤
During the Ukrainian crisis that broke out in 2022, both Russia and Ukraine widely used military-grade and commercial drones to perform reconnaissance, surveillance, artillery targeting and strike missions. The Ukrainian army used the “Flagship” TB2 drone and the “Switchblade” series of suicide drones assisted by the United States to carry out precision strikes and efficient killings, becoming a “battlefield killer” that attracted worldwide attention. In the Israeli-Kazakhstan conflict, the Israeli military was accused of using an artificial intelligence system called “Lavender” to identify and lock bombing targets in Gaza. It once marked as many as 37,000 Palestinians in Gaza as suspected “militants” and identified them as targets that could be directly “assassinated”. The Israeli military’s actions have attracted widespread attention and condemnation from the international community. ⑥
Security risks posed by weaponization of artificial intelligence
From automated command systems to intelligent unmanned combat platforms, to intelligent decision-making systems in network defense, the application of artificial intelligence technology in the military field is becoming more and more common and has become an indispensable part of modern warfare. However, with the trend of weaponization of artificial intelligence, its misuse, abuse and even malicious use will also bring risks and challenges to international security that cannot be ignored.
Intensify the arms race and disrupt the strategic balance.
In the information and intelligent era, the disruptive potential of artificial intelligence is hard for major military powers to resist. They are all focusing on the development and application of artificial intelligence military capabilities, fearing that they will fall behind in this field and lose strategic opportunities. Deepening the military application of artificial intelligence can gain “asymmetric advantages” at a lower cost and with higher efficiency.
First, countries are scrambling to seize the “first mover advantage”. When a country achieves technological leadership in the development of intelligent weapon systems, it means that the country has more advanced artificial intelligence and related application capabilities, giving it a first-mover advantage in weapon system development, control, and emergency response. This advantage includes higher autonomy, intelligence, and adaptability, which increases the country’s military strength and strategic competitive advantage. At the same time, the military advantage of the first mover may become a security threat to competitors, leading to a scramble among countries in the military application of advanced technologies. ⑦ In August 2023, US Deputy Secretary of Defense Kathryn Hicks announced the “Replicator initiative”, which seeks to deploy thousands of “autonomous weapon systems” in the Indo-Pacific region in less than two years. ⑧
Second, the opacity of AI armament construction in various countries may intensify the arms race. There are two main reasons for this: First, AI technology is an “enabling technology” that can be used to design a variety of applications, which means that it is difficult to verify the specific situation of AI military applications. It is difficult to determine whether a country is developing or deploying nuclear weapons by monitoring uranium, centrifuges, weapons and delivery systems, as is the case with nuclear weapons. The difference between semi-autonomous and fully autonomous weapon systems is mainly due to different computer software algorithms, and it is difficult to verify the implementation of treaties by various countries through physical verification. Second, in order to maintain their strategic advantages, countries often take confidentiality measures for the details of the military application of advanced technologies, so that opponents cannot detect their strategic intentions. In the current international environment, this opacity not only intensifies the arms race, but also lays the groundwork for future escalation of conflicts.
Third, the uncertainty of the strategic intentions of various countries will also intensify the arms race. The impact of artificial intelligence on strategic stability, nuclear deterrence and war escalation depends largely on other countries’ perception of its capabilities rather than its actual capabilities. As American scholar Thomas Schelling pointed out, international relations often have the characteristics of risk competition, which is more of a test of courage than force. The relationship between major opponents is determined by which side is ultimately willing to invest more power, or make it look like it is about to invest more power. ⑨ An actor’s perception of the capabilities of others, whether true or false, will greatly affect the progress of the arms race. If a country vigorously develops intelligent weapon systems, competitors will become suspicious of their competitors’ armament capabilities and intentions to develop armaments without being sure of the other party’s intentions, and often take reciprocal measures, that is, to meet their own security needs by developing armaments. It is this ambiguity of intention that stimulates technological accumulation, exacerbates the instability of weapons deployment, and ultimately leads to a vicious cycle.
Empowering operational processes increases the risk of conflict.
Empowered by big data and artificial intelligence technologies, traditional combat processes will be rebuilt intelligently, that is, from “situational awareness – command decision-making – attack and defense coordination – comprehensive support” to “intelligent cognition of global situation – human-machine integrated hybrid decision-making – manned/unmanned autonomous coordination – proactive on-demand precise support”. However, although the intelligent reconstruction of combat processes has improved the efficiency and accuracy of operations, it has also increased the risk of conflict and misjudgment.
First, wars that break out at “machine speed” will increase the risk of hasty actions. Artificial intelligence weapon systems have demonstrated strong capabilities in accuracy and response speed, making future wars break out at “machine speed”. ⑩ However, too fast a war will also increase the risk of conflict. In areas such as missile defense, autonomous weapon systems, and cyberspace that value autonomy and response speed, faster response speeds will bring huge strategic advantages, but will also greatly compress the time window for the defender to respond to military actions, causing combat commanders and decision makers to be under tremendous “time pressure”, exacerbating the risk of “hasty action” and increasing the possibility of accidental escalation of crises.
Second, reliance on system autonomy may increase the chance of misjudgment under pressure. The U.S. Department of Defense believes that “highly autonomous artificial intelligence systems can autonomously select and execute corresponding operations based on the dynamic changes in mission parameters, and efficiently achieve human preset goals. The increase in autonomy not only greatly reduces dependence on manpower and improves overall operational efficiency, but is also regarded by defense planners as a key factor in maintaining tactical leadership and ensuring battlefield advantage.” ⑪ However, since human commanders cannot respond quickly enough, they may gradually delegate control to autonomous systems, increasing the chance of misjudgment. In March 2003, the U.S. Patriot missile system mistakenly marked a friendly Tornado fighter as an anti-radiation missile. The commander chose to launch the missile under the pressure of only a few seconds to react, resulting in the death of two pilots. ⑫
Third, it weakens the effectiveness of the crisis termination mechanism. During the Cold War, the United States and the Soviet Union led the construction of a series of restrictive measures to curb the escalation of crises and prevent them from evolving into large-scale nuclear wars. In these measures, humans play a vital role as “supervisors”. When risks may get out of control, they can initiate termination measures in sufficient time to avoid large-scale humanitarian disasters. However, with the improvement of the computing power of artificial intelligence systems and their deep integration with machine learning, combat responses have become faster, more precise and destructive, and humans’ termination intervention mechanism for crises may be weakened.
War accountability is difficult and collateral casualties increase.
Artificial intelligence weapon systems make it more difficult to define responsibility for war. In traditional combat modes, weapons systems are controlled by humans. Once errors or crises occur, human operators or developers of operating systems will bear corresponding responsibilities. Artificial intelligence technology itself weakens human initiative and control capabilities, making the attribution of responsibility for technical behavior unclear.
The first is the problem of the “black box” of artificial intelligence. Although artificial intelligence has significant advantages in processing and analyzing data, its internal operating rules and causal logic are often difficult for humans to understand and explain, which makes it difficult for programmers to correct errors in the algorithm. This problem is often referred to as the “black box” of the algorithm model. Once the artificial intelligence weapon system poses a safety hazard, the “algorithm black box” may become a rational excuse for the relevant responsible parties to shirk responsibility. Those who pursue responsibility can only face generalized shirking and shirking of responsibility, and point the finger of responsibility at the artificial intelligence weapon system. In practice, if the decision-making process of artificial intelligence cannot be understood and explained, it may cause a series of problems, such as decision-making errors, trust crises, and information abuse.
The second is the division of responsibilities between humans and machines in military operations. When an AI system fails or makes a wrong decision, should it be considered an independent entity to bear responsibility? Or should it be considered a tool, with human operators bearing all or part of the responsibility? The complexity of this division of responsibilities lies not only in the technical level, but also in the ethical and legal levels. On the one hand, although AI systems can make autonomous decisions, their decision-making process is still limited by human preset procedures and algorithms, so their responsibilities cannot be completely independent of humans. On the other hand, AI systems may go beyond the preset scope of humans and make independent decisions in some cases. How to define their responsibilities at this time has also become a difficult problem in the field of arms control.
The third is the issue of the allocation of decision-making power between humans and artificial intelligence weapon systems. According to the different autonomous powers of the machine, the artificial intelligence system can perform tasks in three decision-making and control modes: semi-autonomous, supervised autonomous, and fully autonomous. In a semi-autonomous system, the decision-making power of the action is controlled by humans; in supervised autonomous actions, humans supervise and intervene when necessary; in fully autonomous actions, humans do not participate in the action process. With the gradual deepening of the military application of artificial intelligence, the role of humans in the combat system is undergoing a gradual transformation from the traditional “man in the loop” mode to the “man on the loop”, and humans have evolved from direct operators inside the system to supervisors outside the system. However, this transformation has also raised new problems. How to ensure that artificial intelligence weapon systems can still follow human ethics and values when operating independently is a major challenge facing the current field of artificial intelligence weapon research and development.
Lowering the threshold for proliferation leads to misuse and abuse.
Traditional strategic competition usually involves large-scale research and development and procurement of weapons systems, which requires a lot of money and technical support. After AI technology matures and spreads, it has the advantages of being easy to obtain and inexpensive. Even small and medium-sized countries may have the ability to develop advanced intelligent weapon systems. At present, strategic competition in the field of military AI is mainly concentrated between major military powers such as the United States and Russia. However, in the long run, the spread of AI technology will expand the scope of strategic competition and pose a destructive threat to the existing strategic balance. Once smaller countries that master AI technology have relatively strong competitiveness, their willingness to initiate confrontation when facing threats from major powers may increase.
First, artificial intelligence helps develop some lightweight and agile means of warfare, thereby encouraging some small and medium-sized countries or non-state actors to use it to carry out small, opportunistic military adventures, achieving their strategic goals at a lower cost and with more abundant channels. Second, the rapid development of artificial intelligence has made new forms of warfare such as cyber warfare and electronic warfare increasingly prominent. In a highly competitive battlefield environment, malicious third-party actors can influence military planning and strategic deterrence by manipulating information, leading to an escalation of the situation. In the Ukrainian crisis that broke out in 2022, a lot of false information was spread on the Internet to confuse the public. Third, the widespread application of artificial intelligence technology has also reduced strategic transparency. Traditional military strategies often rely on a large amount of intelligence collection, analysis and prediction, and with the assistance of artificial intelligence technology, combat planning and decision-making processes have become more complex and unpredictable. This opacity may lead to misunderstandings and misjudgments, thereby increasing the risk of escalating conflicts.
Governance Path for Security Risks of Weaponized Artificial Intelligence
To ensure the safe development of artificial intelligence and avoid the potential harm caused by its weaponization, we should strengthen international communication on governance strategies, seek consensus and cooperation among countries on the military application of artificial intelligence; promote dialogue and coordination on laws and regulations to form a unified and standardized legal framework; strengthen the constraints on artificial intelligence ethics to ensure that technological development complies with ethical standards; and actively participate in global security governance cooperation to jointly maintain peace and stability in the international community.
Attach great importance to strategic communication at the international level.
AI governance is a global issue that requires the concerted efforts of all countries to solve. On the international stage, countries have both mixed and conflicting interests. Therefore, dealing with global issues through effective communication channels has become the key to maintaining world peace and development.
On the one hand, we need to accurately grasp the challenges of international governance of AI. We need to grasp the consensus of various countries on the development of weaponized AI, pay close attention to the policy differences among countries in the security governance of weaponized AI applications, and coordinate relevant initiatives with the UN agenda through consultation and cooperation, so as to effectively prevent the military abuse of AI and promote the use of AI for peaceful purposes.
On the other hand, governments should be encouraged to reach relevant agreements and establish strategic mutual trust through official or semi-official dialogues. Compared with the “Track 1 Dialogue” at the government level, the “Track 1.5 Dialogue” refers to dialogues between government officials and civilians, while the “Track 2 Dialogue” is a non-official dialogue between scholars, retired officials, etc. These two forms of dialogue have higher flexibility and are important supplements and auxiliary means to official dialogues between governments. Through a variety of dialogue and communication methods, officials and civilians can widely discuss possible paths to arms control, share experiences and expertise, and avoid the escalation of the arms race and the deterioration of tensions. These dialogue mechanisms will provide countries with a continuous communication and cooperation platform, help enhance mutual understanding, strengthen strategic mutual trust, and jointly respond to the challenges brought about by the militarization of artificial intelligence.
Scientifically formulate laws and ethical norms for artificial intelligence.
Artificial intelligence technology itself is neither right nor wrong, good nor evil, but there are differences in good and bad intentions in the design, development, manufacturing, use, operation and maintenance of artificial intelligence. The weaponization of artificial intelligence has aroused widespread ethical concerns. Under the framework of international law, can autonomous weapon systems accurately distinguish between combatants and civilians on a complex battlefield? In addition, if artificial intelligence weapon systems cause unexpected harm, how to define the responsibility? Is it in line with moral and ethical standards to give machines the decision-making power of life and death? These concerns highlight the need to strengthen the ethical constraints of artificial intelligence.
On the one hand, we must insist on ethics first and integrate the concept of “intelligent for good” from the source of technology. In the design process of artificial intelligence military systems, values such as people-oriented and intelligent for good will be embedded in the system. The purpose is to eliminate the indiscriminate killing and injury that may be caused by artificial intelligence from the source, control its excessive lethality, and prevent accidental damage, so as to limit the damage caused by artificial intelligence weapon systems to the smallest possible range. At present, nearly 100 institutions or government departments at home and abroad have issued various artificial intelligence ethical principle documents, and academia and industry have also reached a consensus on the basic ethical principles of artificial intelligence. In 2022, China’s “Position Paper on Strengthening the Ethical Governance of Artificial Intelligence” submitted to the United Nations provided an important reference for the development of global artificial intelligence ethical supervision. The document clearly emphasizes that artificial intelligence ethical supervision should be promoted through institutional construction, risk control, collaborative governance and other measures.
On the other hand, we need to improve relevant laws and regulations and clarify the boundaries of rights and responsibilities of AI entities. We need to formulate strict technical review standards to ensure the security and reliability of AI systems. We need to conduct comprehensive tests before AI systems go online to ensure that they do not have a negative impact on human life and social order. We need to clarify the legal responsibilities of developers, users, maintainers and other parties throughout the life cycle of AI systems, and establish corresponding accountability mechanisms.
Pragmatically participate in international cooperation on artificial intelligence security governance.
The strategic risks brought about by the military application of artificial intelligence further highlight the importance of pragmatic cooperation in international security. It is recommended to focus on three aspects:
First, promote the formulation of guidelines for the use of artificial intelligence in the military field. Formulating a code of conduct for the military application of artificial intelligence is an important responsibility of all countries to regulate the military application of artificial intelligence, and it is also a necessary measure to promote international consensus and comply with international laws and regulations. In 2021, the Chinese government submitted the “China’s Position Paper on Regulating the Military Application of Artificial Intelligence” to the United Nations Convention on Certain Conventional Weapons Conference, and issued the “Global Artificial Intelligence Governance Initiative” in 2023. These have provided constructive references for improving the code of conduct for regulating the military application of artificial intelligence.
The second is to establish an applicable regulatory framework. The dual-use nature of AI involves many stakeholders. Some non-state actors, such as non-governmental organizations, technology communities, and technology companies, will play a more prominent role in the global governance of AI and become an important force in the construction of a regulatory framework for the military application of AI. The technical regulatory measures that countries can take include: clarifying the scope of use of AI technology, responsible entities, and penalties for violations; strengthening technology research and development to improve the security and controllability of technology; establishing a regulatory mechanism to supervise the development and application of technology throughout the process, and promptly discover and solve problems.
Third, jointly develop AI security prevention technologies and solutions. Encourage bilateral or multilateral negotiations between governments and militaries to be included in the dialogue options for military AI applications, conduct extensive exchanges on military AI security prevention technologies, operating procedures and practical experience, promote the sharing and reference of relevant risk management technical standards and usage specifications, and continuously inject new stability factors into the international security mutual trust mechanism under the background of AI militarization.
(The author is the director, researcher, and doctoral supervisor of the National Defense Science and Technology Strategic Research Think Tank of the National University of Defense Technology; Liu Hujun, a master’s student at the School of Foreign Languages of the National University of Defense Technology, also contributed to this article)
三是創新未來作戰概念。作戰概念是對未來戰爭樣式與作戰方式進行的前瞻性研究,往往可牽引新的作戰力量編組及武器裝備跨越發展。美軍近年來提出「分散式殺傷」「多域戰」「馬賽克戰」等作戰概念,試圖引領軍事變革的發展方向。以“馬賽克戰”為例,該作戰概念將各種感測器、通訊網路、指揮控制系統、武器平台等視為“馬賽克碎片”,這些“碎片”單元在人工智慧技術賦能支援下,透過網路資訊系統可動態連結、自主規劃、協同組合,從而形成一個按需整合、極具彈性、靈活機動的殺傷網。 2022年3月,美國國防部發布《聯合全域指揮控制(JADC2)戰略實施計畫》,該計畫旨在將多域作戰向全局作戰概念拓展,將各軍種感測器連接到一個統一「物聯網」中,利用人工智慧演算法幫助改善作戰指揮決策。 ③
Modern war presents the explosive growth of battlefield information and new combat style. With the continuous emergence of new technologies such as artificial intelligence and edge computing, a new generation of command information system is coming. Based on the international fourth generation command information system, this paper imagines the overall architecture of the fifth generation command information system, expounds the technical characteristics of its knowledge center, intelligent enabling, cloud edge integration, independent evolution and resilience adaptation, analyze its key technologies, continuously improves the battlefield information advantage, and transforms to the battlefield cognitive advantage, decision-making advantage and action advantage.
Abstract
Modern war presents the explosive growth of battlefield information and new combat style. With the continuous emergence of new technologies such as artificial intelligence and edge computing, a new generation of command information system is coming. Based on the international fourth generation command information system, this paper imagines the overall architecture of the fifth generation command information system, expounds the technical characteristics of its knowledge center, intelligent enabling, cloud edge integration, independent evolution and resilience adaptation, analyze its key technologies, continuously improves the battlefield information advantage, and transforms to the battlefield cognitive advantage, decision-making advantage and action advantage.
Download CitationsZHANG Zhi-hua , WANG Fan . The Fifth Generation Command Information System and Its Intelligent Technology. Command Control and Simulation . 2021, 43(5): 1-7 https://doi.org/10.3969/j.issn.1673-3819.2021.05.001
Previous Article Next Article In his report to the 19th CPC National Congress, President Xi Jinping clearly pointed out that “we should accelerate the development of military intelligence and improve the joint combat capability and all-domain combat capability based on network information systems”
[ 1 ] . This statement indicates that future wars will be based on networked and intelligent system operations. The fifth-generation command information system will focus on intelligence, strengthen battlefield information advantages, and strive for battlefield cognitive advantages, decision-making advantages, and action advantages. According to relevant reports, the international command information system has gone through four stages of development
[ 2 ] and is evolving towards the fifth-generation command information system. The system architecture is developing towards intelligence, knowledge, cloud edge, and service. The fourth-generation system in the world mainly uses networking, service, and cloud to build an overall coordinated command information system
[ 2 ] , which meets the needs of coordinated operations to a certain extent and achieves information advantages. However, with the explosive growth of battlefield information, it is difficult to transform the system information advantage into the commander’s cognitive and decision-making advantages. With the emergence of new combat styles such as unmanned combat and cyber warfare, in order to adapt to the complexity and nonlinear characteristics of combat command, the command information system must break through cognitive technology and provide accurate battlefield situation cognition and planning and decision-making capabilities. The fifth-generation command information system is envisioned to be centered on artificial intelligence, edge computing, and cloud brain technology to enhance battlefield cognitive advantages, decision-making advantages, and action advantages, support combat command to move from the information domain to the cognitive domain, and realize capabilities such as information knowledge, intelligent decision-making, agile command and control, multi-domain collaboration, and edge services.
1 New Concept of Command and Control
1.1 Intelligent command and control
Intelligent command and control is to use artificial intelligence methods to achieve the transformation from “information-based, network-centric” to “intelligent, knowledge-centric”, and assist commanders in solving perception, understanding, and cognitive problems in the command field. The system architecture and technical architecture of the command information system will change. The system will apply corresponding intelligent technologies around functional domains such as situation, command, control, and support to improve the cognitive and decision-making efficiency of combat command. Foreign militaries pay great attention to the intelligent application of combat command. Since 2007, the US DARPA has published three white papers on national and military development strategies for artificial intelligence, and has launched plans such as “Deep Green”
[ 3 ⇓ – 5 ] , “The High-Tech Holy Grail of the Third Offset Strategy”, and “Commander’s Virtual Staff”. In the field of intelligence perception and tactical decision-making, it has launched artificial intelligence projects such as “Insight”, “Xdata”, “Deep Learning”, “Deep Text Search and Filtering”, “Distributed Battlefield Management”, “Human-Machine Collaboration”, “Mind’s Eye”, “Trace”, “Human-Machine Collaboration”, “X-Plan”, “Cognitive Electronic Warfare”, and “AlphaAI Air Combat”, realizing the ability to deeply understand battlefield intelligence, predict situation cognition, and automatically generate and deduce tactical plans. Since then, the U.S. military has also set up projects such as “Autonomous Negotiation Formation”, “Big Dog”, and “Hummingbird” to improve the manned and unmanned collaborative control capabilities. Overall, the U.S. military currently has the world’s leading level of intelligent combat command. In addition, Germany, France, Russia and other countries have also conducted extensive research in intelligent information perception and processing, intelligent autonomous unmanned combat platforms, etc., and have achieved fruitful research results
With the development of military technology, traditional large-scale cluster combat methods are gradually transformed into small-scale asymmetric combat. Combat activities at the tactical edge will play an important role in war. The tactical edge is also known as the “first tactical mile”
[ 9 ] . It is far away from the command center and has limited communication, computing, and service resources. It is usually composed of combat platforms, tactical units, and special forces. In order to gain information and decision-making advantages, command units at all levels use ubiquitous networks, micro-clouds, and other technologies to achieve information and resource sharing. Mobile computing devices at the tactical edge use fog computing methods to integrate into larger combat units and form micro-clouds under self-organizing networks. The large amount of situation information obtained by the tactical edge is calculated, stored, and shared in the tactical micro-cloud, which simplifies the scale of interaction with the command center, improves the timeliness of information interaction, and solves the problem of insufficient service capabilities at the tactical frontier in the past.
1.3 Multi-Domain Battle Command and Control
In 2016, the U.S. Army proposed the concept of “multi-domain warfare”
[ 10 ] , taking “synchronous cross-domain firepower” and “all-domain mobility” as core elements, promoting the high integration of combat elements, enhancing all-domain strike capabilities, and attempting to eliminate the “anti-access/area denial” capabilities of China, Russia and other countries. It mainly has the following three characteristics
[ 10 ] . First, the combat domain is expanded in multiple dimensions, enabling the U.S. Army to deploy forces from the ground to multiple combat domains such as sea, air, electricity, and the Internet, and has the ability to integrate with other services. Second, the combat elements are highly integrated, and the various services and combat functional domains can share information, coordinate tactics, and synchronize actions, which promotes the transformation of joint services to the integration of combat capability elements. Third, the command chain is developing in a flat direction, and the command mechanism is efficient and flexible. It is necessary to have centralized planning and decentralized execution, and to share information and instructions with various command nodes and individual soldiers, extend the tactical command chain, and realize rapid, multi-line, and multi-domain combat command.
1.4 Mosaic Combat Command and Control
In 2017, DARPA proposed the concept of “mosaic warfare”
[ 11-12 ] , which takes into account both ” threat-based” and “capability-based” equipment construction methods, and flexibly combines sensors, command and control nodes, combat platforms, and cooperative manned and unmanned systems in multiple combat domains on demand to form a mission system. System integration uses a building block approach to dynamically link dispersed fine-grained systems together to form a combat system similar to a “mosaic block”. “Mosaic warfare” uses intelligent decision-making tools to provide distributed situational awareness and adaptive planning and control, assist in combat mission planning, and implement distributed combat management. “Mosaic warfare” requires the replacement of fixed combat force composition with adaptive system reorganization, and the combat command has a resilient and adaptable information system that can customize physically dispersed mixed combat units on demand and meet various dynamic and collaborative combat requirements
2. Transformation of the Characteristics of the Fifth Generation Command Information System
1) The system shifts from network-centric to knowledge-centric. The network-centric approach brings battlefield information advantage, which is then transformed into cognitive advantage and decision-making advantage. The information sharing between systems shifts to knowledge-centric intelligence sharing, which promotes the transformation of the entire command system into decision-making and action advantage.2) The cloud architecture is transformed into cloud-edge-end integration. Expand the original cloud resource sharing capabilities
[ 2 ] and extend them to the platforms, teams, and individual soldiers at the tactical edge, realize the integrated hybrid service capabilities of the battlefield center cloud, mobile cloud, and edge micro-cloud in a mobile environment, and enhance the tactical frontier resource service capabilities.3) Transformation from scheduled integration to resilient adaptability. Currently, the system is deployed and operated according to preset rules. When the mission changes, it must be regulated according to the pre-planned plan. In the future, battlefield systems are vulnerable to attacks and paralysis, requiring the system to have the ability to self-reconstruct, resilient and adaptable when disturbances occur to ensure that the core mission is uninterrupted
[ 13-14 ] .4) Transformation from computational intelligence to cognitive intelligence. Intelligence is manifested in computational intelligence, perceptual intelligence, and cognitive intelligence. Currently, computational intelligence provides a tactical deterministic solution method. In the future battlefield, intelligent technology must be used to improve the accuracy and real-time degree of cognition in terms of massive intelligence processing, situational awareness, and decision-making reasoning.5) Performance changes from fixed fixed to autonomous learning evolution. The system’s algorithm and performance are generally determined and fixed during the design period, and performance improvement is achieved through upgrading and transformation. Intelligent systems have the ability of self-learning and self-evolution, and can learn algorithms for situational awareness and intelligent decision-making online to improve system performance.6) Construction shifts from capability-based to knowledge-based. Command information systems are generally constructed based on capability elements, and system integration is integrated based on capability elements. Intelligent systems pay more attention to the intellectual construction of the system, focusing on the construction of system knowledge, rules, algorithms, and data.7) The interaction mode will shift to human-machine fusion intelligent interaction. Human-machine fusion intelligent perception, anthropomorphic interaction, intention-oriented intelligent human-machine interface interaction, wearable human-machine fusion computing, and fusion and linkage interaction will become the main interaction mode of future systems, and the human-machine control system will progress towards human-machine fusion.8) The separation of combat and training has shifted to the integration of combat, training, exercise and research. The fifth-generation command information system tightly couples combat command and tactical training, and has parallel simulation and reasoning capabilities. It can not only update intelligent algorithms, but also conduct combat and tactics confrontation research, obtain tactical data, and promote algorithm learning. Exercise training has developed from war game simulation to battlefield virtual game.
3 Overall Architecture Concept
The overall architecture of the future fifth-generation command information system should be a command information system that is knowledge-centric, human-machine integrated, intelligently empowered, cloud-edge integrated, autonomously evolving, and resilient and adaptable. The following article mainly describes the overall system from the perspectives of system architecture, service architecture, and technical architecture
[ 15 ] . The system architecture mainly refers to the composition of the system’s logical elements and their relationships, the service architecture describes the integration model of information and computing resources between systems, and the technical architecture describes the system’s technical reference model.
3.1 System Architecture Concept
The system is changing from “information-based, network-centric” to “intelligent, knowledge-centric”, while extending to the tactical edge. Based on the original system integration, the system integrates knowledge and algorithms, applies intelligent technology in functional domains such as situation, command, control, and support, and improves the cognition and decision-making efficiency of combat command. The system architecture is envisioned as follows:
Figure 1 Conceptualization of the fifth-generation command information system architecture
第五代指揮資訊系統架構概念
The fifth-generation system expands the functional domain of parallel deduction and learning training on the basis of functional elements such as situational awareness, command decision-making, action control, support and guarantee, and information services to meet the needs of combat branch evaluation and algorithm learning. In terms of situational awareness, it covers computational intelligence, perceptual intelligence, and cognitive intelligence, mainly completing battlefield intelligence processing and target identification, understanding and predicting the situation, having state and momentum, and improving information advantage; in terms of command decision-making, it is mainly based on cognitive intelligence, which can machine tactical reasoning, generate plans and plans, and improve decision-making level; in terms of action control, it is mainly based on computational intelligence and cognitive intelligence, completing task monitoring and temporary tactical control, and providing action optimization strategies based on knowledge reasoning, such as command guidance, firepower coordination, and unmanned cluster intelligent control; in terms of comprehensive guarantee, it is mainly based on computational intelligence, completing the optimal allocation of battlefield resources under prior knowledge and rules; in terms of parallel deduction and learning training, it combines command and control with simulation training, trains personnel and algorithms in peacetime, and conducts parallel plan deduction in wartime.In addition, the fifth-generation system has an autonomous evolving learning mechanism: first, autonomous learning within the node to optimize the algorithm and knowledge base; second, the nodes share intelligent algorithms and knowledge through the command cloud to collaboratively complete the evolution. Each node can upload the learned algorithms and knowledge to the command cloud to update the algorithms and knowledge of the knowledge center; third, the system issues instructions to tactical nodes, weapon nodes, detection nodes, and combat support nodes, and collects execution feedback. These feedback results can be used to learn and evolve the algorithm.Between the fifth-generation systems, based on the original comprehensive integration based on the cloud/end architecture, an integrated sharing method for knowledge and intelligent algorithms has been added. Each command information system uploads intelligent algorithms and knowledge rules to the knowledge center for plug-and-play sharing by heterogeneous nodes such as battlefield detection, command, and weapons. The command information system can obtain existing intelligent knowledge from the knowledge center and conduct secondary learning and training in combination with its own battlefield data to improve algorithm capabilities. The command cloud will eventually form an intelligent knowledge center for the battlefield, and a battlefield knowledge network will be formed between the intelligent command information systems.
3.2 Concept of cloud-edge-device service architecture
In the future, ubiquitous network connections will extend from command units to various squads, individual soldiers, and platforms at the tactical edge. The fifth-generation command information system will use fog computing and distributed computing technologies to build tactical mobile clouds, squad micro-clouds (Cloudlet), and individual task group pico-clouds (Pico-Cloud) based on cloud architecture technology
[ 9 , 16 ] , forming tactical frontier mobile cloud service capabilities, realizing the hybrid service capabilities of battlefield centralized combat clouds, mobile tactical clouds, and edge micro-clouds and pico-clouds, forming an integrated resource service structure of “cloud, edge, and end”, and quickly building command chains and strike chains.
Concept of cloud-edge-end service architecture of the fifth-generation command information system
第五代指揮資訊系統雲端端服務架構構想
The cloud-edge-end integrated service capability supports the fifth-generation system to achieve dynamic aggregation and release of combat resources through “cloud deployment, cloud aggregation, cloud attack, and cloud dissipation”, thereby improving the combat effectiveness of the entire system
[ 17 ] . The centralized combat cloud is deployed in the command center in a fixed cloud manner
[ 16 ] to provide services for various combat nodes; air, land, and sea tactical clouds provide information, algorithms, computing, and storage services under mobile conditions for aircraft, ships, armored forces, and other forces at the tactical frontier, thereby improving the resource sharing level at the tactical frontier
[ 9 , 16 , 18-19 ] ; in tactical edge military operations, micro-clouds and pico – clouds are constructed. Micro-clouds are deployed in fog computing on vehicles, aircraft, and boats within one hop of the communication distance of the frontier contact unit, expanding the tactical information processing and sharing capabilities of the frontier unit personnel. When individual soldiers and units cannot access micro-clouds, mobile ad hoc networks and distributed computing technologies can be used to construct pico-clouds to support dynamic information aggregation and resource sharing end-to-end under weak connections at the tactical edge, thereby extending the command chain.
3.3 Technical Architecture Concept
The fifth-generation command information system will extend the war from the physical domain and information domain to the cognitive domain, and will change the way of command and control. Its technical architecture is as follows:
Technical architecture of the fifth-generation command information system
第五代指揮資訊系統技術架構
The fifth generation command information system adds tactical edge services and intelligent computing environments based on the networked computing environment of the fourth generation command information system, which is compatible with the system architecture and meets the intelligent requirements of the system. The tactical edge service computing environment provides micro-cloud and pico-cloud basic computing, storage, and information service platforms for weakly connected terminals; the intelligent computing environment provides intelligent services for situation, decision-making, control, and human-computer interaction.The intelligent technology environment layer includes the following five parts. The intelligent computing hardware platform is equipped with AI acceleration processors such as GPU, FPGA, and TPU to adapt to the computing power required by deep learning. Some algorithms use brain-like chips with neuron processing mechanisms or solidified dedicated intelligent computing chips; the intelligent data management platform mainly manages data, samples, cases, models, and knowledge; the deep learning framework integrates the runtime library and basic algorithm library of deep learning and reinforcement learning; the traditional artificial intelligence computing framework includes traditional algorithm support libraries such as spark and bigflow for search and solution, data mining, and parallel processing; intelligent services include application-oriented intelligent algorithm service libraries, such as intelligent interactive recognition, valuation network calculation, and strategy network calculation services, which provide solution interfaces for application development.The intelligent application layer mainly provides functional elements such as intelligent situational awareness, planning and decision-making, action control and information services, human-computer interaction, learning and training. It is the system’s main functional interface for users and the core problem that intelligence needs to solve.The fifth-generation system technology architecture model mentioned above mainly uses cloud computing and intelligent technology support services to achieve the sharing of situations, instructions, algorithms and knowledge between systems, and supports system autonomous evolution, algorithm upgrades and knowledge updates. System intelligence can be divided into levels 0 to 4
[ 20 ] . Level 0: full manual control; Level 1: computing intelligence, deterministic complex tactical calculations and information automation processing; Level 2: having certain perceptual intelligence, able to understand, evaluate and predict battlefield situations; Level 3: having cognitive intelligence, able to provide machine decision-making and decision-making deduction capabilities; Level 4: having human-machine integration and symbiosis capabilities, and the core algorithm can self-learn and self-evolve. At present, the intelligence level of the fourth-generation system is generally at level 1, and situation understanding and command decisions are still controlled by humans. The intelligence of the fifth-generation system can reach the fourth level through three stages. The first stage is to realize the ability to perceive, understand and evaluate the battlefield situation; the second stage is to build a knowledge base of tactics and enable machine decision-making based on rules, knowledge and algorithms; the third stage is to realize machine self-learning and self-evolution of core tasks, and have the function of autonomous decision-making, reaching a highly intelligent level of human-machine integration
4 Key technologies of the system and its intelligent concept
The key technologies of the fifth-generation command information system mainly solve the above – mentioned problems of intelligence, cloud – edge-end integration, and system resilience and adaptability. The key technologies of the system and its intelligent concept is the following
Key technologies of the system and its intelligent concept
系統關鍵技術及智慧化理念
The key technologies of the fifth-generation command information system cover all aspects of the command and control OODA loop, and can support the system’s intelligence, resilience, and edge command and control requirements in terms of detection, decision-making, control, and strike, thereby building a precise perception chain, rapid control chain, precise strike chain, and agile service chain, extending to the tactical edge and improving command effectiveness.
1) Situational Awareness Machine Analysis TechnologyIntelligence compilation and analysis technology.
Use big data, deep learning, knowledge graphs and other technologies to perform intelligent information correlation matching, text semantics intelligent analysis, and public opinion intelligent search and extraction to obtain valuable intelligence from massive, multi-source, and heterogeneous battlefield information.
Multiple target rapid recognition technology. Using deep learning methods, a multi-layer CNN convolutional neural network is constructed, and sample feature parameter learning is used to complete feature extraction and rapid target recognition of optical, infrared, electromagnetic, and acoustic information.Situation recognition and understanding technology. Analyze the enemy’s combat intentions and combat capabilities, use the reinforcement learning valuation network technology to simulate the commander’s situation recognition process, and combine the CNN nonlinear battlefield situation fitting ability to establish a mapping from situation images to situation understanding
Situation machine prediction and assessment technology. Based on situation understanding, the enemy’s tactical behavior is estimated. First, the strategy network is used to obtain the enemy’s activity rules, and then the parallel deduction method is used to perform multi-branch situation deduction. Finally, a prediction network is constructed to predict the situation.
Combat mission space and strategy modeling technology. Modeling the state and action strategy of the combat mission space and determining the description method of the mission state, strategy, and feedback are the basis for deep reinforcement learning to make decisions.Mission planning machine decision-making technology. Use operations optimization to complete target analysis and task allocation. Use deep reinforcement learning and swarm intelligence algorithms to machine plan force composition, firepower configuration, and collaborative paths. Tactical planning tends to be rule-based reasoning and easy to break through; campaign planning tends to be knowledge-based reasoning based on experience, involving the art of command, and is more difficult to break through.
Parallel simulation technology for combat plans. With reference to the parallel simulation technology of the “deep green” system the Monte Carlo search tree and game test method are used to simulate enemy combat behavior, rehearse and evaluate the action process, and accumulate feedback reward and punishment functions for learning, training, and decision optimization.
Intelligent generation technology of combat plans. Using intelligent perception algorithms such as natural language understanding, voice command recognition, and sketch recognition, combined with the extraction of elements from the task model, the knowledge graph is used to automatically extract the plan to generate combat plans and command sequences .
Rapid decision-making technology on the spot. Based on the current situation, using the learning data accumulated by the game platform, automatically matching the most appropriate plan adjustment, making dynamic decisions on the plan based on Monte Carlo tree search and transfer learning algorithms, reverse reinforcement learning, and enhancing the generalization ability of the plan.3) Intelligent motion control technologySituation-based improvisation control technology. According to the effects and deviations of combat operations, the resources, paths, and coordination modes of the mission are dynamically adjusted, and parallel simulation multi-branch deduction and reinforcement learning technology are used to correct the deviations, thus realizing tactical “feedforward” control .
Swarm intelligence collaborative control technology. Promote the maximization of the overall effectiveness of battlefield intelligent bodies in collaborative operations, use ant colony and bee colony control algorithms and deep reinforcement learning methods to build a global tactical value network, establish an effect feedback model, and perform strategic control based on the value network.Firepower collaborative control technology. Improve the speed and accuracy of friend-or-foe identification, firepower allocation, and collaborative dispatch, use swarm intelligence and deep reinforcement learning algorithms to automatically plan, coordinate and optimize the strike chain, and have a certain degree of autonomous decision-making ability.
Multi-domain cluster system autonomous collaborative machine planning technology. Use branch search solution, knowledge reasoning, and deep reinforcement learning to plan and allocate collaborative tasks for manned/unmanned systems, and use swarm intelligence optimization algorithms to plan collaborative trajectories for unmanned and manned platforms.Multi-domain cluster system autonomous collaborative command and control technology. It monitors the missions of unmanned clusters and provides autonomous collaborative command and guidance. It uses swarm intelligence algorithms to detect conflicts and avoid collisions among multiple unmanned platforms, and coordinates grouping, routing, and load.
5) Intelligent information service technology.
Intelligent battlefield information sharing technology uses reinforcement learning and semantic association technology to analyze users’ information needs and preferences, generate information needs based on users’ differentiated characteristics, and intelligently push tactical information to users.
Human-computer fusion intelligent perception interaction technology. Construct multi-channel human-computer interaction methods including sketches, spoken language, gestures, head postures, expressions, eye movements, etc., and provide natural, sensitive, accurate and anthropomorphic interaction strategies . Intention-oriented intelligent human-computer interface technology. Using FCM fuzzy cognitive interactive reasoning technology, infer the user’s interactive intention, and organize the interactive interface output by integrating different means such as spoken language, gestures, sketches, and natural language according to the user’s interface needs and interaction preferences.Smart wearable human-machine fusion technology. It uses edge computing technology and new human-machine interaction methods such as voice, gestures, eye movements, brain-computer interfaces, and augmented reality to provide soldiers with smart wearable devices that have a collaborative, integrated, and linked human-machine interaction mode.
7) Virtual gaming and training evaluation technology.
The combat virtual game technology builds a game confrontation test platform, conducts combat knowledge modeling, and uses parallel simulation, branch decision, differential confrontation and other technologies to conduct red-blue confrontation, which not only trains tactics and methods, but also collects tactical data.Machine training and evaluation technology uses the data accumulated by the game platform and the experience of personnel to model, adopts small sample transfer learning technology to train and optimize the algorithm, replays the real data afterwards, performs transfer learning optimization on the decision model, and updates the decision plan.
8) System resilience adaptive reconstruction technology.
Environmental perception and autonomous fault detection technology. Under soft and hard damage, it can detect the main faults and analyze abnormal correlations, predict the occurrence of faults that affect task execution, evaluate the impact of faults on tasks, and realize active perception and rapid location of system resources and faults.System self-healing and reconstruction intelligent technology. When key nodes of the system fail, an adaptive mechanism is used to reallocate resources, achieve capacity regeneration, and continuously ensure the completion of core tasks. The system changes from a fault repair method with preset rules and manual participation to an intelligent system reconstruction method.
9) Tactical edge computing technology.
Mobile micro-cloud service platform technology. Deployed in fog computing mode on vehicles, aircraft, and boats within one hop of the enemy, it provides shared processing capabilities for combat teams and expands the tactical information processing capabilities of team members.Pi-cloud resource sharing technology under weak connection ad hoc network. Based on the individual soldier ad hoc network, the Pi-cloud is constructed using distributed computing technology to support end-to-end autonomous collaborative information sharing and resource sharing between individual soldier mobile devices under weak connection to meet tactical edge needs.
5 Development ideas and ideas
1) Gradually progress in stages, starting with the easy and then moving on to the difficult. In the first stage, image, voice, gesture, face recognition, and natural language understanding are applied to intelligence analysis; in the second stage, deep learning and reinforcement learning are applied to situational awareness and command decision-making; in the third stage, cloud computing is used to realize a knowledge-centered, intelligently empowered system.
2) Select intelligent algorithms for application. Focusing on the application of deep learning in situation and deep reinforcement learning in planning and decision-making, select appropriate tactical backgrounds to verify intelligent algorithms. Tactical-level planning of paths, firepower, tasks, etc. can be used as breakthroughs.
3) Strengthen the construction of knowledge engineering in the field of combat command. Expert rules, military regulations, and actual combat data are the basis of intelligent command. The existing combat rules should be modeled and represented in a knowledge-based manner, and the input and output mapping relationship between knowledge representation and deep learning should be established. The research on knowledge learning and knowledge reasoning methods should be strengthened .
4) Establish a virtual confrontation game platform to accumulate data. Intelligent algorithms require a large number of learning samples. The ways to accumulate samples are: Establish a confrontation game platform to conduct war games, human-machine confrontation, and red-blue confrontation to accumulate data; Collect tactical data from actual combat exercises and build models as training samples.
6 Conclusion
This paper proposes the overall and intelligent concept of the fifth-generation command information system, constructs a new generation of command information system architecture with “intelligent empowerment, human-machine integration, cloud-edge integration, autonomous evolution, cloud-intelligence sharing, and resilience and adaptability”, analyzes its key technologies and capability characteristics, and attempts to achieve cognitive advantages, decision-making advantages, and action advantages based on the fourth-generation system in the world .
There are not many technical verifications for the fifth-generation system in the world, so we should not rush for quick success and still need to conduct sufficient research.
In mid-July 2021 World Internet of Things Expo held a press conference and revealed that the expo is scheduled to be held in Wuxi in early September. At that time, the expo will be themed “Intelligently Connecting Everything and Leading the Future with Digital”, focusing on showcasing the latest achievements in the global Internet of Things field.
The Internet of Things is changing people’s daily lives, quietly changing the form of modern warfare, and promoting the development of intelligent warfare.
Professor Chen Yingwen from the National University of Defense Technology tells you about the military Internet of Things——
Everything is connected, winning thousands of miles away
■Feng Zijian, Qu Shenghui, Qi Xucong
Schematic diagram of military Internet of Things technology simulation.
A “bridge” connecting the virtual world and the real world
The so-called Internet of Things can be simply understood as an Internet that connects everything. If the Internet is a “dialogue” in the virtual world, then the Internet of Things is a “bridge” connecting the virtual world and the real world.
The application of the Internet of Things had already appeared in wars under the name of “sensor networks” more than half a century before it attracted people’s attention.
In the 1960s, the “Ho Chi Minh Trail” on the Vietnam battlefield was covered with tens of thousands of “tropical tree” vibration sensors. These sensors are like a dense “spider web”, waiting for the “prey” to arrive. Whenever a person or vehicle passes by, the sensor detects the vibration generated by the target and records data such as its direction and speed.
At this time, tens of thousands of kilometers away, in an infiltration surveillance center code-named “Task Force Alpha”, US military technicians were receiving and processing relevant information sent back by the “sensor network”. Once a Vietnamese military convoy was discovered passing by, the command center would send instructions to the US troops stationed in Vietnam, instructing fighter planes to fly over the target and carry out bombing.
Due to the limited technology at the time, the sensors could only work for a few weeks. The “spider web” carefully built by the US military ultimately failed to prevent the Vietnamese army from transporting troops and supplies.
Although this “cooperative” combat method between humans and objects did not achieve any good results in history, it has prompted Western countries led by the United States to conduct in-depth research on Internet technology and continuously explore the interconnection between humans and objects, and objects and objects. Its highly informationized advantages are highlighted in many areas of military applications.
After decades of development, some military powers have successively developed a series of military sensor network systems, including the “Smart Dust” system for collecting battlefield information, the “Lumbas” system for remotely monitoring the battlefield environment, the “Sand Straight Line” system for monitoring the movement of weapon platforms, and the “Wolf Pack” system specifically for detecting electromagnetic signals.
Among them, the detection element of the “smart dust” system is only the size of a grain of sand, but it can realize all functions such as information collection, processing and sending, thereby enhancing the ability to control information during combat.
No combat entity will become an “island”
In the world of the Internet of Things, every grain of “sand” will have its network address. For the military Internet of Things, no operational entity will become an “island”.
During the first Gulf War, many weapons and equipment transported by the US military could not be found, resulting in a large waste of war resources. The reason is that the containers transporting weapons and equipment were not clearly marked, and personnel were unable to track the location of the transported weapons and equipment, which led to the loss of a large number of weapons and equipment.
Twelve years later, during the Iraq War, the US military installed radio frequency microchips on every container shipped to the Gulf region, and placed readers and writers according to transportation and storage needs, thereby achieving full tracking of personnel, equipment, and materials, greatly improving the effectiveness of military logistics support.
Foreign research data revealed that compared with the Gulf War, the Iraq War’s sea transport volume decreased by 87%, air transport volume decreased by 88.6%, combat equipment reserves decreased by 75%, and strategic support equipment mobilization decreased by 89%.
In fact, from the moment the electronic tags are attached and the sensing systems are installed, the originally silent equipment becomes like an organic life form that can sense and communicate with each other. Through the transformation of the Internet of Things technology, each combat entity such as combat personnel and combat equipment has become a “network node”. Through perception and communication with each other, the battlefield situation is clearer and combat operations are more efficient.
Take the personnel assessment network established by the Australian Department of Defense as an example: during combat, commanders can assess the physical functions and conditions of soldiers through sensors worn by soldiers, and then combine them with satellite positioning information to obtain the physical function status of all personnel. Commanders can use this as a basis for allocating troops, which can greatly improve the efficiency of battlefield decision-making.
Military IoT technology will play a big role in future battlefields
In today’s world, there are more and more similar military news——
In June 2016, the US military launched an airstrike using drones, killing 16 Taliban members; in September of the same year, Turkish security forces killed 6 terrorists under the guidance of their domestically produced drones.
In the Nagorno-Karabakh conflict in the Middle East in 2020, a video released by Azerbaijan made many people feel the power of networked and intelligent weapons: after the drone discovered the enemy tank, it aimed and fired…
From sensing the battlefield situation to locking onto the target and then launching an attack on the target, the reason behind unmanned equipment becoming the main offensive entity is the huge support of military Internet of Things technology. This huge intelligent information network is like the “clairvoyance” and “super hearing” on the battlefield, allowing combat personnel to sit firmly in the “central military camp” and win the battle thousands of miles away.
“Everything is connected, and victory can be won thousands of miles away.” This is the development trend of military Internet of Things technology and an important feature of future intelligent warfare. In the era of the Internet of Everything, the military Internet of Things will connect several individual combat entities into intelligent combat groups and generate a smart combat system. In the future, it will only be necessary to give the smart combat system clear combat objectives, and military combat personnel will not have to participate in its execution process.
At present, the development of military Internet of Things technology still has a long way to go before it can realize the Internet of Everything, but we should be aware that when smart nodes reach a certain scale, the military Internet of Things will achieve a qualitative leap.
In future battlefields, military Internet of Things technology will surely play a big role in achieving victory through “connection”.
The metaverse is an artificial online virtual world that is born out of, parallel to, and independent of the real world. It is parallel to the real world, reacts to the real world, and integrates a variety of high technologies. These are the three major characteristics of the future metaverse. The operation of the metaverse conforms to the natural laws of human understanding and transformation of the world, and provides a new way of thinking to understand and discover the operating behavior, state, and laws of complex real systems, as well as a new means to explore objective laws and transform nature and society. Researching the application of the metaverse in the field of foreign military training and analyzing the opportunities and challenges that the metaverse brings to the field of military training have important theoretical and practical value in solving the key problems that need to be solved in military training in the intelligent era, promoting scientific and technological training, and promoting the innovative development of military training models.
Background of Cognitive Metaverse Empowered Military Training
The scientific and technological revolution has given rise to a new ecology of military training. Driven by the new scientific and technological revolution and the industrial revolution, cutting-edge technologies such as artificial intelligence, big data, cloud computing, and the Internet of Things have accelerated their development. Technology giants have laid out the metaverse, and human real life has migrated to the virtual world more rapidly. The metaverse integrates a variety of emerging technologies, thus generating new Internet applications and new social forms that integrate the virtual and the real. Perception technology supports the integration of the virtual and the real in the metaverse, “AI+” technology supports the social nature of the metaverse, data transmission technology supports the real-time nature of the metaverse, electronic game technology supports the diversity of the metaverse, digital twin technology supports the sustainability of the metaverse, and blockchain technology supports the security of the metaverse. The future metaverse, where virtual and real are highly interconnected, is born out of, parallel to, and independent of the real world. It integrates all elements such as the Internet, virtual reality, immersive experience, blockchain, and digital twins to build a new basic ecology for intelligent military training.
The evolution of war has dominated the transformation and upgrading of military training. With the advent of the intelligent era, the war situation has accelerated its evolution towards informationization and intelligence. The informationized warfare system with “information acquisition and utilization as the core” will gradually transition to the intelligent warfare system with “intelligent simulation and expansion as the core”. The trend of long-range precision, intelligence, stealth, and unmanned weapons and equipment has become more obvious, and intelligent warfare has surfaced. At the same time, combat elements represented by artificial intelligence such as “AI, cloud, network, group, and terminal” and their diversified combinations have formed a new battlefield ecology. The metaverse has constructed a new battlefield space where virtual and real are integrated and parallel interactions occur. The traditional war winning mechanism is being profoundly changed. The development and changes in the form of intelligent warfare have compulsorily driven the transformation and reshaping of the military’s thinking and concepts, requiring the accelerated transformation and upgrading of military training, greater attention to the impact of technological development and changes on warfare, and the use of the “new engine” of training and warfare to achieve “accelerated” preparations.
Foreign militaries explore breakthroughs in military training models. In order to seize the strategic commanding heights of military intelligence, the world’s military powers attach great importance to the innovation of military training models. Some countries have begun to try to apply the metaverse and related technologies to military training. For example, the United States has successively released the National Security Strategy, the National Defense Strategy and the Department of Defense Transformation Plan, focusing on building an “all-round army” and forming a “full spectrum advantage”. It has also simultaneously formulated the Training Transformation Strategic Plan and the Training Transformation Implementation Plan, and proposed the concept of a comprehensive training environment (STE), the core of which is immersive and integrated virtual training, which intends to integrate real-time, virtual, constructive and gaming environments into a comprehensive training environment. Russia also attaches great importance to the development of virtual training systems. Almost all of its advanced weapons and equipment are equipped with corresponding virtual training systems, and are moving towards universalization and embedding. The United Kingdom, Germany, South Korea, etc. are also actively developing various professional military training virtual environments. Intelligent training supported by technologies such as artificial intelligence, virtual reality and augmented reality is gradually becoming the mainstream of military training research in powerful countries.
Clarifying the Advantages of Metaverse-Enabled Military Training
The emergence of new concepts in military training. Only by leading the opponent in thought can we gain the upper hand in action. The emergence of disruptive technologies will inevitably rewrite the current military training rules and systems, and will also innovate the existing military training thinking concepts. On the one hand, the metaverse has set off a hurricane-like “brainstorm”, and the training thinking led by “intelligence” has organically connected training with actual combat, and upgraded to intelligent military training thinking. On the other hand, new technologies and new means represented by the metaverse empower military training, strengthen the concept of winning by science and technology and intelligent drive, and greatly improve the scientific and technological content of military training, in order to control the initiative in future wars. In the future, the metaverse will create more impossible possibilities by constructing a virtual battlefield space, designing wars and evolving wars.
Innovate new theories of military training. War is the area that needs innovation the most. Military training must adapt to the development of intelligent warfare, and theoretical innovation and training practice must be driven by both. Training transformation will not happen automatically. It requires not only a sharp and profound foresight to grasp the general trend, but also a scientific, powerful and solid theory to drive forward. On the one hand, by keeping up with the development of the times and starting from new concepts and new cognition, we can build a scientific theoretical system for metaverse-enabled military training. On the other hand, by following the laws of combat-training coupling, we can establish an innovative model of intelligent military training theory with the characteristics of the times, allowing the metaverse to empower and improve the efficiency of promoting the iterative development of military training transformation.
Transform the new military training model. The combat style determines the training mode, and intelligent warfare changes the “rules of the game”. Military training for the next war must adapt to the requirements of future wars by changing the training mode. First, it can build an intelligent blue army with “both form and spirit”. With the help of optimized AI technology, powerful computing power support, and realistic performance simulation, the Metaverse follows the evolutionary process of “knowing the enemy, imitating the enemy, surpassing the enemy, and defeating the enemy” to create an intelligent blue army with platform support and data empowerment, and carry out “real” confrontation training and effect evaluation in the Metaverse space. Second, it can carry out new domain and new quality combat training. The metaverse expands the practical application path with new domains and new types of combat forces as the leading elements, highlights the research and development of training methods and tactics that are compatible with advanced combat concepts and winning mechanisms, and creates new forms of training such as unmanned and seamless human-machine collaboration, becoming a new point of combat power growth. Third, it can cultivate new types of military talents. At present, the educational metaverse has led the intelligent transformation of education. In the future, the military metaverse will accelerate the realization of intelligent interaction between people and equipment, deep integration between people and systems, and adaptive evolution between people and the environment, and promote the integrated development of “commanders” and “fighters” into “scientists” and “technicians.”
Reshape the new ecology of military training. The multi-dimensional perception, virtual-real integration, free creativity, and open development of the metaverse will make the future metaverse a fully immersive, time-transcending, self-creating and developing space. First, create a digital twin “battlefield metaverse”. The “battlefield metaverse” will be a typical manifestation of the metaverse in the military field, with stricter security and confidentiality standards, stronger simulation computing capabilities, and more real-time and detailed interaction requirements. Secondly, create a full-dimensional three-dimensional metaverse training environment. The metaverse uses technologies such as virtual reality, augmented reality, and mixed reality to create an immersive and complex scene environment; using powerful data and network support, it builds a full-dimensional space such as land, sea, air, space, electricity, and the Internet. Furthermore, a Metaverse verification platform for weapons and equipment will be built. The platform will have functions such as new weapon and equipment design demonstration, weapon and equipment performance test, weapon and equipment compatibility test, and weapon system combat effectiveness test. In the future, the Metaverse will greatly shorten the timeline for weapons and equipment to go from “weak intelligence” to “strong intelligence” and then to “super intelligence”, realizing the intelligence multiplication effect of weapons and equipment.
Grasping the Key Points of Metaverse-Enabled Military Training
Focus on top-level design. From the perspective of the development of things, the metaverse is a new thing, and its maturity has yet to be verified. Intelligent military training is also a complex, arduous and long-term system engineering, which requires strengthening strategic planning and top-level layout. We should pay close attention to the development trends and technological trends of the metaverse, and scientifically formulate the development plan of the “training metaverse”. In the context of the integration of intelligence, informatization and mechanization, we should give full play to the outstanding advantages of the metaverse, such as enabling trainees to undergo immersive experiential training, so that the metaverse can not only be a display platform for virtual technology, but also a practical platform for improving the effectiveness of military training.
Strengthen technology research and development. From a technical perspective, the Metaverse has reintegrated existing technologies in the information and intelligent technology group, proposed an overall innovative concept, and provided comprehensive application scenarios, thereby giving birth to new vitality. To accelerate the development of the “training Metaverse”, we must speed up the research on basic software and hardware technologies such as algorithm engines and network communications, strengthen the research and development capabilities of core technologies such as artificial intelligence, digital twins, blockchain, and the Internet of Things, and at the same time strengthen the overall technical design and research and development of the Metaverse, such as immersion, sociality, openness, collaboration, and decentralization.
Create training types. From the perspective of time and space, the metaverse may create a vast virtual war space, recreate the war environment, present the war process, and virtualize the future of war. An intelligent military training operation system based on the metaverse should be built, military training concepts should be updated in a timely manner, and innovations in military training models, management support, and legal mechanisms should be deepened. A dynamic and high-level combat-oriented military training environment based on the metaverse should be built to fully support strategic, campaign, and tactical training as well as war simulations. At the same time, in the process of “intelligent adaptation” of military training, we will achieve the expansion of wisdom and intelligent evolution towards the unknown space of military training with “innovation, openness, diversified iteration, and new intelligent ecology”.
Attach importance to risk prevention and control. From the perspective of safety and controllability, the concept and technology of the Metaverse brings innovative opportunities to intelligent military training, but the potential risks associated with the technology itself cannot be ignored. The Metaverse is a huge technology group, and its system architecture, key technologies, and application environment are still in the development and implementation stage. The supporting protection system, safety technology, and management standards will bring security risks. In addition, the integrated application of various emerging technologies in the construction process, the complexity and confidentiality in the application process will be the unknown factors for the key prevention and risk challenges of the Metaverse in military training.
War and civilization always go hand in hand, and military traditions and cultural traditions always complement each other.
Once the ideological and cultural tradition, especially the military ideological and cultural tradition, is formed, it will produce an inertial force that cannot be underestimated. “In the source of Alexander’s victory, we can often find Aristotle.” The outstanding politicians, theorists and military strategists in history have all been influenced by the national ideological and cultural tradition, and their brilliant achievements have all shone with the glory of ideological and cultural tradition.
For thousands of years, the differences between Chinese and Western thought and culture have led to different emphases in the respective societies’ thinking about military activities and different characteristics in war practice, which directly affected the content and characteristics of Chinese and Western military thought and culture.
Guihe and Chongzheng
Human beings have created various civilizations in the long course of history. How different civilizations interact is an issue that no civilization can avoid. Chinese traditional thought and culture emphasize harmony, valuing harmony and pursuing harmony in diversity; while Western traditional thought and culture emphasize struggle, emphasizing control over everything and being the master of the world.
The culture of “harmony” is in the blood of the Chinese people, and “harmony” is the primary feature of traditional Chinese military thought and culture. When our ancestors created characters, they regarded “stopping war” as “martial arts”. In the late Western Zhou Dynasty, Shi Bo proposed that “harmony creates life, while sameness does not continue”, forming the idea of ”harmony but difference” in Chinese culture. The Book of History, Yao Canon, proposed that “the people are bright and the nations are in harmony.” After that, “harmony among nations” became a model of the Chinese worldview. In the early 15th century, Zheng He led the world’s largest fleet at the time and made seven overseas missions without causing any harm. Such a peaceful journey is unique in the world.
In contrast, traditional Western realism, as an important part of Western traditional thought and culture, believes that the world is essentially full of conflicts and confrontations of interests. The ancient Greek philosopher Heraclitus believed that struggle is justice, and everything is created and destroyed through struggle. The famous ancient Greek reformer and military strategist Solon also believed that: “The reason why a civilization can grow and develop is because it has strong imperial ideals and desires for conquest; once these ideals and desires disappear, the entire civilization will dry up and die. Either conquer or be conquered, this is the law of survival of all civilizations.”
Now, some Western countries are trying to “format”, “standardize” and “unify” world civilization under the guise of “universal civilization”. However, one note cannot express a beautiful melody, and one color cannot depict a colorful picture. The unification of civilization will exhaust human creativity and lead to the rigidification and decline of human civilization. In this regard, historian Toynbee once said, “Humanity has mastered the means of highly technological civilization that can destroy itself, and at the same time is in the camp of extremely opposing political ideologies. The spirit it needs most is the essence of Chinese civilization – harmony”. “Harmony in diversity” can promote dialogue and integration of different civilizations and work together to build a community with a shared future for mankind that is inclusive of all civilizations.
Caution and militarism
War and peace are two major themes of human society. In terms of the basic attitude towards war, Chinese traditional thought and culture generally hold the concept of being cautious about war, while Western traditional realism is more inclined to praise and commend war.
In ancient China, wars were frequent. Many thinkers and military strategists closely linked wars with the lives of the people and the survival of the country. They put forward the idea of cautious warfare and pursued the “total victory” of “subduing the enemy without fighting”. Taoists believe that war is a major disaster. Laozi said: “War is an ominous tool.” The “Art of War” points out at the outset: “War is a major event of the state, a place of life and death, and a way of survival and destruction. It must be carefully considered.” Although Sun Tzu attached great importance to war, he also opposed war. In Sun Tzu’s view, “a destroyed country cannot be restored, and the dead cannot be resurrected. Therefore, wise rulers are cautious and good generals are vigilant. This is the way to ensure the safety of the country and the army.” He also clearly put forward three basic principles for limiting war: “Don’t move unless it is beneficial, don’t use unless it is necessary, and don’t fight unless it is dangerous.” Shang Yang also proposed that war is “fighting to end war”, and “the great law of war is to be cautious.” It can be said that the cautious warfare ideas of the pre-Qin scholars have continuously influenced later generations and gradually became the mainstream thought of China’s military tradition.
Western traditional realism holds a more positive view on war, believing that there is natural competition between people and that war itself is in line with human nature. Heraclitus said: “War is the father of all things and the king of all things.” In the eyes of the ancient Greeks, war is the main way to seek honor and become a hero. In Sparta, as long as “the monarchs give a little signal to fight, they will find many people who are willing to take up arms, and their only wish is to gain honor.” Since then, in the long history of development, traditional realism has always influenced the development of Western political philosophy and military philosophy. In modern times, the Western concept of advocating war and force has not been eliminated, and the two world wars have brought great disasters to mankind.
Today, after countless wars, more and more countries have realized that the law of the jungle is not the way for human coexistence, and militarism is not the way for human peace. Humanity is more capable than ever to move towards the goal of peace and development. However, we must also see that the world is not peaceful, and turning swords into plowshares is still a good wish of people. In order to win peace, we must make comprehensive preparations, which also includes research and preparation for war, in order to contain and prevent war. Therefore, being cautious in war should not only retain the traditional meaning of “winning without fighting”, but also add the meaning of “making peace without fighting” and build a mechanism to restrain war.
Kingly Way and Hegemony
In international exchanges, there has always been a debate between “kingly way” and “hegemonic way”. The core of kingly way is benevolence, while the core of hegemonic way is power. Mr. Sun Yat-sen once said that Eastern culture is kingly way, advocating benevolence, righteousness and morality; Western culture is hegemonic way, advocating utilitarianism and power.
It is a tradition of Chinese culture to first make a moral evaluation of war. Since the Han Dynasty, Confucianism has begun to dominate, and Confucian culture has occupied the dominant position in society. It has gradually formed a Confucian ethical order of “benevolence” inside and “ritual” outside, which is the cultural basis for the formation of China’s military tradition. Confucius once said: “Therefore, if people from afar are not convinced, cultivate culture and virtue to win them over.” Mencius also said: “Those who conquer people by force are not convinced by their hearts, because their strength is not enough. Those who conquer people by virtue are satisfied with their hearts and sincerely convinced.” Confucius and Sun Tzu also proposed that “those who have civil affairs must also have military preparations” and “command them with culture and unify them with military force.” In their minds, the benevolent are invincible in the world, and the virtuous are invincible. The way to win the world is the kingly way of practicing virtue and benevolence, not the hegemonic way of conquering by force. During the Spring and Autumn Period, the Five Hegemons who rose in the chaos of war used cultivating virtue and strengthening the army as an inseparable double-edged sword to establish their hegemony. To practice the kingly way, one must win people over with virtue, rely on virtue, use peaceful means, value justice and reason, win over distant countries with virtue, and adapt to foreign countries. Winning with virtue can make people sincerely convinced, which is the highest realm of winning.
Western traditional realism believes that power is the main content of politics, and regards war as a means to win by violence. Force is the main way to deal with relations between countries. Take ancient Greece and ancient Rome as examples. From the founding of the country to the establishment of the country, from the acquisition of rule to the consolidation and maintenance of rule, they always put the pursuit of power first, and regarded the expansion of force and iron-blooded rule as the foundation of the country. In military policy and even national policy, the will of the ruling class is implemented in society more by the iron-blooded spirit. Sparta even stipulated in law that the responsibility and obligation of citizens is to fight and die in battle. However, history and practice have shown that absolute hegemony pursued by force will also put oneself in trouble and will inevitably be defeated or buried by force in the end.
At present, global governance has entered a critical stage, and mankind is facing a historical choice of where to go. Those countries that still cling to the Cold War mentality, hegemonism and power politics are the root cause of world conflicts and turmoil. The concept of building a community with a shared future for mankind proposed by President Xi is a logical extension of China’s “internal harmony leads to external harmony, and internal harmony will inevitably lead to external harmony”, and is China’s value pursuit as a responsible world power. It brings to mankind not greed and demand, but the benevolence of “loving all people and all things”; it presents to the world not conquest, but the tolerance of “harmony among all nations”; it brings to mankind not war, but peaceful coexistence and common prosperity. This is precisely the wisdom contribution of the Chinese nation as an ancient nation with profound cultural heritage to the long-term development of all mankind.
Morality and interests
Human beings’ understanding and thinking about the origin of war has experienced a process of gradually rising from an intuitive and perceptual state to a logical and rational state. “Even war has rules.” On the ideological balance of balancing righteousness and interests, the Chinese and Western military traditions each have their own emphasis on the “moral” principle and the “interest” principle.
The view of righteousness and profit, “righteousness is in profit, and profit is in righteousness”, is an important essence of Chinese traditional culture, emphasizing that righteousness is more important than profit, giving up profit for righteousness, taking profit with righteousness, and thinking of righteousness when seeing profit. “A gentleman is concerned with righteousness, while a villain is concerned with profit” and “A gentleman loves money and gets it in a proper way”, these moral principles that every Chinese is familiar with have become an important cultural gene of our nation. In the ancient Chinese classics, history, and collections, there is almost no content that directly advocates that the purpose of war is to plunder profits, but more of it is accusations against such wars. The Mohists believed that wars were waged for the sake of moral punishment and to punish the unrighteous; Mencius pointed out that wars were waged to punish tyrants, such as the revolution of Tang and Wu; “Xunzi” emphasized that “war is used to suppress violence and eliminate harm”. Military strategists, who were in the main position of ancient military theory, usually used morality as the criterion for evaluating wars, and emphasized whether the use of troops should be considered in accordance with morality, and emphasized that “there is a legitimate reason for the war”, emphasizing that the purpose of war is to maintain morality.
The ancient Western thinking on the issue of war has always been based on the principle of interest struggle. Machiavelli, a famous scholar in the Renaissance, said bluntly: “In order to achieve national interests, no moral principles can be mentioned; as long as the goal is achieved, any means can be used.” Since the principle of interest was clearly running through early practice and cognition, wars in medieval Europe for the purpose of plunder were often naked. All the wars in the West have also confirmed this conclusion. No matter what the cause of the war is, there is a strong interest drive behind it.
Nowadays, some countries use their military superiority to interfere everywhere, and do things to grab interests under the guise of morality, which has torn the originally peaceful and tranquil countries into pieces and made the originally clear and peaceful world into a mess. War is the continuation of politics, and politics is not only the concentrated expression of morality, but also the economy. In the final analysis, war must reflect both the principle of interests and the principle of morality. Therefore, adhering to the correct view of justice and interests and insisting on the dialectical unity of interests and morality is the fundamental requirement of military activities. Only in this way can we avoid the strange phenomenon of winning tactically but losing strategically.
Spiritual and material
As the basic components of war power, people and things cannot be neglected. In this regard, Napoleon said that there are only two kinds of power in the world – sword and spirit. In general, Chinese traditional military thought and culture emphasizes strategy to defeat the enemy, adheres to the logic of wisdom plus strength, and pays more attention to the cultivation of military spirit, while Western traditional military thought and culture emphasizes strong soldiers to win, adheres to the logic of strength plus technology, and even develops into technological determinism.
Chinese traditional philosophy can be called wisdom philosophy, and Chinese traditional culture can be called integrity culture. The ancient sages often regarded reputation as more important than life, and attached more importance to the social significance and moral value of life. Ancient military strategists recognized the importance of morale very early, and often had classic discussions on this when discussing the view of war, strategic thinking and military management concepts, such as “to unite the army and gather the people, it is necessary to stimulate morale”, “if the morale is strong, they will fight, if the morale is lost, they will flee”, “victory is gained by prestige, defeat is lost by losing morale”, etc., and later in military books, there were special discussions on “inspiring soldiers”, “extending morale” and “moral warfare”. This reflects that the ancients attached great importance to the spiritual factors in combat. Han Xin’s battle with his back to the river and Xiang Yu’s burning of his cauldrons and sinking of his boats have become military practice models. Comrade Mao Zedong made a vivid interpretation when evaluating the War to Resist U.S. Aggression and Aid Korea – the enemy had “more steel and less morale”, while we had “less steel and more morale”. The strategic wisdom of maneuvering and calculating and the fighting spirit of facing death with indifference and marching forward courageously have always been our important magic weapon for creating miracles in war.
Western civilization’s thinking is often centered on nature, and focuses on applying the results of natural science. As early as the Peloponnesian War, the Athenian navy carefully designed and equipped warships, relying on the high speed, maneuverability and impact of warships to win. In the Middle Ages, the advancement of firearms technology finally broke through the shackles of feudal knight heroism. Since then, the West has placed more emphasis on keeping one eye on war practice and one eye on new technology. Since Copernicus published On the Revolutions of the Celestial Spheres in 1543, science and technology in the Western world have entered a period of rapid development. It was against this background that Western military technology emerged as a powerful tool for colonists to plunder and conquer the world. The West has always been extremely sensitive to accepting new technologies. Technological innovation and the equally important ability to respond quickly to such innovations soon became the characteristics of Western military culture.
At present, with the rapid development of science and technology and its continuous application in the military field, the great role of things in war is increasingly shown. In particular, the impact of advanced science and technology on the military field is unparalleled in any period in history. It is certainly one-sided to emphasize weapons and neglect spirit, but if it is overcorrected, it is also one-sided to emphasize spirit and neglect weapons. War practice tells us that although the spiritual power in war can make up for the disadvantages of weapons and equipment to a certain extent, it is not infinite. If we do not attach importance to weapons and equipment, the role of spirit in war cannot be maximized, and it will cost more to win in war. On the basis of adhering to the materialist view of history that “it is people rather than things that determine the outcome of war”, we must adhere to the dialectical unity of human factors and material factors, add scientific and technological wings to strategic wisdom and fighting spirit, continuously improve the proportion of scientific and technological composition of combat effectiveness, integrate human initiative with the basic role of things at a higher level, and comprehensively improve the combat effectiveness of the army.
Defense and Offense
Offense and defense are the most basic modes of warfare. Ancient China attached great importance to national integration and national unity, and emphasized the status of defense. It was necessary to maintain its national independence while not expanding outward. It adopted the strategic principle of active defense against foreign invasions. In ancient times, expansionism prevailed in the West, which mainly focused on dealing with foreign nations and paid more attention to offense.
Chinese civilization was born in the heartland of the Central Plains in the Yellow River Basin. It is an agricultural society and has been a multi-ethnic community since ancient times. Chinese traditional culture emphasizes stability, preservation, and restraint. Ancient China has always considered itself the center of the world. These are reflected in military thought, which is to cherish unity, focus on defense, regard internal peace as the top priority of military strategy, and place defense in an important position. There are many discussions about defense in ancient Chinese classics. During the Spring and Autumn and Warring States Period, when military strategists were most prosperous, military strategists such as Sun Wu, Wu Qi, and Sun Bin emphasized defense in general when discussing military affairs, and when discussing offense, they mostly discussed it from the perspective of combat and tactics. Mozi proposed the political and military concept of “non-aggression”. The book “Mozi” handed down from generation to generation describes Mozi and his school’s profound insights on military defense. The Great Wall of ancient China is a materialized symbol of defense thought, reflecting the guiding ideology followed by rulers of different periods in military strategy: advocating both maintaining the independence of their own nation and not expanding outward. The famous scholar John King Fairbank once said that China has always emphasized defensive warfare, which is completely different from the offensive theory of European imperialism.
The ancient West had a tradition of expansion to dominate. Western civilization originated from the Greek peninsula. The characteristic of maritime civilization that “the world is home” makes it mobile and aggressive. At that time, the national defense targets and war edges of those countries were mostly directed at foreign countries. In addition to fighting each other, the nations of Western Europe often united or independently used foreign forces. The places they went to were as close as the Mediterranean coast and as far as Asia, Africa and Latin America. They reflected the cultural characteristics of Westerners who admired force, liked expansion and adventure. For example, the Assyrian wars that broke out many times in history swept across West Asia and North Africa. With the Assyrian Kingdom as the center, various countries launched a melee. All countries that have been glorious and leading in the history of ancient Western countries have a strong desire for conquest. The rise of great powers is accompanied by expansion, hegemony and war. This is the theory in Western culture that a strong country must dominate.
The world is undergoing major changes unseen in a century, and in the face of an international situation characterized by chaos and changes, and to adapt to the new requirements for the development of national strategic interests, we must unswervingly adhere to the strategic thinking of active defense, strive to build a military force that is commensurate with my country’s status and consistent with my country’s development interests, enhance the aggressiveness and initiative of military strategic guidance, carry out diversified military tasks in a broader space, firmly safeguard national sovereignty, security, and development interests, faithfully practice the concept of a community with a shared future for mankind, actively fulfill the international responsibilities of a major power’s military, comprehensively promote international military cooperation in the new era, and strive to contribute to building a beautiful world of lasting peace and universal security.
The organic combination of modern combat requirements of “fast, accurate and efficient” and electronic information technology has given birth to a new generation of combat weapons – intelligent weapons. The continuous emergence and frequent use of high-tech weapons with considerable intelligence on the battlefield will inevitably result in the emergence of intelligent combat styles. In the Gulf War, the US military used a large number of drones with intelligent control devices to conduct aerial reconnaissance, with a total of 522 sorties. The 282 “Tomahawk” cruise missiles launched by the US military attacked targets within 450-2600 kilometers, with a hit rate of more than 90%. The Kosovo War was even more of a “demonstration of results” of weapons with intelligent characteristics. Although precision-guided munitions only accounted for 35% of ground attack munitions in combat, the number of targets destroyed accounted for 74% of the total.
Intelligent technology is a marginal discipline that studies the relationship between electronic computers, human brains and intelligence. Intelligent weapons refer to high-tech weapons and equipment that have some (specific) functions of the human brain, such as reconnaissance, search, identification, aiming, and attacking targets, without manual operation and control, and can be independently completed without manual operation and control. Compared with precision-guided weapons, intelligent weapons can “consciously” find and identify targets to be attacked, and some of them have the ability to distinguish natural language. They are a “thinking” weapon system. In future combat, whoever masters advanced intelligent weapons and means will have stronger combat effectiveness and more initiative.
In terms of weapon intelligence, the key technologies currently under development include: robots; expert systems; intelligent machines and intelligent interfaces; machine vision and image understanding; speech recognition and natural language theory; weapon precision control and smart weapons; automatic target recognition; unmanned vehicles; neural networks and their applications, etc. According to scientific predictions, these technologies will have major breakthroughs in the 21st century and bring about a revolution in intelligent technology.
Scientists predict that intelligent weapons, military expert systems and military robot forces will occupy an important position in the future military field.
Characteristics of Intelligent Warfare
Intelligent warfare is a high-tech warfare form that uses intelligent weapons and means under information warfare conditions to achieve efficient command and control and implement precise and smart strikes. In essence, it is the radiation and extension of human “intelligence” to the information battlefield and weapon systems. From the perspective of combat procedures and means, intelligent warfare includes two major aspects: one is intelligent command and control warfare; the other is the offensive and defensive confrontation of intelligent weapons. The main signs of intelligent warfare are the emergence of intelligent weapon groups and intelligent means and their use on future battlefields. Future intelligent warfare has four significant characteristics.
———Command efficiency. During the Kosovo War, NATO commanded more than 38,000 flight missions to coordinate attacks on the Federal Republic of Yugoslavia from different airports, directions, altitudes, and times. Without the support of the C4I system, it would be impossible to rely on manual command. The amount of information on future battlefields will expand unprecedentedly, and it will be necessary to coordinate the combat forces of multiple services and complex weapon systems in full-dimensional space, which is even more inseparable from the support of advanced intelligent computers. In the future, four changes will be achieved in intelligent command and control: computers will shift from calculation, storage, transmission, and execution of commands to thinking and reasoning; information processing will shift to knowledge processing; the extension of hand functions will shift to the extension of brain functions; electronic warfare, psychological warfare, entity destruction, information deception, and military confidentiality in command and control operations will mainly shift to network operations, ultimately achieving a high degree of intelligence in command and control operations.
———Strike precision. In precision-guided weapons, no matter which guidance method is used, it is inseparable from the key control device with high-speed signal processing and feedback capabilities. It is mainly used to process a large amount of information in real time at high speed, determine the flight direction of the weapon, and control the tracking actuator to guide the weapon to the target. After adopting microcomputer control, each combat vehicle and weapon platform can be connected to the battlefield C4I system, which will further improve the accuracy of missile hits and combat performance. Precision warfare has become an important combat idea and principle of the 21st century military.
———Automated operation. Looking forward to the development of the 21st century, various advanced weapons will be equipped with various types of micro-intelligent computers in the future, various aircraft and ships will be equipped with machine (ship) intelligent computers, tanks will be equipped with vehicle-mounted intelligent computers, artillery systems will be equipped with fire control intelligent computers, anti-missile weapon systems will be equipped with large weapon control intelligent computers, unmanned aircraft known as the “air suicide squad” and unmanned autonomous tanks, tanks and other intelligent weapons will be fully implemented with computer intelligent control, achieving a high degree of automation and intelligence.
———Behavior intelligence. The behavior intelligence of weapons and equipment mainly refers to their “intelligence” such as self-memory, self-searching, self-selection, self-tracking, and self-identification, which greatly improves the combat performance and combat effectiveness of weapons and equipment. In the future, there will be many types of intelligent weapons, which can be divided into lethal intelligent weapons and non-lethal intelligent weapons. Among them, lethal intelligent weapons include soft kill and hard kill. At present and in the future, military intelligent weapons and equipment mainly include intelligent missiles, intelligent ground (water) mines, intelligent combat vehicles, intelligent aircraft, intelligent ships, intelligent C4I systems and intelligent robots, etc. Military robots will play an important role in future high-tech wars. The United States has included more than 100 types of military robots in its development plan. Some US military units have begun to equip application-oriented robots. For example, the 7 mine-sweeping robots of the US First Armored Division have cleared more than 1,000 mines without any casualties.
It can be foreseen that in addition to robot warfare, the 21st century will see the emergence of intelligent missile warfare, intelligent command and control warfare, intelligent network warfare, intelligent drone warfare, intelligent tank warfare, intelligent mine warfare, and so on.
The impact of intelligent warfare
This has led to a qualitative change in the form of war. With reference to the “heat energy” form of energy release in the industrial era, the energy release form of intelligent warfare in the information era is prominently manifested in the following ways: targeted energy release, or the controlled release of energy to make it more consistent with the purpose of war; intelligent energy release forms that combine man and machine, such as weapons that can automatically search, robot soldiers, and intelligent combat vehicles; and systematic energy release forms, which solve the technical problems of intelligent command and control, ensure the integration of joint combat command, and give full play to the overall combat effectiveness of various forces.
Changing the traditional principles of “concentration” and “mobility”. In the future, intelligent warfare will be able to achieve the effects of “point-to-point” and “1+1”, that is, a weapon platform launches a bomb to accurately destroy a target. Intelligent command and control will be able to concentrate various combat forces at the most favorable time and place, and strike the enemy reasonably and effectively. Therefore, intelligent warfare will make the connotation of “concentration” and “mobility” new. Concentration of troops and firepower will be changed to concentration of combat effectiveness; troop mobility will be changed to firepower mobility, so that future combat will develop in the direction of precision, dexterity, and economy.
Give new content to the relationship between people and weapons. No matter how “brave” intelligent weapons are, they cannot change the fundamental fact that people are the main body of war. Intelligent weapons and means are ultimately the extension and development of human capabilities. Compared with other weapons, intelligent weapons are also subject to various human and natural factors. The higher the degree of intelligence, the more it depends on system work. However, we cannot ignore the important role of intelligent weapons in future wars.
Meeting the Challenges of Intelligent Warfare
Develop 21st century combat theory. Our army has always had traditional advantages in military theory, but in the face of future operations, we still have shortcomings in combining combat guidance theory with practice. At present, the primary issue is to further break the old framework, change old concepts, enhance information combat awareness, intelligent combat awareness, strengthen the research of new combat theories in the future, and innovate military theories at all levels of strategy, campaign and tactics.
Develop intelligent technology and weapon systems. To win future wars, we must develop weapons that can win in the future, strive to be the vanguard in key technologies, use intelligent technology as a breakthrough, focus on solving the problems of “sharp eyes, smart brains, long legs, and accurate shooting” in weapon systems, highlight the construction of command automation systems, especially military expert systems, and strengthen the intelligent transformation of existing weapons.
Develop the organization and high-quality talent team of our army. Future intelligent warfare can be said to be a war of knowledge, strategy, technology, and talent. Intelligence will inevitably promote the leanness of the army and put forward higher requirements for the quality of talents. Abstract intelligent weapons are useless. Only by effectively combining well-trained personnel and intelligent weapons can we defeat the enemy. In terms of organizational structure, we should adapt to the needs of future operations, increase the proportion of information technology talents, command and control talents, and new combat forces (military robots, computer protection soldiers, etc.), optimize the combination, and obtain the maximum combat organization function. In terms of talent development, we should update the talent quality structure and knowledge structure, advance the cultivation of talents urgently needed for future operations, and comprehensively improve our army’s ability to win.
National Defense University Research Center for Xi Jinping Thought on Socialism with Chinese Characteristics for a New Era
The Third Plenary Session of the 20th CPC Central Committee is a very important meeting held at a critical period of comprehensively promoting the great cause of building a strong country and national rejuvenation with Chinese-style modernization. It focuses on studying and deploying the issues of further comprehensively deepening reform and promoting Chinese-style modernization, and makes strategic deployments for continuously deepening national defense and military reforms, drawing a blueprint for the new journey of relaying reforms to strengthen the military and constantly creating a new situation in national defense and military modernization. All levels of the military should earnestly study and implement the spirit of the Third Plenary Session of the 20th CPC Central Committee, unify their thoughts, wills and actions, and thoroughly implement the strategy of reforming and strengthening the military, so as to provide strong guarantees for achieving the goal of building the army for 100 years as scheduled and basically realizing national defense and military modernization.
Reform is a key move in designing and shaping the future of the military
Reform and opening up are the most prominent features and the most magnificent aura of contemporary China. The military field is the field with the most intense competition and confrontation, and it is also the field with the most innovative vitality and the most need for reform and innovation. Whether a military can possess an unremitting spirit of reform and a pioneering and enterprising spirit of innovation is an important indicator of its ability to win. Deepening the reform of national defense and the military is the only way to strengthen the military. The driving force for strengthening the military lies in reform, the way out lies in reform, and the future also lies in reform.
The strength of the People’s Army comes from reform and innovation, and the victory of the People’s Army comes from reform and innovation. The history of the growth and development of the People’s Army is a history of reform and innovation. From the establishment of a complete set of principles and systems for building the army under the absolute leadership of the Party during the Agrarian Revolution, to the implementation of the policy of streamlining the military during the War of Resistance Against Japanese Aggression; from the establishment of five major field armies during the War of Liberation, to the repeated adjustments to the system and organization after the founding of New China, to the massive reduction of millions of troops in the new era of reform and opening up and socialist modernization… The People’s Army has been fighting and reforming, building and reforming, and has become stronger and stronger. From the “Sixteen-Character Formula” of the Red Army period, to the “Protracted War” of the Anti-Japanese War, from the “Ten Military Principles” of the Liberation War, to the “piecemeal” of the War to Resist U.S. Aggression and Aid Korea, to the continuous adjustment of military strategic policies after the founding of New China… The People’s Army learned war from war, explored laws from practice, and wrote a vivid chapter of continuous innovation in the art of war leadership in the history of world military. Along the way, reform and innovation have always been an important magic weapon for our army to grow from small to large, from weak to strong, and continuously from victory to victory. Deepening the reform of national defense and the military is the requirement of the times to realize the Chinese Dream and the dream of a strong military, the only way to strengthen the military, and a key move to determine the future of the military. At present, it is a period of hard struggle to achieve the goal of building the army for 100 years. In order to defend national sovereignty, security, and development interests with stronger capabilities and more reliable means, and to provide strategic support for comprehensively promoting the great rejuvenation of the Chinese nation with Chinese-style modernization, it is necessary to continue to deepen the reform of national defense and the military.
Only reformers can make progress, and only innovators can become strong. President Xi Jinping stressed that “the new military revolution has provided us with a golden opportunity. We must seize the opportunity and work hard to not only keep up with the trend and the times, but also strive to be at the forefront of the times.” In today’s world, the new military revolution is surging, the intelligent warfare form is gradually showing its true face in the practice of war, and the new military technology and weapons and equipment system are further affecting the rules of war. All these require us to maintain a keen sense of reform and cutting-edge innovative thinking, base ourselves on the actual development of our army, focus on the needs of preparing for war, think deeply about the new force structure and winning logic necessary to win modern wars, rely on reform to continuously optimize the military system, improve the effectiveness of military governance in line with actual combat requirements, and go all out to fight a tough battle to achieve the goal of building the army for the centenary.
Comprehensively deepening reform has achieved great changes in the People’s Army in the new era
Since the 18th CPC National Congress, the CPC Central Committee with Comrade Xi Jinping as its core has, with great political courage and wisdom, pushed forward the theory and practice of reform of socialism with Chinese characteristics to a new breadth and depth. In the new era and new journey, we must insist on deepening reform to gain creativity, cohesion and combat effectiveness, and insist on the unchanged direction, unswerving path and unreduced efforts, and continuously push forward the modernization of national defense and the army with better strategies, higher efficiency and faster speed, and resolutely complete the mission and tasks of the new era entrusted by the Party and the people.
Grasp the overall changes in deepening national defense and military reforms. Since the Third Plenary Session of the 18th CPC Central Committee, the People’s Army has adhered to the guidance of Xi Jinping Thought on Socialism with Chinese Characteristics for a New Era, thoroughly implemented Xi Jinping’s Thought on Strengthening the Army, and taken the Party’s goal of strengthening the army in the new era as its guide. It has comprehensively implemented the strategy of reform and strengthening the army, and has thoroughly resolved the institutional obstacles, structural contradictions, and policy issues that have long constrained national defense and army building, promoted the reform of the leadership and command system, the reform of the scale structure and force composition, and the reform of military policies and systems, and achieved historic achievements in deepening the reform of national defense and the army. The People’s Army has achieved an overall revolutionary reshaping; the new system, structure, pattern, and appearance have made our army’s winning advantage more prominent, its innovative vitality continuously released, and its morale more uplifting. Practice has fully proved that as long as we unswervingly continue to deepen the reform of national defense and the military, we will be able to create a new situation in the modernization of national defense and the military.
Adhere to the ideological guidance of deepening the reform of national defense and the military. President Xi’s series of important strategic thoughts on deepening the reform of national defense and the military, which are directional, fundamental, and overall, have profoundly clarified the contemporary significance, essential attributes, fundamental guidance, goals and tasks, core requirements, important directions, strategic measures, and scientific methods of deepening the reform of national defense and the military. To carry out the reform of national defense and the military to the end, we must adhere to Xi Jinping’s Thought on Strengthening the Military as the general guidance and general compliance, and consistently use Xi Jinping’s Thought on Strengthening the Military to arm the minds of officers and soldiers, further unify thoughts, deepen understanding, and use it to guide reform practice, further work on resolving deep-seated contradictions and problems, promote the implementation of reform arrangements, and realize the determination and intentions of the Party Central Committee, the Central Military Commission, and President Xi at a high standard.
Advancing national defense and military modernization requires continued reform
President Xi stressed: “On the road ahead, the People’s Army must be brave in reform and good at innovation, and never become rigid or stagnant at any time or under any circumstances.” The People’s Army is a strong backing for national security. The deeper the reform goes, the more it must take responsibility, move forward steadily and courageously, and there must be no slackness or rest. It is necessary to continue to deepen the reform of national defense and the army to provide security guarantees and strategic support for comprehensively promoting the construction of a strong country and the great cause of national rejuvenation with Chinese-style modernization.
The cause of strengthening the military is inspiring, and the goal of strengthening the military inspires fighting spirit. The Third Plenary Session of the 20th CPC Central Committee made strategic arrangements for deepening the implementation of the strategy of reform and strengthening the military. This is not only a call to action for continued reform and attack, but also a drumbeat for determination to strengthen the military. We must focus our efforts on implementing the strategy of reform and strengthening the military, and continuously push forward the cause of strengthening the military in the new era. The mission is imminent, and the goal calls. The goal of strengthening the military depicts the goal map, roadmap and development map for strengthening and revitalizing the military. It is the soul and main line that runs through the deepening of national defense and military reform. The promotion of reform must not deviate from the goal of strengthening the military for a moment or a single moment. The goal of strengthening the military must always be used to measure, regulate and correct, providing a strong impetus for advancing the modernization of national defense and the military.
A strong country must have a strong military, and a strong military must reform. National defense and military modernization are important components of China’s modernization. Further deepening reform and promoting China’s modernization will inevitably put forward new and higher requirements for deepening national defense and military reform. On the one hand, with the increase in the breadth and depth of the practice of China’s modernization, the new progress of comprehensively deepening reform requires our military construction to accelerate and build high quality in improving quality and efficiency. We must uphold the core position of innovation in our military construction and promote national defense and military modernization through reform and innovation. On the other hand, with the practice of modern warfare, especially the militarization of artificial intelligence, the profound changes in the internal mechanism of war and the mode of winning, etc., all require national defense and military reform to seize the opportunity and act in response to the times, and make greater efforts to enhance our military’s joint combat capability based on the network information system and the all-domain combat capability. The Third Plenary Session of the 20th CPC Central Committee made major strategic arrangements around the continued deepening of national defense and military reforms, and proposed a number of important reform measures involving the optimization and adjustment of systems, mechanisms, and institutions, which are highly contemporary, forward-looking, and targeted. All levels of the military must earnestly study and implement the spirit of the Third Plenary Session of the 20th CPC Central Committee, focus on improving the leadership and management system and mechanism of the People’s Army, deepen the reform of the joint combat system, deepen cross-military and local reforms, and constantly create a new situation in strengthening and revitalizing the army.
We should follow the general trend of reform and gather strong forces. To thoroughly implement the strategy of reform and strengthening the military, we need unity of purpose and unity of purpose. We should persist in using the Party’s innovative theories to unite our hearts and minds and strengthen our foundations, arm our heads with Xi Jinping’s thoughts on strengthening the military, unify our thoughts and actions with the decisions of the Party Central Committee, the Central Military Commission and Chairman Xi, and take on the responsibility of thoroughly implementing the strategy of reform and strengthening the military with a high degree of historical consciousness and a strong sense of mission, further consolidate the consensus on reform, strengthen the will to reform, and enhance the confidence in reform. We should focus on summarizing and applying the successful experience of national defense and military reform, deeply grasp the characteristics and laws of reform and strengthening the military, use reform to solve the problems encountered in development, and continuously promote the modernization of national defense and the military to break through obstacles. Party members and cadres in the military, especially leading cadres, must be good promoters and doers of reform, take the lead in tackling tough problems with practical actions, work hard and fast, and make great strides forward in the journey of building a world-class military in an all-round way.
The Fifth Plenary Session of the 19th CPC Central Committee made new and comprehensive arrangements for national defense and military construction, aimed at achieving the goal of the centenary of the founding of the army, and clearly put forward the contemporary requirements and strategic measures for accelerating the integrated development of mechanization, informatization and intelligence. Forging ahead on a new journey, focusing on accelerating the integrated development of mechanization, informatization and intelligence, seizing opportunities, responding to challenges, and taking advantage of the situation are of great significance for accelerating the modernization of national defense and the army and comprehensively improving the ability to prepare for war in the new era.
Recognize the necessity of accelerating the integration of mechanization, informatization and intelligence
Those who follow the trend will win, and those who control the trend will prevail. At present, the new round of scientific and technological revolution is showing a strong trend of intelligent technology leading the way, pushing the world’s new military revolution to develop in depth. The trend of intelligent weapons and equipment is obvious, and the superposition and aggregation effect with mechanization and informatization is prominent. The war form is accelerating from mechanization to informatization, entering the stage of giving birth to intelligent warfare. It is the development and change of the times that has made the acceleration of the integrated development of mechanization, informatization and intelligence become the general trend and powerful driving force for promoting the in-depth development of military transformation, and the inevitable choice to ensure winning the initiative, winning advantages and winning the future.
Comply with the trend of the world’s military revolution. At present, the rapid development of artificial intelligence technology is increasingly having a subversive impact on the field of war and combat. Seizing the strategic commanding heights of artificial intelligence and accelerating the development of artificial intelligence militarization and practical combat have become the strategic frontiers of military competition among major countries in the world. Increasing the intensity of military application of artificial intelligence technology, realizing the deep transformation and comprehensive upgrading of mechanized and informationized combat equipment, embedding artificial intelligence systems into the informationized combat command chain and action chain, and making the combat force organization more modular and integrated through intelligent transformation are the common practices of the world’s military powers in seeking new military advantages. Whether it is possible to accelerate the integrated development of mechanization, informatization and intelligence, especially to fully release the efficiency expansion of intelligence on mechanization and informatization, so that platform operations, system operations and precision operations can obtain higher quality and efficient intelligent support, is undoubtedly a key to whether the strategic initiative of military competition can be firmly grasped.
The need to comprehensively improve the level of modernization. Modernization has a distinct timeliness, and the requirements of the times are the key measure to measure the degree of modernization of a country and an army. Today, we are entering a stage where intelligence is the core driving force of change. The integrated development of mechanization, informatization and intelligence is not only an important symbol of the level of modernization of the country and the army, but also a fundamental measure to promote the modernization of national defense and the army. To accelerate the modernization of military theory, military organizational form, military personnel and weapons and equipment, we need to obtain a powerful engine and support for reform and innovation, transformation and upgrading, quality improvement and efficiency increase from the integrated development of mechanization, informatization and intelligence, and in a certain sense, it plays an important role in determining the direction, mode and path of modernization. Only by accelerating the integrated development of mechanization, informatization and intelligence, and making it run through all aspects of the whole process of promoting modernization, and promoting quality change, efficiency change and power change from a high starting point, can we comprehensively improve the level of national defense and military modernization.
The need to accelerate the transformation of combat effectiveness generation mode. The generation of combat effectiveness, from the combination of people and weapons to the element structure and the way of force release, has its mandatory era orientation and positioning. With the advent of the era of intelligent warfare, unmanned intelligent warfare has become a key factor affecting the direction of the war and even the outcome of the war. Intelligent technology and equipment have become a multiplier of mechanized and informationized combat effectiveness. Accelerating the development of military intelligence has become the strategic focus of improving the combat capability of the system and building new domains and new qualities of combat forces, making the generation and improvement of combat effectiveness increasingly dependent on the level of integrated development of mechanization, informatization and intelligence. Only by incorporating the transformation of combat effectiveness generation mode into the track of integrated development of mechanization, informatization and intelligence, building an intelligent and networked combat command platform, forming a human-machine efficient collaborative combat force use method, and making “smart victory” the core direction of combat theory innovation and combat method transformation, can combat effectiveness construction achieve substantial breakthroughs and overall leaps.
Grasp the requirements of the times to accelerate the integrated development of mechanization, informatization and intelligence
Accelerating the integrated development of mechanization, informatization and intelligence is a new proposition of the times. Grasping its requirements of the times from the perspective of its essential connotation, mode of action and basic laws is an important prerequisite for ensuring that the integrated development has a clear direction, accurate positioning, clear ideas and practical measures.
Grasp the essential connotation of integrated development. Mechanization, informatization and intelligentization are integrated and developed, with mechanization as the foundation, informatization as the leading factor and intelligence as the direction. The so-called integrated development is to form an integrated and unified promotion pattern, build an integrated design, and gather the best and release the energy operation mode, and produce an overall effect of superposition aggregation and quality and efficiency doubling. This deep integrated development is mainly reflected in: taking cognitive integration as the guide, having a scientific understanding of the advantages of firepower, mobility, information power and intellectual value, and establishing the operational concept of comprehensive control, comprehensive integration and comprehensive victory; relying on platform integration, building a combat platform integrating main combat equipment, information network and artificial intelligence, and improving the comprehensive combat capability of full-domain, precise and unmanned; taking system integration as the core, through the embedded transformation of weapon equipment system and information network system by artificial intelligence system, the overall potential of combat force and combat elements is demonstrated with higher quality and level of system integration; with system integration as the support, coordinating the construction of mechanization, informatization and intelligence, coordinating the construction of combat force and support guarantee force, and creating an integrated joint combat system that adapts to the needs of actual combat.
Grasp the role of integrated development. The integrated development of mechanization, informatization and intelligence is a process of showing their strengths, interacting with each other and promoting each other. It is a process of aggregating equipment advantages, information advantages and intelligence advantages. Its role is mainly reflected in: strengthening the leading role of intelligence, focusing on accelerating the development of military intelligence, insisting on using intelligence to drive the leapfrog development of mechanization and informatization, taking intelligence as the core direction of the development of weapons and equipment and information network construction, increasing the research and development of unmanned and autonomous weapons and equipment, and improving the intelligent application, intelligent management and control, and intelligent operation level of information networks, and giving full play to the maximum effect of controlling energy with intelligence, gathering excellence with intelligence, and winning with intelligence; strengthening the leading role of informatization, grasping the information network system as a handle, accelerating the construction of command information systems and information combat systems, using the advantages of information technology to upgrade and transform existing weapons and equipment, and developing precise, intelligent, integrated, and efficient informationized weapons and equipment, and maximizing the adhesion and integration of information networks on combat systems and effectiveness; strengthening the basic role of mechanization, insisting on taking the mechanization of weapons and equipment as the material basis and carrier for the development of intelligence and informatization, strengthening the construction of weapons and equipment systems, and working hard to fill the gaps in the system and make up for the shortcomings and weaknesses, greatly improving the application level of information technology and intelligent technology in weapons and equipment, and enhancing the scientificity, pertinence, and cutting-edge nature of equipment construction and development.
Grasp the basic laws of integrated development. Mechanization, informatization and intelligence are inevitably closely linked, and together they constitute the key support for the generation and improvement of combat effectiveness. The basic laws of integrated development are mainly manifested in: the progressive nature of development and change, which reflects the different historical stages of the evolution of war forms, changes in combat methods, and the development of weapons and equipment in the time sequence; in terms of interaction, the former is the premise and foundation of the latter (for example, mechanization is the foundation and premise of informatization, and informatization is the foundation and premise of intelligence), and the latter is the development trend and higher potential of the former. With the long-term nature of overlapping and coexisting, the former will produce a marginal diminishing effect when it develops to a certain stage, and the latter needs to inject new momentum and vitality into it, but the latter is not a negation or end of the former, but a repositioning and orientation of the former. What needs to be achieved is the “three-in-one” inclusiveness, rather than the “three-choice” mutual exclusion. It has inclusive complementarity. Mechanization focuses on entities, informatization focuses on data, and intelligence focuses on algorithms. The stronger the foundation of the former, the greater the degree of realization of the latter; the stronger the traction of the latter, the faster the upgrading of the former. It has the empowerment of improving quality and efficiency. Weapon platforms need information networks to empower them, and weapon platforms and information networks need artificial intelligence to empower them. This is a process of optimization and upgrading, improving quality and efficiency, and achieving a new leap in combat effectiveness, quality and efficiency.
Tighten the strategic grasp to accelerate the integrated development of mechanization, informatization and intelligence
To accelerate the integrated development of mechanization, informatization and intelligence, we should plan, act and follow the trend, focus on combat effectiveness as the only fundamental standard, continuously promote the modernization of national defense and the armed forces, and realize the party’s goal of building a strong military in the new era.
We should focus on preparing for war. Wars change with the times, and victory changes with the times. We should take accelerating the integrated development of mechanization, informatization and intelligence as an important mission topic to comprehensively improve the ability to prepare for war in the new era. Focus on mission tasks, focus on the new requirements for winning modern wars, conduct in-depth research on the winning mechanism and changes in combat methods brought about by the evolution of war forms, grasp the new characteristics of the informationized and intelligent battlefield, actively explore new tactics for using and responding to intelligent weapons, and improve the informationized and intelligent combat capabilities; focus on transformation and construction, accelerate the transformation of combat effectiveness generation to informatization and intelligence, take military intelligent construction and combat as the main line, accelerate the construction of new domains and new types of combat forces, increase the training of informationized and intelligent talents, and strive to achieve the overall reshaping of combat forces and combat systems; focus on training with war, actively explore new ways of informationized and intelligent training, examine future battlefields and combat opponents from the perspective of “smart war” and “smart victory”, enhance the pertinence of mission topics and emergency response training, use intelligent technology to improve the level of science and technology training, and promote practical training to a higher quality level.
We must focus on deepening reform. Reform is a key move to strengthen the army and win the future. We must accelerate the integrated development of mechanization, informationization, and intelligence as an important focus of deepening national defense and military reform. We must insist on seeking combat effectiveness from reform, focus on the prominent characteristics of the army’s lean, integrated, miniaturized, modular, and multi-functional nature in the intelligent era, design reforms with a forward-looking, innovative, and open mind, establish a smooth and efficient leadership, command, and support mechanism, further integrate force resources, streamline the construction and management mechanism, and optimize the organizational structure. Adapting to the requirements of being able to fight and win battles, we must build a strategic and campaign command system that is integrated in peacetime and wartime, operates normally, specializes in the main business, is lean and efficient, and build a joint combat force system with elite combat forces as the main body, promote the development of the force organization in the direction of enrichment, synthesis, multi-functionality, and flexibility, implement modular organization, building block combination, and task-based joint, build a force with multiple capabilities and broad adaptability, and promote the overall leap in combat effectiveness through system structure optimization and reconstruction.
We should stick to the support point of innovation-driven development. Innovation is the core support for the development of combat effectiveness. We should accelerate the integrated development of mechanization, informatization and intelligence as the focus of implementing the innovation-driven development strategy. We should seek breakthroughs in the innovation of combat theory, closely follow the development trend of military revolution and the recent wars in the world, study the development and application of high-tech, especially intelligent technology and its impact on war, study the new characteristics, new styles and new mechanisms of intelligent warfare, study the winning strategies of intelligent warfare and combat, and accelerate the construction of a combat theory system with the characteristics of our army and in line with the laws of modern warfare. We should seek breakthroughs in scientific and technological innovation, focus on independent innovation and original innovation in national defense science and technology, take the military application of high-tech, especially artificial intelligence technology, as the main direction, accelerate the implementation of major strategic projects in national defense science and technology and weapons and equipment, accelerate the development of strategic, cutting-edge and disruptive technologies, accelerate the upgrading and replacement of weapons and equipment and the development of intelligent weapons and equipment, strive to achieve the transformation from following and running side by side to running side by side and leading, and provide stronger scientific and technological support for the transformation and construction of our army’s combat effectiveness.
(Author’s unit: Joint Operations College of National Defense University)
