Throughout modern warfare, cognitive games have become the focus of offense and defense. Whether one is proficient in planning operations in the cognitive domain will greatly affect the direction and outcome of the war. A deep understanding of the connotation, extension and category style of cognitive domain operations, and an accurate grasp of its winning mechanism and development trend are the keys to understanding the context of the battlefield and winning modern wars.
Cognitive domain operations are the new focus of war games
Different from traditional operations, cognitive domain operations are no longer limited to land, sea, air, space, electricity, network and other fields. It breaks through the traditional physical domain and information domain. It has unique advantages, presents new characteristics, and expands the modern Battlefield new frontier.
Cognitive domain operations expand the war domain space. First of all, the battlefield space in the cognitive domain is broad, mainly reflected in people’s spirit, psychology, thinking, beliefs and other cognitive activities. Its combat targets are mainly hostile heads of state and political figures, military personnel, social elites and the general public. Secondly, cognitive domain operations take a wide range of forms, including but not limited to political and diplomatic pressure, economic blockade and sanctions, cultural penetration and erosion, etc. Thirdly, the goals of cognitive domain operations are wide-ranging, mainly to shake the enemy’s belief, disintegrate the enemy’s will, influence and change the opponent’s decision-making, thereby causing the enemy’s social chaos, decision-making errors, demoralization of the military, and even subversion of its national power.
Cognitive domain operations blur the boundaries of the war domain. The main body of cognitive domain operations is people. People are the most active factor in war, especially the cognition of high-level decision-makers, which embodies the overall will of the war, directly affects the overall situation of the war, and determines the outcome of the war. The cognition of state leaders and military generals is the key target of cognitive domain operations. Popular will, social foundation, and international public opinion are usually the basis for cognitive domain operations and are the key forces that promote the process and direction of war. Cognitive domain operations mix conventional and unconventional operations, blurring the boundaries of the war field. They aim to cognitively induce and attack information recipients, bypassing the traditional battlefield and reaching the weakest link – people. Tactical actions can achieve strategic goals, from Fundamentally change the battlefield environment and change the outcome of the war.
Cognitive domain operations reach the ultimate strategic goal. There is a saying in the ancient Chinese art of war: “The way to use troops is to attack the heart first, and to attack the city below; to fight the heart first, and to fight soldiers lower.” Operations in the cognitive domain aim to occupy cognitive dominance and influence the enemy’s decision-making and behavior. Achieve maximum combat effectiveness at minimum cost. As Clausewitz mentioned in “On War”, “War is an act of violence that forces the enemy to obey our will.” Since cognitive domain operations are not hard kills against living forces, but soft kills against invisible targets, they can not only “force the enemy to obey our will”, but also objectively enable the enemy to destroy itself from within, making it unable to resist, disintegrate, and ultimately Achieve the strategic goal of “complete victory” without fighting.
Cognitive domain operations are a new product of military reform
At present, major changes in the world that have not been seen in a century are accelerating. The international situation is becoming increasingly complex, and local wars and regional conflicts continue. As a new combat method, cognitive domain operations are becoming more and more important driven by the new wave of military reforms.
The laws of war are the basic rules for combat in the cognitive domain. Cognitive domain operations still follow the basic laws of war. First, justice must prevail. Just wars promote historical development and ultimately defeat unjust wars, and cognitive domain operations that occupy the moral commanding heights have the conditions to win first. The second is the victory of the strong and the defeat of the weak. The advancement of science and technology has given rise to advanced military theories and promoted the development of high-tech equipment. Seizing control and control can achieve dimensionality reduction and attack and disintegrate enemy forces. Third, subjective guidance is consistent with objective reality. Cognitive domain operations must be based on a certain objective material basis. The battlefield environment must be comprehensively considered, the situations of both parties must be weighed, and favorable decisions must be made. Fourth, key operations affect the overall situation. In network-centered system operations, the cognitive domain often becomes the most critical link, and its success or failure can determine the battle situation.
Theoretical innovation is the basic support for cognitive domain operations. In recent years, the US military has successively proposed new combat theories such as “hybrid warfare”, “mosaic warfare” and “gray zone conflict”. It regards cognitive domain operations as the main combat method and has formed a relatively mature theory. The Russian army has also developed its own set of hybrid warfare methods in long-term military practice, especially in the Syrian battlefield, where it skillfully used “Gerasimov” tactics to deal with “hybrid warfare.” Japan has also vigorously developed its military power in recent years. In its new version of the “Defense White Paper”, it first mentioned the concept of “domain transversal” operations, aiming to break through traditional fields and regard new fields such as the cognitive domain as the key direction of its military power development, making it more proactive. and extraversion.
Military practice is an important basis for cognitive domain operations. Judging from the recent local wars, cognitive domain warfare has become the main combat method of modern warfare and has achieved high combat effectiveness. The confrontation between cognitive warfare and counter-cognitive warfare is quite fierce. In 2010, the United States and other Western countries launched a cognitive war, hyped up the Tunisian democratic movement and created the “Arab Spring”, which plunged the Middle East into chaos and allowed terrorist organizations to take advantage of the opportunity to wreak havoc. The United States attempted to consolidate its hegemony by overthrowing the Egyptian government, launching a war in Libya, and intervening in the Syrian war. In 2014, the Russian army took control of Crimea through a combination of strategies, multi-dimensional breakthroughs, and public opinion building. Its cognitive domain operations also have very distinctive characteristics.
Cognitive domain operations are a new direction for war planning
With the continuous development of high and new technologies and their widespread application in the military field, the shape of future wars will evolve at an accelerated pace, and the complexity and unknown nature of wars will increase dramatically. To this end, we should plan in advance, coordinate scientifically, strengthen the construction of combat capabilities in the cognitive domain, deeply integrate into the future battlefield, and effectively control the initiative in future wars.
Promote research on the winning mechanism of cognitive domain operations. As an important combat method in future wars, the status and role of cognitive domain operations will be more prominent, and the development prospects will be broader. Controlling cognitive power has become an important part of seizing war control. To win future wars, we must keep up with the trends in the development of war forms, vigorously study the winning mechanism of cognitive domain operations, use theoretical innovation to drive innovation in tactics, and seek advantages and opportunities.
Strengthen the construction of offensive and defensive capabilities in cognitive domain operations. From individuals to organizations to countries, the impact of cognitive domain operations spans all time and space and all elements, spans different combat fields, and affects the entire combat process. In future wars, commanders and combatants will face huge cognitive offensive and defensive challenges. Seizing control of cognitive power, and then seizing comprehensive battlefield control, will become the key point of control in future wars. We should adhere to demand-driven efforts, strengthen the construction of offensive and defensive forces in cognitive domain operations, build a cognitive domain combat system that integrates offense and defense, peacetime and war, and multi-dimensional integration, establish and improve drill and evaluation mechanisms, and continuously improve capabilities through long-term military practice.
Accelerate the research and development of high-tech cognitive domain operations. Currently, with the rapid development of high-tech technologies such as big data, artificial intelligence, and cloud computing, the acquisition of open source information has become more convenient and efficient. Cognitive domain operations are increasingly characterized by fast start-up, low cost, and high efficiency. In addition, with the quiet development of emerging technologies such as neuroscience and brain science, it can be inferred that cognitive warfare weapons will become increasingly abundant and widely used in future wars. We should keep up with the development of the times, plan and design in advance, vigorously develop cutting-edge technologies oriented to seizing cognitive advantages, and promote the update of cognitive domain combat concepts and methods, so as to seize the initiative in future wars.
With the widespread application of artificial intelligence in the military field, intelligent warfare has gradually become a hot topic. History has proven many times that the evolution of war patterns will trigger profound changes in the winning mechanism. In today’s era when information warfare is developing in depth and intelligent warfare is beginning to emerge, the militaries of major countries in the world have vigorously promoted military intelligence, and many of these trends deserve attention.
Strengthen top-level design
Outline a “roadmap” for intelligent warfare
Driven by a new round of scientific and technological revolution and industrial revolution, intelligent military transformation is developing in depth. The United States, Russia, Japan and other countries have regarded artificial intelligence as a disruptive technology that “changes the rules of the war game” and have made arrangements in advance, strengthened top-level design and planning guidance, and explored the direction of military application of artificial intelligence.
In “Preparing for the Future of Artificial Intelligence”, “National Artificial Intelligence Research and Development Strategic Plan”, “Artificial Intelligence and National Security”, “Comprehensive Roadmap for Unmanned Systems from Fiscal Years 2017 to 2042” and “U.S. Artificial Intelligence Plan”: “First Annual Report” and other documents detail the development status and development plans of artificial intelligence, and elevate the development of artificial intelligence to the national strategic level. In 2021, the U.S. military pointed out in its “U.S. Department of Defense Artificial Intelligence Situation: Assessment and Improvement Suggestions” that the U.S. military should consider three guiding questions when developing artificial intelligence: What is the current status of artificial intelligence related to the U.S. military; What is the posture regarding artificial intelligence; what internal actions and potential legislative or regulatory actions may enhance the U.S. military’s artificial intelligence advantage.
Russia has invested a lot of resources in order to maintain a balance with the United States in the competition with the United States in the military application of artificial intelligence. In 2021, Russian President Vladimir Putin stated at the first Ministry of Defense meeting of the year that artificial intelligence will greatly promote changes in the military field, and the Russian Federation’s armed forces must accelerate the research and development of artificial intelligence application technologies such as robots, intelligent individual soldier systems, and weapon intelligent modules. work to form core technical capabilities and battlefield competitive advantages as soon as possible. Documents such as the “Special Outline for the Research and Development of Future Military Robot Technology and Equipment by 2025”, “Future Russian Military Robot Application Concept”, “The Development Status and Application Prospects of Artificial Intelligence in the Military Field” have established the national level for the Russian military to promote the military application of artificial intelligence. A series of mechanisms.
The Japanese government has also introduced the Artificial Intelligence Strategy, aiming to lead the research and development of artificial intelligence technology and industrial development. In the “Robotics and Artificial Intelligence” strategic plan formulated by the United Kingdom, the application of artificial intelligence in battlefield construction is emphasized. In January 2021, the Australian Department of Defense released “Fighting Artificial Intelligence Warfare: Operational Concepts for Future Intelligent Warfare.” This document explores how to apply artificial intelligence to land, sea, and air combat fields.
innovative operational concepts
Promote intelligent warfare with “ideas first”
The innovation of operational concepts has an ideological pulling effect on the development of military science and technology and the evolution of war forms. In the past, people’s understanding and understanding of war mainly came from the summary of practical experience. The concept of combat is the concept of experience. In the future era of intelligent warfare, the concept of combat is not only an empirical concept, but also the conception, design and foresight of combat.
The U.S. Army has proposed the concept of “multi-domain warfare”, which requires deep integration and close coordination of combat capabilities in land, sea, air, space, electromagnetic, network and other domains. To this end, the U.S. Army has successively released white papers such as “Multi-Domain Warfare: The Development of Combined Arms in the 21st Century (2025-2040)”, “U.S. Army Multi-Domain Warfare (2028)” and “Using Robots and Autonomous Technology to Support Multi-Domain Warfare”. In March 2021, the U.S. Department of the Army released the document “Army Multi-Domain Transformation: Preparing to Win in Competition and Conflict”, indicating that “multi-domain warfare” has become a “flag” leading the transformation and development of the U.S. Army. The U.S. Defense Advanced Research Projects Agency proposed the concept of “mosaic warfare”, aiming to create a highly decentralized and highly adaptable “kill network” composed of different combat functional units and based on advanced computer technology and network technology. The U.S. Department of Defense strongly supports the concept of “joint all-domain operations.” In March 2020, the U.S. Air Force took the lead in writing “Joint All-Domain Operations” into its doctrine to explore how the Air Force can play a role in “Joint All-Domain Operations.”
The Russian army proposed the concept of “charge disintegration”. “Disintegration” is currently one of the most important operational concepts in Russia. The Russian electronic warfare force sets the goal of disabling the enemy’s information, command, electronic warfare and robotic systems, believing that this goal will “determine the fate of all military operations.” Disrupting the command and control of enemy forces and weapon systems and reducing the efficiency of enemy reconnaissance and weapons use are the primary tasks of electronic warfare. Currently, the Russian army is considering forming 12 types of electronic warfare units. The Russian military also proposed the concept of a “non-nuclear containment system”, the core of which is to use non-nuclear offensive strategic weapons to contain opponents. The non-nuclear offensive strategic weapons defined by it include all ballistic missiles equipped with non-nuclear warheads, as well as strategic bombers and long-range air-based and sea-based cruise missiles. In addition, the Russian military has also proposed the concept of “hybrid warfare”, hoping to use artificial intelligence systems to seek battlefield information advantages.
The British Ministry of Defense has proposed the concept of “multi-domain integration” and will develop a new command and control system with intelligent capabilities to achieve comprehensive, durable, accurate and rapid battlefield perception and force coordination.
Focus on technology research and development
Shape intelligent warfare operations model
The key to AI’s effectiveness is its combination with a variety of other technologies, also described as the “AI stack.” Various technologies interact to create a combined effect, thereby enhancing the capabilities and effects of each technology. In intelligent warfare supported by artificial intelligence technology, the collaborative combat mode of “man-machine integration, cloud brain control”, the cluster combat mode of “mixed grouping, swarm intelligence”, and the cognitive warfare of “intelligence-led, intelligence-based attack first” models, etc., will continue to update people’s understanding of war.
Focus on the research and development of innovative projects. The US military is vigorously promoting the application of artificial intelligence chips in existing weapons and equipment systems, adding “intelligent brains” to weapons to enable them to have human-like thinking and autonomous interaction capabilities. In October 2021, the US Navy launched the “Beyond Plan”, which is regarded as the “current highest priority”. It aims to build a maritime combat military Internet of Things, integrate manned and unmanned joint formations, accelerate the delivery of artificial intelligence and machine learning tools, and support The new intelligent naval architecture improves large-scale firepower destruction and realizes intelligent distributed naval operations. In addition, the U.S. Defense Advanced Research Projects Agency has also carried out cognitive electronic warfare projects such as “Adaptive Electronic Warfare Behavior Learning”, “Adaptive Radar Countermeasures” and “Communication under Extreme Radio Frequency Spectrum Conditions”, and developed a cognitive radar electronic warfare system prototype. machine. The Russian Ministry of Defense’s Intelligent Technology and Equipment Scientific Research and Testing Center cooperated with the Institute of Control Problems of the Russian Federal Academy of Sciences to develop and test autonomous intelligent algorithms including the command and control of UAV groups. It also jointly developed objects based on neural network principles with the National Aviation Systems Research Institute. Automatic recognition software system.
Establish innovative R&D institutions. The continuous emergence of new technologies is an inexhaustible driving force for the vigorous development of military intelligence. High-level military intelligence construction is inseparable from the technical research and development of specialized institutions. Some countries and militaries have established R&D centers to focus on innovation and development at the technical level. The U.S. Department of Defense has established a Joint Artificial Intelligence Center and plans to build the center into a national key laboratory to lead hundreds of artificial intelligence-related projects and ensure the efficient use of artificial intelligence-related data and information to maintain the U.S. technical advantages in this field. Russia has established the Artificial Intelligence and Big Data Alliance, the National Artificial Intelligence Center, and the Robotics Research and Test Center under the Ministry of Defense to mainly carry out theoretical and applied research in the fields of artificial intelligence and information technology. France has established an innovative defense laboratory, the United Kingdom has established an artificial intelligence laboratory, and India has established an artificial intelligence task force to explore related technologies.
Strengthen equipment research and development and installation. In recent years, many countries have attached great importance to the research and development of intelligent weapons and equipment, and unmanned aerial vehicles, unmanned combat vehicles, unmanned ships, unmanned submarines, etc. have continued to emerge. Currently, the U.S. Air Force has begun to practice the combat concept of “man-machine collaboration, man-in-the-loop” on the F-35 fighter jets. The US XQ-58A “Valkyrie” stealth drone previously mainly conducted man-machine collaborative operations with F-35 and F-22 fighters. In April 2021, the stealth drone was successfully launched into the ALTIUS-600 small drone system, further Improved its manned and unmanned collaborative combat capabilities. Russia is focusing on reconnaissance and surveillance, command and decision-making, fire strikes, combat support and other fields to develop and field intelligent equipment. It plans to increase the proportion of unmanned combat systems in weapons and equipment to more than 30% by 2025. Russian ground unmanned combat weapons, represented by the “Uranus” series and “Platform-M” and “Argo” models, have developed rapidly. Among them, the Nerekhta unmanned combat vehicle can be equipped with remote-controlled machine guns and rocket launchers. In addition to having the combat effectiveness of ordinary armored vehicles, it also has transportation and reconnaissance functions. In addition, the Japan Self-Defense Force plans to formally deploy unmanned aerial formations with strong combat capabilities in 2035.
Complexity science is one of the frontier fields of contemporary scientific development. It is a new tool for understanding, understanding, and exploring the phenomena, laws, and mechanisms of war. As the form of war evolves from information war to intelligent war, the complexity of war shows an exponential growth trend, and it becomes increasingly difficult to seize control of information. The key to combat is to put the enemy into a “decision-making dilemma” so that it can even Even with information superiority, it cannot make correct decisions, thus losing its combat advantage. The focus of operations will change from “information-centered” to “cognition-centered”, and the winning mechanism will change from “information winning” to “cognitive winning”.
“Three changes” reveal the driving forces behind the increasing complexity of war
War is a field full of possibilities, and change is the basic characteristic that runs through it. President Xi stressed that we must pay close attention to changes in technology, war, and opponents. Changes in science and technology are the foundation, changes in war are the subject, and changes in opponents are the key. Changes in science and technology lead to changes in war, and changes in war prompt changes in opponents. The “three changes” have promoted the evolution of war forms, the expansion of war fields, the transformation of war goals, and the expansion of war influence, revealing the driving forces behind the growth of war complexity.
Changes in technology have overturned the basis for winning wars. Science and technology are the core combat effectiveness and the most active and revolutionary factor in military development. Throughout the history of the world’s military development, every major scientific and technological innovation has started a new military revolution, and every military revolution has pushed military development into a new era. Scientific and technological innovation has become a huge engine to improve the military’s combat effectiveness. . At present, a new round of scientific and technological revolution and military revolution are accelerating. The degree of informatization of modern warfare is constantly increasing, and the characteristics of intelligence are becoming increasingly apparent. The role of driving the military revolution is becoming more and more prominent. The rapid development of some cutting-edge technologies may fundamentally change the face of war and war. According to the rules, the military game between great powers is more embodied in technological subversion and counter-subversion, raids and counter-raids, offsets and counter-offsets. The U.S. Navy’s “Nemesis” project includes reconnaissance, decoy, jamming and other systems. The decoy system covers air, surface and underwater. Under the scheduling and control of the distributed artificial intelligence engine, it can complement each other, coordinate deception, and truly create a A “ghost aircraft carrier formation” completely subverted traditional electronic deception methods and raised information deception to an unprecedented level. It can be said that science and technology has never had such a profound impact on the overall situation of national security and military strategy as it does today. It has profoundly intervened in, supported, and dominated the evolution of war forms and the innovation of combat styles, and has even subverted the mechanism of winning wars.
The U.S. Navy’s “Nemesis” project is based on networked collaborative electronic warfare
Concept, integrating different systems and utilizing unmanned distributed
Clusters of electronic warfare platforms enable large-scale collaborative electronic warfare
The changes in war highlight the complexity of war. Modern warfare is undergoing profound changes, showing unprecedented diversity and complexity. This super complexity stems from many reasons: first, various advanced technologies or weapons are constantly emerging, bringing many uncertainties; second, the battlefield covers land, sea, air, space, network, electricity and cognitive and other multiple third, multiple combat objects, combat styles, combat areas, and combat methods are cross-correlated and combined to form a complex “hybrid war”; fourth, artificial intelligence algorithms build a large number of combat elements into a complex logic, and use human Machine speed beyond the reach of thinking prompts the combination, deconstruction, and recombination of various elements. In the Ukraine crisis in 2022, on the surface it is a confrontation between Russia and Ukraine, but in essence it is a “hybrid war” between the United States and Western countries and Russia; the Russian and Ukrainian armies extensively use military and civilian drones to expand The “unmanned +” application model shows the prototype of future unmanned intelligent operations; with the support of U.S. NATO air and space situational intelligence, the Ukrainian army frequently uses low-cost unmanned equipment to carry out raids on important Russian weapons platforms, highlighting its new qualities Combat forces have asymmetric attack advantages against large weapons and equipment in traditional combat systems. Changes in technology will eventually lead to changes in war. The impact of a single element on war will become weaker and weaker. The joint combat system composed of multiple elements will have a complex impact on war. War is non-linear, uncertain, chaotic and open. Complex characteristics such as adaptability and confrontation will increase exponentially, which will make it more difficult for people to judge the progress and outcome of the war.
Changes in opponents accelerate the growth of war complexity. Changes in war prompt changes in opponents. Currently, we are experiencing major changes unseen in a century. Major military powers are actively making strategic adjustments and promoting a new round of military reforms, which exhibit the following characteristics: first, the trend of joint, miniaturized, and autonomous institutional establishments has become more obvious; second, The first is that weapons and equipment are showing a development trend of digitization, precision, stealth, unmanned, and intelligence; the third is that the combat form is moving towards the “four nons” (non-contact, non-linear, asymmetric and irregular) and the “three nos” (Invisible, silent, unmanned) combat; fourth, the military command form is developing in the direction of flattening, automation, networking, and seamlessness. The United States regards China as its main strategic opponent and strives to suppress and contain China. It has vigorously strengthened the innovation of operational concepts and has successively proposed new operational concepts such as “hybrid warfare”, “multi-domain warfare” and “mosaic warfare”, claiming that it will fight to defeat its opponents. A high-end war in which “technology cannot be understood, strikes are difficult to predict, and speed cannot keep up.” The core of the US military’s “mosaic warfare” is unmanned, low-cost, fast, lethal, flexible and reconfigurable. It is based on distributed situational awareness, with the help of intelligent auxiliary decision-making tools and the concept of building blocks and jigsaw puzzles to adaptively formulate mission planning. , dynamically reorganize combat forces, decompose the functions of the combat platform into a larger number of single-function nodes, and build a combat system with a large number of functional nodes. Replace the “kill chain” with a “kill network”. Several nodes will fail or be missing, and the combat system can be adaptively reorganized.
The increasing complexity of war drives the transformation of the winning mechanism of war
With the rapid development of national defense science and technology, the upgrading of weapons and equipment, and the rapid evolution of war forms, modern warfare has shown exponential and explosive complex changes. These changes may seem dazzling, but there are rules to follow behind them. The fundamental thing is that the winning mechanism of war has changed. Only by thoroughly understanding the winning mechanism of modern war can we accurately recognize changes, respond scientifically, be good at seeking change, and firmly grasp the initiative in future wars.
The form of war has changed from cold weapon warfare to intelligent warfare . The shape of war is a holistic understanding of war. So far, human war has generally gone through four historical stages: cold weapon war, hot weapon war, mechanized war, and information war, and is moving towards intelligent warfare. The history of cognitive warfare is almost as old as the history of human warfare. In the era of cold weapon war, hot weapon war, and mechanized war, cognitive warfare appears more in the form of public opinion warfare and psychological warfare. As mankind enters the information age, the development of cyberspace technology has greatly expanded the space for cognitive warfare, enriched the technical means of cognitive warfare, and greatly enhanced the permeability, timeliness, and deterrence of cognitive warfare. The status and role of Zhizhan have been unprecedentedly improved. In the future, the form of war will enter intelligent warfare, and a large number of intelligent weapon systems and platforms will be equipped with the military and put into combat. Cognitive warfare can not only interfere with and deceive the cognition of enemy personnel, but also attack the cognition of smart equipment through algorithm deception methods such as “adversarial input” and “data poisoning”. Its application scenarios and scope will be further expanded. , the status and role will be further improved.
Drones have gradually become the protagonist of war,
Combat complexity further increases
The purpose of war has changed from conquering by force to conquering by spirit. The winning mechanism of modern war has undergone great changes compared with the past. The violence of war has been curbed. The purpose of combat has changed from the original siege of cities and territories and annihilation of the enemy’s effective forces to making the opponent obey one’s own will. The means of combat have changed from conquering by force to conquering more areas. The emphasis on psychological and spiritual conquest and transformation has made cognitive warfare increasingly prominent in its status and role in modern warfare. In recent years, “hybrid warfare” has become a major means of great power competition. More and more countries have begun to focus on using new fields and new means to achieve political, military, and economic goals that are difficult to achieve with traditional warfare. “Hybrid war” is a mixture of war subjects such as states, non-state actors and individuals, a mixture of conventional warfare, unconventional warfare and other war styles, a mixture of military operations such as combat, stability maintenance and reconstruction, and a mixture of political, military and economic The mixture of multiple fields such as military and people’s livelihood is a mixture of multiple combat goals such as defeating the enemy and winning the hearts and minds of the people. This is highly consistent with cognitive warfare. The operational field of “hybrid warfare” has expanded from the military field to politics, economy, culture, people’s livelihood and other fields; the combat methods have expanded from firepower warfare and troop warfare to diplomatic warfare, economic warfare, cyber warfare, psychological warfare, public opinion warfare and other directions. This is highly consistent with cognitive warfare. Its core essence is to “make profit out of chaos”, its main purpose is to win people’s hearts, and its combat guidance is to win by cleverness.
The winning domain of war changes from the physical domain and information domain to the cognitive domain. Modern war occurs in three fields: physics, information and cognition at the same time. The physical domain and information domain are separated from the material domain, and the cognitive domain is separated from the spiritual domain. The physical domain is a traditional war domain, consisting of combat platforms and military facilities, which provides the material basis for information warfare. The information domain is a newly emerging war field, that is, the space for information generation, transmission and sharing, and is the focus of information warfare competition. Cognitive domain is the scope and field involved in human cognitive activities. It is not only the space for human feeling, perception, memory and thinking activities, but also the space for knowledge generation, exchange, association, storage and application. It is also the space for perception, judgment and decision-making in combat activities. and spaces of command and control. The cognitive domain exists in the field of consciousness of combatants and affects their judgment and decision-making. It is a rising field of warfare. With the development of technologies such as network information and artificial intelligence, the scope of the cognitive domain has greatly expanded, and is expanding from the field of human consciousness to the field of modern cognitive tools and artificial intelligence. The development of military technology has expanded the scope of the cognitive domain, providing more advanced, faster, and more effective material and technical means for cognitive warfare, greatly enhancing the permeability, timeliness, and deterrence of cognitive warfare, and fundamentally It has changed cognitive warfare, making the cognitive domain a new winning field that transcends the physical domain and information domain, and has become the ultimate domain for great power games and military confrontations.
The mechanism for winning wars changes from information victory to cognitive victory. In the final analysis, war confrontation is a game and confrontation of cognition. Mastering the right to control cognition will largely control the initiative in war. Losing the right to control cognition will put you in a passive position of being beaten in the war. Obtaining higher and stronger control rights is the key to defeating powerful enemies. Finding ways to control cognitive power and then seize comprehensive battlefield control, so as to achieve maximum victory at the minimum cost, is an important mechanism and inherent law of modern warfare, especially cognitive warfare. In recent years, the U.S. military has successively proposed new concepts of future warfare represented by “decision-centered warfare” and “mosaic warfare”, intending to use complexity as a weapon to create multiple dilemmas for opponents, requiring it to ensure its own tactical “selective advantage”. At the same time, by creating highly complex decision-making influences on the enemy and interfering with its decision-making capabilities, it can achieve a subversive advantage over the enemy in the cognitive domain. In the primary and intermediate stages of information warfare, the key to combat is to seize network control and information control, which runs through the progressive model of “network advantage → information advantage → decision-making advantage → combat advantage”. After information warfare enters an advanced stage, it becomes more and more difficult to seize control of information. The key to combat is to make the enemy fall into a “decision-making dilemma” so that even if it has information superiority, it cannot make correct decisions, thereby losing its combat advantage and having recognition. Only by knowing the advantages can you have the combat advantage. In future wars, cognitive advantage will be the most important strategic advantage, and cognitive confrontation will be the most important form of confrontation. It can be said that “without cognition, there is no war.”
Coping with complex wars has given rise to the concept of cognitive-centered warfare
In order to cope with the exponential growth trend of the complexity characteristics of modern warfare, we must use the theories and methods of complexity science to change the concept of platform-centered warfare where firepower is supreme and killing is king, and establish a cognitive-centered combat thinking. Cognition-centered warfare refers to taking the cognitive domain as the winning area, taking the cognitive advantage as the operational goal, and focusing on interfering with cognitive means, suppressing cognitive channels, affecting cognitive production, and conducting cognitive operations on enemy personnel and intelligent equipment. Interference, suppression, deception and inducement are a new operational concept that obtains combat advantages by seizing and maintaining cognitive advantages. Its main winning mechanisms are as follows.
Sun Tzu mentioned in “The Art of War” that “there is no constant force in an army;
Water has no permanent shape; those who can win due to the changes of the enemy are called gods.
Use cyber deterrence to destroy the enemy’s will to fight. Targeting the enemy’s political, economic, military, diplomatic, and cultural contradictions and weaknesses, disseminate deterrent information through cyberspace, or publish military parades, large-scale military exercises, new weapons and equipment research and development and other information through the Internet, so as to cause extreme cognitive and psychological changes in the opponent. Great fear and shock, deterring the enemy is not conducive to the implementation of my actions. Comprehensive use of network and electricity attack methods to carry out point strikes and warning attacks against the enemy’s important network and electricity targets and key core nodes, destroying the enemy’s system combat capabilities, affecting the normal performance of the enemy’s weapons and equipment, and providing psychological deterrence to the enemy. The US military’s “gray zone operations” theory relies on its own technological advantages and mainly takes actions such as cyber and electronic countermeasures to respond to the opponent’s “gray zone provocation” and deter the opponent from giving up “confrontation” or escalating the conflict, putting it in a dilemma.
Use information deception to induce the enemy to make misjudgments. Aiming at the enemy’s reconnaissance equipment, intelligence agencies and command systems, use cyber attacks, electronic deception and other means to conceal one’s military intentions, military operations and military objectives, and transmit to the enemy erroneous and false combat plans, troop configurations and operations. capabilities, combat plans, battlefield situation, etc., or use the enemy’s command information system to send false orders and information to induce the enemy to make wrong judgments and disrupt the enemy’s combat command. Implement new attacks such as “adversarial input” and “data poisoning” against artificial intelligence algorithms, allowing them to obtain preset conclusions through deep learning training, or causing them to fall into local optimal solutions and ignore the global optimal. Use technologies such as computer imaging, video synthesis, virtual reality, and artificial intelligence to synthesize sounds, videos, images, text information, etc., or use “deep fake” technology to generate false information that is difficult to distinguish between true and false, and transmit it through the Internet Spread in large quantities to confuse and deceive opponents and influence their decisions and actions.
Use information suppression to block the enemy’s cognitive means. Target the enemy’s important network targets, as well as core routers, switches, gateways, key servers, etc., and use “soft” and “hard” attack methods to destroy their network nodes. Based on the networking characteristics of wireless links such as the enemy’s command and control network, communication transmission network, weapon hinge network, and early warning detection network, comprehensively use technologies and means such as electronic jamming, GPS spoofing attacks, command link takeover, and data hijacking control to suppress them. Data communication, blocking its communication links and interfering with its combat command. Implement cyber-paralysis attacks on enemy command and control, military communications, early warning detection, aerospace information and other military networks, destroying core networks that affect their operations and weakening their combat capabilities.
Use public opinion propaganda to create a favorable public opinion environment . Cooperate with the country’s political, military, and diplomatic struggles, vigorously promote one’s own justice in the war, and stimulate the enthusiasm of all people to fully support the war. With the help of new media platforms such as instant messaging tools, online forums, podcasts, Twitter, and WeChat, we can systematically disseminate information that targets the enemy’s weaknesses. After gaining widespread attention and consensus, we can then promptly report information, create new hot spots, and repeatedly build momentum. Enhance the influence and form a resonance effect to expand the effect. Propaganda “sets the tone” by cleverly setting agendas, building public opinion through powerful media, setting off a “spiral of silence”, controlling and guiding public opinion, and changing people’s opinions and behaviors.
Use psychological attacks to undermine the morale of enemy soldiers and civilians. Through the Internet, processed and processed information is widely disseminated to promote one’s justice, demonstrate one’s strength, will and determination, vilify the enemy politically and morally, gather the thoughts and will of the military and civilians internally, and strive to win externally. The commanding heights of law and morality can “soften” and “weaken” the enemy spiritually. Use a variety of network communication methods and technical means to send various deceptive, disruptive, inductive, and deterrent messages to the enemy’s military and civilians in a targeted manner to attack the enemy’s psychological defense line, promote an ineffective confrontation mentality, and then lose combat capabilities. . Through the Internet, we can create, guide, plan, build, and expand momentum to create a “momentum” that is beneficial to ourselves but not beneficial to the enemy, causing a psychological impact on the other party’s people, thereby affecting or changing their psychological state, and implementing effective psychological attacks.
Use legal struggle to obtain legal and moral support. Use legal weapons to curb the enemy’s possible or future illegal acts, declare the legality of our actions, affirm our power of military counterattack, declare our determination to pursue war responsibilities, and deter the enemy. By exposing the illegality of the enemy’s provocative behavior, criticizing the legal basis for the enemy’s combat operations, and condemning the enemy’s illegal behavior, it causes the enemy’s strategic defeat and our own strategic gain. Use legal means to restrict the enemy’s possible actions, limit the possible interference of third parties, and block other parties from interfering with our own actions. Formulate the laws and regulations necessary for our operations to provide legal protection for our operations, or take legal remedial measures to reduce the possible negative impacts of our operations and ensure that combat operations are carried out in accordance with the law.
Analysis of the characteristics and development trends of cognitive domain operations
Cognitive domain operations take people’s will, beliefs, thinking, psychology, etc. as direct combat objects, and then affect their decisions and actions by changing the opponent’s cognition. Entering the era of information-based and intelligent warfare, cognitive domain warfare has become an important form of great power game, with all parties striving to achieve political goals in a relatively controllable manner. Gaining insight into the characteristics and development trends of cognitive domain operations is of urgent and important practical significance for winning future wars.
At present, the cognitive domain has entered the war stage as an independent domain, and has increasingly become a common domain, a battleground, and a weight for victory in the game between great powers. Analyze the characteristics and development trends of cognitive domain operations, which are reflected in at least the following eight aspects.
The cognitive domain is the key domain for transforming military advantage into political victory.
On the surface, military confrontation is a confrontation between the hard power of both sides. On a deeper level, no matter what the nature of the war is and for what purpose, it is ultimately a contest of human wills. The key to victory is the ability to impose your will on your audience. As long as the enemy’s will to fight is deprived and defeated, the war is won. Cognitive domain warfare uses human will, spirit, psychology, etc. as the target of confrontation, strengthening one’s own will while weakening the enemy’s will, thereby achieving the political goal of conquering the heart and mind. In this sense, the cognitive domain is the key domain for transforming military advantage into political victory. As war accelerates its evolution toward intelligence, cognitive quality advantages bring decision-making and action advantages, which can not only occupy the moral and legal high ground and create a favorable situation of justice and legality, but also realize small wars through hybrid warfare and comprehensive game means. Even the purpose of winning without fighting. Especially in the context of great power competition, the cost of war is high. All parties hope to intensify the competition for cognitive domains and force their opponents to retreat in a “humane” and “economic” manner.
By changing the opponent’s perception, it can change its decisions and actions
The purpose of implementing cognitive attacks is to use an “invisible hand” to control the opponent’s will, making the opponent feel “I can’t” and “I dare not”, and then achieve the effect of “I don’t want to”. Foreign military practice has shown that cognitive attacks on people’s will, beliefs, thinking, and psychology can be long-term cultural implantation, information suppression in the form of “information ocean + covering one’s mouth to silence”, or preemptive speech. Active shaping of political power can also use historical grievances to provoke the outbreak of conflicts. At present, information technology, artificial intelligence technology, and media technology have strengthened their direct effects on the cognitive domain. Using intelligent generation software, a large amount of cognitive “munitions” can be produced to accurately act on the cognitive layer of combat targets, directly imposing “will” “to rivals” and quickly change the strategic situation. Looking forward to the informationized and intelligent battlefield, situational awareness forces and platforms are widely distributed in combat domains such as land, sea, air, and space networks. Cognitive behaviors such as planning, decision-making, and control dominate operations in various combat domains, especially the cognition of human-machine hybrids in future intelligent warfare. Advantages will dominate the battlefield. Cognitive interference, cognitive confusion, cognitive blocking and other means can be used to create a “fog” of war cognition, inducing opponents to misjudge the situation and make wrong decisions and actions.
Cognitive domain operations are full-time offense and defense, full personnel coverage, full use, full domain shaping, and full government action
Cognitive domain operations are all-round, multi-level, hyper-temporal, and cross-domain. They blur the boundaries between wartime and peacetime, front and rear, cross battlefields and national boundaries, go beyond the pure military field, and widely penetrate into politics. , economy, diplomacy and other social fields, showing the characteristics of “five completes”. Full-time offense and defense, there is no distinction between peacetime and wartime, and there is no difference between the front and the rear. It is expressed as being online all the time and in war all the time. Covering all personnel, anyone, including intelligent robots, may become the target of cognitive domain operations. It is used throughout the whole process of joint operations before and during the war. Before the joint military operation is launched, the cognitive shaping operation has begun and will accompany the military operation and will not stop with the military operation. Global shaping, cognitive shaping runs through all levels of strategy, operations, and tactics, and its scope covers all domains of land, sea, air, and space networks. Cross-domain empowerment has an impact on all-domain operations. As a whole-of-government action, cognitive shaping is naturally strategic and requires consistent and coordinated actions across departments, fields, military and localities, and levels to achieve the best communication effect.
The key is to seize control over the right to define the nature of an action or activity, the right to dominate the process, and the right to judge the outcome.
The cognitive game struggle involves multiple opposing parties and seems complicated. The key is to compete for the “three powers” in the cognitive domain. First, fight for the right to define the nature of the event. That is, how to view this incident, whether it is just or unjust, legal or illegal. Usually, pre-emptive definitions, group alliances and forced definitions, information suppression and unilateral definitions, setting issues and applying definitions are usually adopted to guide and shape the public to form qualitative perceptions. Second, compete for dominance over the event process. That is, how to do something, how not to do it, who did it right and who did it wrong, usually by setting up a trap and other methods, trying to dominate the development direction of the target event according to the state that one’s own side expects. Fast and slow, pause, continue and end. Third, compete for the right to judge the outcome of the incident. That is, how to evaluate this matter, who is the gainer and who is the loser, who is the immediate loser, who is the long-term loser, etc. All parties strive to control the outcome of the incident by amplifying their own advantages and amplifying the disadvantages of the enemy. The purpose is to use the extended effect of the incident to continue to harm the enemy and benefit themselves.
Morality and legal principles are the focus of contention between all parties
Military operations have always paid attention to the principle of “discipline and reputation”. Although the shape of war is evolving at an accelerated pace, the essential nature of war as subordinate to politics will not change; the nature of war and the support of people’s hearts are still the key factors that affect the outcome of a war. On the battlefield in the cognitive domain, by occupying the commanding heights of politics, morality, and law, we can win the hearts and minds of the people and moral support, create a public opinion atmosphere in which moral support is abundant, and then seize the opportunity to defeat the enemy. In every war or conflict, whether it is the strong or the weak, whether the attacker, the defender, or a third party, all parties will try their best to seize cognitive dominance and the initiative of public opinion. They will do everything possible to package themselves with morality, focus on declaring a just position, and try to find ways to defend themselves. Qualify the war, justify the action, eliminate resistance, increase support, and create a favorable situation in which “righteousness” defeats “unrighteousness”. The strength balance between the two sides in the war is different, and the cognitive confrontation methods aimed at occupying the moral and legal high ground will also be different. Recent wars have shown that when a party has strong soft and hard power, that is, it has strong military strength, many allies and partners, and a large share of international voice, it often declares war in a high-profile manner; when military actions may trigger chain reactions, it is often handled in a vague manner. The word “war”.
Information is the basic “ammunition” for cognitive attack and defense
In the network information age, the way humans communicate continues to undergo complex and profound changes. On-site interactive interactions have gradually given way to online connections. Some large-scale social platforms have become the main battleground for cognitive games and the main channels for influencing public cognition. Using information as ammunition to fight for the right to block international networks and control discourse has become a common practice today. One of the main actions of confrontation. On these platforms, various short videos have become the “first scene” for the public to understand the war situation, and information travels faster than cannonballs. The use and blocking, dominance and regulation of platforms have become the focus of battles in the cognitive domain. All parties strive to spread and amplify their own propaganda, denounce and suppress the other party’s propaganda by manipulating social platforms, forming a “I say more, you say less” “What I said is right and what you said is wrong” is a situation where “I can only say it and you are not allowed to say it”. As users of large-scale social platforms, the public is influenced by and affects others in the process of “listening”, “speaking” and even “doing”, and unknowingly becomes the agents and attack props of those behind the scenes.
Military operations play a key supporting role in shaping cognition
The history of human war shows that military warfare is always the basic support of political contests, while psychological warfare is the effectiveness multiplier of military warfare. What cannot be retrieved on the battlefield cannot be expected to be retrieved at the negotiation table, let alone in the field of public opinion. In modern warfare, cognitive communication operations always go hand in hand with joint military operations. Mental warfare and military warfare influence and support each other. The trend of military warfare becoming mental warfare and mental warfare becoming military warfare is more obvious. From the perspective of war practice, it is absolutely impossible without military strength, but military actions alone are not omnipotent. Multiple victories on the battlefield are not a sufficient condition for victory in war. In the Vietnam War, although the United States “won every battle, it lost the entire war.” At the beginning of the 21st century, the United States fought successive wars in Iraq and Afghanistan, winning battlefield victories but not political victory. By the same token, military victory does not mean winning public opinion, and winning the battlefield does not mean winning strategic victory. In modern warfare, two types of people play an increasingly important role: those who win by writing thousands of lines of code, and those who win by writing thousands of messages. The side with superior quantity and quality of these two types of personnel will often have a higher probability of winning.
Cognitive countermeasures technology is increasingly used directly in warfare
In past wars, the influence and effect on the cognitive domain were mainly transmitted to the cognitive domain level by level through a large number of damaging actions in the physical domain. With the development and breakthroughs of information communications, artificial intelligence, biocrossing, brain science and other technologies, new cognitive warfare tools and technologies are directly targeting military personnel. Cognitive countermeasures use not only traditional information warfare weapons, but also an arsenal of neural weapons that target the brain. By then, machines will be able to read human brains, and human brains will also be able to directly control machines. Intelligent command and control systems can directly provide battlefield situation and decision-making assistance. Realistic cognitive ammunition and precise audience placement will greatly enhance the social impact. Cognitive countermeasures technology is increasingly being used directly in warfare. The indirect cognition implicit in informatization is gradually transforming into a direct influence and control of people’s cognition. It can be said that with the support of advanced technology, cognitive domain operations can achieve political goals more directly and efficiently by building a modern network architecture and developing a data visualization platform to quickly understand the information environment and effectively influence target groups.
(Author’s unit: Institute of War Studies, Academy of Military Sciences)
With the rapid development of intelligent technology and its widespread application in military affairs, intelligent warfare is becoming a new form of warfare after information warfare, and dissipative warfare has become a typical method of intelligent warfare. The so-called dissipative warfare refers to a combat method in which the intelligent warfare system achieves comprehensive combat power integrating material consumption, energy release and information diffusion through internal integration and integration and external mutation. Strengthening research on dissipative warfare will help us deeply reveal the winning mechanism of intelligent warfare and win the initiative in future war games.
Dissipative war is the inevitable result of the development of the times
Dissipative warfare is manifested in the comprehensive confrontation of the physical domain, information domain and cognitive domain in the intelligent era. It is reflected in the high degree of unity in the form of political contest, economic competition, military offense and defense, cultural conflict and diplomatic checks and balances, reflecting the intelligent war system. openness, complexity and emergence.
Adapt to the security situation requirements of the intelligent era. Entering the era of intelligence, technologies such as wide networks, big data, big models, cloud computing, and deep learning are developing rapidly, and the connections between political groups, countries, and ethnic groups have become more extensive. Under the influence of multiple factors such as political pluralism, economic integration, social openness, and technological revolution, non-traditional security has emerged and is intertwined with traditional threats. The subjects and categories of intelligent warfare have continued to expand. The time and space of war have continued to expand. War and peace are like shadows. As they become more integrated, the war system will further transcend local geographical restrictions, move from a relatively closed world to a more open one, and form a higher-level and wider-scale confrontation. Dissipative warfare emphasizes the comprehensive development of intelligent warfare systems in the physical, information and cognitive domains. It highly unifies political contests, economic competitions, military offense and defense, cultural conflicts and diplomatic checks and balances into the scope of confrontation between ourselves and the enemy, adapting to the The requirements of the times as the world security situation develops.
It is in line with the objective laws of the evolution of war forms. The dissipation phenomenon of the war system has always existed since the birth of war. However, before the emergence of intelligent warfare, due to technological constraints, it has always been in a relatively low-level and simple state. War confrontation can only be manifested in material consumption and energy release. A form of dispersion and information diffusion. In the agricultural era, the main form of war was cold weapon warfare dominated by material elements and centered on the human body. In the era of industrialization, the main forms of warfare are thermonuclear weapons and mechanized warfare dominated by energy elements and centered on platforms. In the information age, the form of war is mainly information-based war dominated by information elements and centered on the network information system. Entering the era of intelligence, intelligent technology highly unifies the cognitive advantages, decision-making advantages and action advantages in the confrontation between ourselves and the enemy. In essence, it highly unifies matter, energy and information. Through intelligent empowerment, intelligent energy gathering, Interpreting energy through intelligence has formed an intelligent war form dominated by intelligent elements and centered on intelligent algorithms. The main form of expression is dissipative warfare that reflects the confrontation of the complex systems of intelligent warfare.
It is supported by a solid philosophical theoretical foundation. Social form is the matrix of war forms. To explore and understand intelligent warfare, we must be based on the basic principles of historical materialism and dialectical materialism, comprehensively examine the evolution of war forms and the social form in which intelligent warfare occurs, and construct a new war concept and context system. From a philosophical perspective, matter, energy and information are the three major elements that make up the world. Material embodies the existence of the source, energy embodies the existence of movement, and information embodies the existence of connections. The three progressively and alternately dominate the formation of social forms and war forms. Evolve and run. According to the principle of negation of dialectical materialism, in the intelligent age after the information age, the dominant element of society will be material again after matter, energy, and information. However, this material is formed after a spiral of high informatization. The main characteristic of new materials is that they have intelligent technical properties. Therefore, in essence, dissipative warfare is the intelligent element that highly unifies the characteristic advantages of matter, energy and information in previous low-level warfare forms, and highly integrates the common forms of material consumption, energy release and information diffusion in war. Unified, it reflects the typical characteristics of intelligent warfare.
Deeply grasp the inner essence of dissipative warfare
Dissipative warfare is based on the real world and covers the virtual world. It adapts to the rapid development of intelligent technology, the rise of non-traditional security threats, and the continuous expansion of war subjects and categories, and presents many new characteristics.
Against comprehensive games. As the form of intelligent warfare accelerates to develop to a higher depth and breadth, the political, economic, cultural, diplomatic and other fields are more interconnected and have more extensive influence. The focus of war begins to shift from the military system to the social system, and the war stakeholders The confrontation will be reflected in various forms of comprehensive games such as political competition, economic competition, military offense and defense, cultural conflicts, and diplomatic checks and balances. The pursuit of war advantages is no longer limited to the field of military confrontation. The winner of the war must adapt to the openness, complexity and emergence requirements of the war system, transform from the extensive consumption and use of single materials, energy and information to the dissipation of the war system dominated by intelligent advantages, and strive to compete in comprehensive games in multiple fields Gain the initiative and advantage.
Subjects are diverse across domains. The subjects of intelligent warfare are becoming increasingly generalized, and the potential war forces that need to be mobilized for traditional warfare will be in a state of normalized confrontation. Political forces, various institutions and personnel, together with the troops and soldiers fighting on the battlefield in the traditional sense, constitute the main body of the war. Diversified war subjects will span the real domain and the virtual domain, appearing in land, sea, air, space, electricity, psychology and other spatial domains, covering the physical domain, information domain, cognitive domain, etc., covering politics, economy, culture, Diplomacy and other social fields. For example, civilians can use smartphones to collect information on military battlefields and pass it on to war stakeholders, causing the spread of key war information, which in turn affects war decisions or the victory or defeat of a campaign or battle.
Strength is gathered into one body. Virtual and real power are integrated. Focusing on the purpose of war, all possible real and virtual forces that may be used will be integrated with the support of intelligent technology, and they will perform their duties and act according to regulations on parallel battlefields; they will be integrated with and without forces. Unmanned combat forces will achieve a high degree of autonomy after going through the stages of manual operation, manual authorization, and human supervision. They can be deployed and combined with various manned forces on demand, and can effectively coordinate and operate in parallel under the constraints of common war rules. Symbiosis; multiple forces integrated into one. Based on the extensive connections in various fields and the common purpose of the war system, the party, government, military, police and civilians and other forces closely coordinate and act in a unified manner with political, economic, diplomatic, public opinion, and legal struggles to form a comprehensive combat capability. In short, under the unified planning of the country or political group, although the diverse participating forces in intelligent warfare are physically dispersed, they can achieve logical concentration, instant enrichment, complementary advantages, and integration of excellence around the common war purpose.
Effectiveness emerges cumulatively. While high-level warfare forms have new technological features, they still include the characteristic advantages of lower-level warfare forms. Dissipative warfare emphasizes continuous comprehensive confrontation in multiple domains. This includes not only the consumption of ammunition, materials, equipment and even combat personnel at the material level, but also the continuous collection and release of energy at the energy level. It also includes the use of data, knowledge, and algorithms at the information level. The diffusion and integration of information, etc. will have an unlimited impact on people’s thinking and cognition, value pursuit, moral concepts, emotions, will, behavior patterns, etc. Under the constant deterrence of nuclear weapons, intelligent warfare will become less bloody, but political isolation, economic blockade, cultural conflict, diplomatic stranglehold, etc. will become more serious and intense. When the military, political, economic, cultural, diplomatic and other systems continue to play their roles and the cumulative effectiveness reaches a certain level, the war system will increase negative entropy, thereby achieving a sudden change in combat power and the emergence of system effectiveness, thereby gaining a war advantage.
Choose the right focus to fight the dissipation war well
The intelligent warfare system maximizes the combat effectiveness of the system through internal aggregation and integration, external mutation emergence, cross-domain efficiency enhancement, and intelligent dissipation. This is the winning mechanism contained in dissipative warfare. To win in intelligent warfare, it is necessary to clarify the focus of dissipative warfare, target the shortcomings and weaknesses of the opponent’s system, and identify the focus of war preparations.
Focus on the openness of the system and close and isolate the opponent’s war system. Cut off the material, energy and information exchange between the opponent’s war system and the external battlefield environment, causing it to lack material, energy and information source channels, and gradually move towards a state of isolation, closure and weakness. For example, at the strategic level, political isolation is adopted to isolate the opponent’s war system, causing an increase in system entropy. At the operational level, methods such as cutting off data sources, destroying data backups, falsifying data, and tampering with information can be used to force the opponent’s war system to transform into a closed state, thereby reducing the effectiveness of the opponent’s system.
Focus on the complexity of the system and attack the opponent’s war system by domain. The more connections and the closer the connections between the elements of an intelligent warfare system, the lower the reliability of the system structure. Using the principle that each layer in a complex system is relatively independent, we can formulate overall strategic, local campaign and tactical action strategies to achieve layered and domain-based attacks on the enemy’s war system. For example, at the strategic level, the use of economic blockade can greatly weaken the opponent’s war strength and development potential. At the operational level, the vulnerability of the communication network of the combat system is exploited, and network and electricity composite attacks are used as the basic path and means, and methods such as “destroying terminals, attacking elements, lone groups, disconnecting networks, and breaking clouds” are used to destroy the opponent’s combat system structure. , prompting the opponent’s war system to “collapse”.
Focus on the emergent nature of the system and dismantle and disperse the opponent’s combat system. Only when mutation and emergence effects occur in an intelligent warfare system can it quickly form and exert its effectiveness and gain advantages in dissipative warfare. If only a single component or element plays a role, it is impossible to form an advantage. It is foreseeable that the currently emerging technologies such as ChatGPT and more advanced intelligent technologies in the future will provide a new way of thinking for understanding and discovering the operating behaviors, states and laws of complex systems of war, as well as new means of exploring objective laws and transforming nature and society. The dominant side in war confrontation will reduce the coupling degree of the opponent’s war system through a combination of virtual and real, parallel and integrated confrontation methods, and achieve the purpose of dismantling and dispersing the enemy’s war system.
To Win The Information-based Intelligent War China’s People’s Liberation Army Must Find Science and Technology Integration Point To Evolve Innovation of Tactics
Find the integration point of theory and technology for innovative tactics
Tactic, that is, combat methods, refers to the strategies and techniques used in combat. To innovate tactics, we must not only think deeply about “strategies”, but also study “techniques”. If there is “strategy” but no “skill”, the mind will be more than sufficient but the strength is insufficient; if there is “skill” but no “strategy”, no matter how hard you try, you will not be able to achieve the goal. It requires both strategic guidance and technical support to be victorious in every battle. To win information-based and intelligent wars and carry out strategic innovation that puts strategy first and wins by outsmarting, we must implement both “policy” and “technique” to effectively solve problems such as the disconnect between theoretical innovation and technological application, and the derailment of combat operations and technological paths.
“Integration” of thinking and cognition. The rapid development of modern science and technology is promoting the evolution of future combat to high-end warfare. It is necessary to seize the theoretical commanding heights and create new technological advantages. In-depth integration of science and technology and innovative tactics are the keys to victory on the battlefield. As the main body of innovation in tactics, military personnel must have a deep understanding of the winning mechanism of modern warfare, root the concept of integrating science and technology, and expand the thinking of integrating science and technology. At present, two outstanding problems and tendencies are worth noting: First, insufficient scientific and technological literacy, which can easily lead to an in-depth understanding of new forms of warfare. Only relying on past experience and routines to study tactics, and which technologies are effective and which technologies in the combat system. I don’t know much about how effective it is, where to start to form a technological advantage over the enemy, what are the technical differences with powerful enemies, how to avoid being suppressed by the enemy’s technology, etc. We emphasize tactics over technology, emphasis on “wisdom” over “intelligence”, and innovative tactics. It seems to work, but in fact it lacks technical support and is highly risky. The second is that the combat needs are not accurately grasped, and the future battlefield scene is not clearly described. Although the technical principles and winning mechanisms are understood, the application of science and technology in combat operations is not known enough, and the decisive role of human subjective initiative in combat effectiveness is ignored. Function, focusing on technology over tactics, researching technology based on technology, or only studying technical performance without considering the application of tactics, or only knowing the efficacy of technology without trying to innovate tactics. In this regard, officers and soldiers should learn, understand, and use science and technology and science and technology personnel should learn military affairs, understand warfare, and study warfare methods in a coordinated and coordinated manner, establish an integration and innovation mechanism for combat technology experts, conduct joint research on winning mechanisms, and collaboratively embed the concept of science and technology integration , interactively help and improve the quality of tactical innovation, form an ideological understanding that combat operations drive the application of science and technology, and use science and technology application to support combat operations, and lay a solid foundation for integrating theory and technology to carry out tactical innovation.
Combat design “integration”. There are never two identical wars in the world. Innovation in tactics can be inherited and learned from, but cannot be copied. At present, the pace of military theoretical innovation is accelerating, advanced science and technology are developing at a rapid pace, and the form of warfare is undergoing profound changes, showing the distinctive characteristics of being mixed, diverse, and unpredictable. Subversive technologies, innovative concepts, and reshaping theories are emerging one after another. Only by integrating science and technology to design future operations can we find and improve the starting point for tactical innovation. We must have the courage to lead the world and break through the stereotypes, use forward-looking and unique perspectives to innovate combat theories, develop and implement combat concepts, conceive combat scenarios, innovate tactics, and first outline the “base map” of the future battlefield. Well, in this way, we can connect the application of modern science and technology and promote the research and development of advanced technology. At the same time, the design of future operations cannot be too far-fetched and “utopian” beyond the limits of science and technology. It should be based on the feasibility of science and technology within a certain period of time, and on the premise of having the support of realistic or foreseeable technology application and having a path for technological implementation, innovate tactics and integrate technology. Interdiction, technological surprise, technological suppression, and technological control are embedded in combat operations.
“Integration” with superior skills. In modern wars, the status of people as the decisive factor has not changed, but the impact of technology on the outcome of wars has become more prominent. The fight for technological victory determines the outcome of wars to a large extent. The use of science and technology must always be embedded in the combat chain and throughout the entire combat process. , use technical effects to support the application of tactics, and use technical advantages to drive combat effectiveness. At present, the main contradiction in the integration of theory and technology in the innovation of tactics is not the lack of theory in technology, but the lack of technology in theory. The most urgent thing is to promote the integration of cutting-edge technology into combat theory. It is necessary to strengthen the substantive integration based on weapons and equipment platforms, focus on activating combat effectiveness to the maximum extent, carry out extensive research on the combat application of equipment based on operational effectiveness release, equipment combat testing and identification, and test the effectiveness of combat operations through simulation deductions and data analysis. , verify the “probability of winning” with “number calculations”. It is necessary to strengthen the in-depth integration of technical means to select “optimal solutions” based on combat tasks. From studying combat opponents and determining action methods to formulating combat plans and organizing confrontation exercises, we must fully consider the technical strength comparison between the enemy and ourselves, and implement asymmetric The operational philosophy takes the superiority of the inferior and the avoidance of the strong to attack the weak as the basic principle, seeks technological suppression and prevents the enemy from suppressing it, seeks technological blockage and prevents the enemy from blocking it, seeks technological subversion and prevents the enemy from subverting it, maximizes the use of technological advantages, and does everything possible. Make every effort to limit the enemy’s technological performance in order to create a favorable situation and support the use of tactics.
Gather wisdom and strength to “integrate”. In the era of informationization and intelligence, both theoretical research and scientific and technological innovation show the remarkable characteristics of open linkage and cross-penetration. The integration of science and technology carries out strategic innovation, and open sharing is an important growth point. Promote the innovation of man-machine integrated tactics, where people use their ingenuity and machines do calculations, and use the calculation results to revise the results of tactics, and realize the integration of science and technology in human-computer interaction; promote the innovation of team-based tactics for finger-technical talents, and form a ” A mixed group of “scientists + commanders” and “combatants + technicians” implements joint debugging and testing, joint exercises and training, and joint calculations and calculations, and seeks joint victory with the scientific nature of tactics and advanced technology; promotes open source and mass Tactics innovation, integration within and outside the military, online and offline interaction, with a broader vision and more flexible form, pool the wisdom of officers and soldiers and various professional talents to carry out “makers” in the field of tactics innovation “Activities, develop and gather new tactics “resource pools” and “results libraries” to achieve maximum benefits from the integration of science and technology.
Practice iterative “integration”. Theoretical achievements have been tested and sublimated in practical applications, and scientific and technological means have demonstrated their functions and benefits in combat operations. Innovation in tactics is not something that can be accomplished in a day, and the integration of science and technology should also be iteratively progressed and developed on a rolling basis. It is necessary to focus on the integrated application of information technology and intelligent technology, to virtually construct future combat scenarios, and to innovate tactics while feeling and experiencing the intelligent combat environment; it is necessary to carry out in-depth virtual simulation demonstrations of the innovative results of tactics, and fully verify them through virtual experiments and simulation tests. The feasibility of tactical design and the effectiveness of combat operations; technical performance testing must be carried out in conjunction with drills and training activities, and the efficacy and flaws of technical applications must be fully tested by analyzing the actual energy collection and release of weapons, equipment and information systems. Therefore, problems can be discovered and solved dynamically during review discussions, repeated demonstrations, and data testing, and we can modify theories where the theory is not applicable and upgrade technologies where technology is not feasible, so that tactics can introduce new field technologies, and technology can subvert traditional tactics and achieve success. The organic combination of technology and combat continues to promote the spiral and rolling development of tactical innovation.
Insight into the evolution of the winning mechanism of intelligent warfare
■Xie Kai, Zhang Dongrun, Liang Xiaoping
introduction
Military theorists often say that victory tends to smile on those who can foresee changes in the character of warfare, rather than on those who wait for changes to occur and then adapt. In recent years, disruptive technologies represented by artificial intelligence have developed rapidly and are widely used in the military field, accelerating the evolution of war into intelligence. Correspondingly, the concept of war is also changing. Only by discovering changes in a timely manner, proactively responding to changes, and actively adapting to changes can we remain invincible in future wars.
From “using the strong to defeat the weak” to “using wisdom to control the weak”
“The strong wins and the weak loses” is a certain universal law for winning wars. Even in those battles in which the weak defeat the strong, it is often necessary to form a strength advantage over the enemy locally and at a specific period of time in order to truly win. In the era of intelligent warfare, the contribution rate of intelligence superiority to combat effectiveness is much higher than other factors.
In intelligent warfare, human intelligence has widely penetrated into the combat field and been transplanted into weapon systems. All-domain, multi-dimensional, and various types of intelligent combat platforms can quickly couple combat forces, build combat systems based on mission requirements, and independently implement collaborative operations. After the mission ends, it quickly returns to the ready-to-fight state, showing a trend of intelligent autonomy. The side with higher and stronger intelligence can better develop and use the “wisdom to control” mechanism, and even design wars based on this, dominate the development of the war situation, and achieve final victory. It should also be noted that in the era of intelligent warfare, there are likely to be multiple stages of development from low to high. Try to keep yourself in an advanced stage and attack the opponent to a low-dimensional stage. This is also the mechanism of “outsmarting” by using high to defeat low. application.
From “destroying power” to “destroying cognition”
As the form of war accelerates to evolve towards intelligence, the combat space gradually expands from the physical domain and information domain to the cognitive domain, and extends from the tangible battlefield to the invisible battlefield. The cognitive space composed of human spirit and psychological activities has become a new combat space. space. Different from the main purpose of traditional war, which is to eliminate the enemy’s physical strength, intelligent warfare will pay more attention to weakening the enemy’s morale, disintegrating the enemy’s will, and destroying the enemy’s cognition.
By intelligently analyzing the opponent’s personality preferences, psychological characteristics, and decision-making habits, deterrence information can be “tailored” in a targeted manner, and the advantages of cutting-edge technologies such as intelligence can be used to demonstrate powerful strength to the opponent in a realistic way, making anxiety and suspicion Emotions such as fear and fear continued to ferment within it, eventually leading to its self-defeat. Big data, known as the “new oil”, not only enriches the source of intelligence, but also becomes an important “weapon” that affects the opponent’s cognition. By processing big data and deliberately “leaking” it to the opponent, a new “fog of war” will be created for it, making it fall into a state of cognitive confusion. In intelligent warfare, the struggle for the heart and mind will become more intense, and the party with the cognitive advantage will be better than the other party, making it easier to seize the initiative and take advantage of opportunities.
From “people-oriented” to “human-machine collaboration”
In traditional warfare, the organization and use of military force are dominated by people. With the widespread application of smart technology, the proportion of unmanned equipment continues to increase. In intelligent warfare, combat tasks will be completed by man-machine collaboration, and the two will achieve organic integration and complementary advantages. The third “offset strategy” proposed by foreign military forces focuses on human-machine collaboration as a key technology for development. Concepts such as “loyal wingman” proposed by them are also aimed at exploring the realization of manned/unmanned collaborative operations. It is foreseeable that human-machine collaboration will play an important role in future wars.
The use of unmanned reconnaissance forces to carry out three-dimensional and multi-dimensional battlefield situation awareness can provide real-time intelligence support for manned combat forces; the use of unmanned platforms to carry relay loads can continuously provide communication relay support for manned combat forces; the use of unmanned combat forces can provide in-depth The forward battlefield can attract enemy attacks, force the enemy to expose their positions, and provide target guidance and fire support for manned combat forces; using unmanned transportation equipment to provide material supplies to the front line can improve logistics support efficiency, reduce transportation costs, and reduce unnecessary Casualties. With the assistance of artificial intelligence, manned combat forces and unmanned combat forces will achieve scientific division of labor and reasonable coordination in terms of quantity, scale, functions, etc., thereby maximizing overall effectiveness.
From “eating the small with the big” to “eating the slow with the fast”
In traditional wars, it is often necessary to increase the number of troops to make up for shortcomings in equipment performance and other aspects. “Soldiers love the main speed”, the rapid development of military intelligence has greatly improved the speed of information transmission and weapon strike accuracy, greatly reduced the time for reconnaissance and early warning, intelligence processing, command decision-making, fire strikes, damage assessment, and accelerated the OODA kill chain cycle , making “discovery and destruction” possible.
New rapid-kill weapons such as hypersonic missiles, laser weapons, microwave weapons, and electromagnetic pulse weapons have further pushed the pace of war to “instant kill.” In the Gulf War, the loop time of the OODA loop took 3 days; in the Iraq War, the loop time has been shortened to less than 10 minutes; and in the Syrian War, the loop time has almost achieved near real-time. In intelligent warfare, the use of unmanned platforms that integrate surveillance and combat to quickly and precisely eliminate high-value targets such as the enemy’s core command posts and high-level commanders will cause the opponent to suffer heavy damage before it has time to respond, and may even face the danger of paralysis. It can be seen that victory does not necessarily favor the side with large military strength. The side that moves quickly and accurately will be more likely to gain the upper hand on the battlefield. According to statistics, the reaction time required for artificial intelligence to respond to battlefield changes is more than 400 times faster than that of humans. Faced with the ever-changing battlefield situation, people will be more inclined to use artificial intelligence technology to realize adaptive planning and autonomous decision-making of the command and control system, so that the command and control mode changes from “people on the loop” to “people outside the loop”, thereby mitigating the While reducing the burden on command personnel, it can improve combat efficiency and the success rate of mission execution.
From “Integration to Win” to “Cluster to Win”
The traditional equipment development concept is to invest a large amount of money in the research and development of highly integrated, sophisticated weapon platforms, in order to achieve dimensionality reduction against the enemy by virtue of generational advantages and performance advantages in war. However, the development and deployment of multi-functional high-end platforms not only requires a lot of time and money, but when multiple software and hardware modules are integrated into a single weapon platform, there may also be mutual incompatibility. Once the platform is destroyed, significant losses will occur. The military application of disruptive technologies such as artificial intelligence has promoted the rapid development of unmanned swarms. Unmanned clusters have the advantages of large scale, low overall cost, and decentralization. The unmanned platforms coordinate with each other, divide labor and cooperate, and can make decisions independently and carry out combat tasks in an organized manner. Even if some unmanned platforms are destroyed, there will be no Affect overall combat effectiveness. The operational concepts such as “decision-centered warfare” and “mosaic warfare” proposed by foreign military forces focus on using unmanned swarms to complete combat missions. In intelligent warfare, by dispersing reconnaissance and surveillance, information communication, command and control, fire strike and other functions into a large number of unmanned combat units with single functions, a highly robust and elastic “kill network” is constructed, and then based on the mission The combination method needs to be adjusted, which will allow it to emerge with powerful group intelligence, creating great uncertainty for the opponent, thereby trapping the opponent in the judgment link of the OODA loop and unable to make effective decisions. In addition, due to the large number of unmanned swarms, the opponent’s detection, tracking, and interception capabilities can quickly reach saturation. Because the opponent cannot destroy all unmanned platforms in the swarm, the opponent has to face the dilemma of defense failure.
From “military dominance” to “diversified mixture”
Traditional war mainly relies on violent means to make the enemy succumb to one’s own will. It usually has a strong war intensity and has a clear boundary between peacetime and wartime. As the field of military struggle continues to expand into new fields such as space, network, and intelligence, and the role of economic, cultural, diplomatic, legal and other means in war continues to become more prominent, intelligent warfare will be carried out in many fields represented by “grey zones” In the form of “multi-pronged approach”. The intensity of war may weaken, and the boundaries between peace and war will become more blurred. Whether it is the Saudi oil fields that were attacked by drones in 2019, which caused half of its oil production to cease, or the largest oil pipeline in the United States that suffered a cyber attack in 2021, which caused a large-scale oil shortage, the far-reaching impact of various new attack methods has been Not to be underestimated.
As intelligent technology develops and matures, it will become more common to use a variety of means to launch attacks on opponents’ industrial, transportation, financial, communications, energy, medical and other facilities and networks. The threshold for intelligent warfare will show a downward trend, and warring parties may resort to undeclared warfare to launch hybrid wars that integrate economic warfare, diplomatic warfare, cyber warfare, public opinion warfare, psychological warfare, legal warfare and other styles to tire out their opponents. To cope.
From “actual combat test” to “experimental exercise”
Under traditional conditions, due to the lack of scientific simulation and evaluation tools, the true capabilities of the military can only be tested in actual combat. Under intelligent conditions, virtual reality technology can be used to create virtual scenes with a strong three-dimensional sense and realism based on the actual battlefield environment and mission background. This scene can not only restore objective things such as weapons and equipment from multiple dimensions such as sound, appearance, and performance, but can also simulate various severe weather such as heavy fog, heavy rain, and blizzards, and visually display the terrain, meteorology, and hydrology of the battlefield. , electromagnetic, nuclear and other information, close to the real situation on the battlefield.
Setting the imaginary enemy in the virtual environment based on the characteristics of the enemy in reality and conducting intelligent simulation of the possible direction of the war situation can enable officers and soldiers to “experience” the war several times in virtual reality before the official war begins, thereby having a better understanding of the performance of the equipment. , the rhythm of war, and the situation between ourselves and the enemy are all clear, and you will be more comfortable when performing realistic tasks. Before the outbreak of the Iraq War, the US military secretly developed a computer game that simulated the combat environment in Baghdad. Among the personnel sent to perform tasks in Iraq, the survival rate of those who received game training was as high as 90%. As the data collected in reality continue to be enriched and improved, the construction of the virtual battlefield will become more realistic, the prediction of the direction of the battlefield situation will be more accurate, and the comprehensive assessment of the exercise will be more credible. Both sides of the enemy will strive to predict the situation through intelligent deduction. Knowing the outcome of the war, it may be possible to “subdue the enemy’s troops” without fighting or with a small battle.
In late April, the Institute of War Research of the Academy of Military Sciences successfully completed the submission of project demonstration proposals for two major combat issue research projects. This is a concrete practice of the institute focusing on fulfilling its core functions and always aiming at scientific research and preparation for war.
The War Research Institute is a scientific research institution specializing in the study and design of war in the entire military. As a newly established unit, the main characteristics of their scientific research work are many major tasks, many temporary tasks, and many demonstration and application tasks. At the beginning of the year, in response to the actual situation where there were few people and urgent tasks and scientific research tasks were being pushed forward, the party committee of the institute put the scientific research work aimed at strengthening the army and winning the war in an important position in accordance with the combat effectiveness standards. Based on the criteria of urgent need for war preparation, urgent need for war, and urgent need of troops, they adjusted and established key scientific research tasks in the research of war and combat issues, and the compilation of doctrines and regulations, etc., and reduced more than 10 topics that deviated from their main responsibilities and main business, and added new A batch of research on war forms, combat styles and other topics focusing on war preparation and combat were carried out. According to the leader of the institute, the party committee of the institute requires team members to both take command and go out on major scientific research tasks, so that the main energy should be devoted to key tasks, and force allocation and financial support should be tilted towards combat research.
At the same time, the institute continues to deepen the collaborative research of “small core and large periphery” and continuously innovates the scientific research organization model. They carry out “bundled” research by military theoretical personnel and military scientific and technological personnel within the institute to break down barriers to scientific research; they exchange experts with sister units such as the Military Medical Research Institute and the National Defense Engineering Research Institute to participate in major project research to achieve complementary advantages; organize scientific research Personnel participate in various major exercises and training activities to identify scientific research needs; multilateral military exchange activities are held to keep scientific researchers informed of the latest military science and technology trends. In addition, they also actively cooperate with local scientific research institutes to use local high-quality scientific research resources for their own use, forming a closed loop of researching war, designing war, operating war, and verifying war.
Since last year, the institute has completed more than 100 scientific research projects, made important breakthroughs in the development of core operational concepts and joint operational experiments, submitted more than 60 national high-end think tank research reports and important issue assessment reports, and launched a number of strategies. Innovative results that are highly innovative, original and forward-looking.
Following the F-16 unmanned wingman, X-58 “Valkyrie” and X-62 VISTA autonomous flight projects that can independently perform ground attacks, the US military launched the “Venom” project to widely apply artificial intelligence engines to current and future aircraft. On various types of aircraft, the intention is to allow them to obtain autonomous flight capabilities. At the same time, the emergence of ChatGPT makes people marvel at the power of artificial intelligence. So, in the future military where informatization and intelligence are important development directions, what role will the application of artificial intelligence play and what impact will it have?
Seeing the subtleties and knowing the work – looking at the future from today’s development
Artificial intelligence was first proposed in 1956. After more than 60 years of continuous development, it has become an extensive cross-cutting and cutting-edge science, and a major strategic means for countries to enhance national competitiveness and maintain national security.
The United States released a series of strategic deployments on artificial intelligence in 2019 to increase investment and development in artificial intelligence and related technologies; by the end of 2022, China’s national AI innovation application pilot zones will have increased to 11, covering major strategic regions and the Yangtze River Midstream city agglomeration: The artificial intelligence used in Russia’s economy accounts for about 20% of the overall management volume, and plans to increase it to 50% in 2024.
The Maritime Destroyer, launched by Israel’s Rafael Advanced Defense Systems, uses artificial intelligence and decision-making algorithms. It can use artificial intelligence to conduct deep learning cruise missiles to adapt to various scenarios. As the world’s first highly intelligent cruise missile, the missile can automatically identify targets and accurately hit targets autonomously even when GPS fails.
With the help of artificial intelligence, various types of unmanned equipment perform corresponding tasks to meet the functions of early warning, detection, reconnaissance, combat, etc., independently analyze the situation, obtain intelligence, and make intelligent decisions, command and control accordingly, and ultimately achieve adaptation Complex, high-intensity, high-uncertainty battlefield environment.
Sharp spears and sharp shields—promoting growth through offensive and defensive opposition
With the continuous development of informatization, the characteristics of modern warfare such as high intensity, high dynamics, and multiple fields have become more and more obvious. It is gradually evolving from informatization to intelligence. It is necessary to compress the OODA loop, give full play to the advantages of smart weapons, and continuously improve the battlefield situation. The ability to sense quickly and make quick and accurate decisions improves the equipment’s swarm combat capability.
In actual combat, the real battlefield situation is constantly changing, and there are many influencing factors such as weather, soldier status, and material conditions. The resulting data volume is large, and it is relatively difficult for artificial intelligence to process it. At the same time, if both sides use artificial intelligence to guide the war, the amount of data one side needs to process will increase exponentially with the amount of predictions, and the weak artificial intelligence currently used may not be able to handle such a huge amount of data. Moreover, artificial intelligence’s analysis of battlefield data has a black-box structure. Commanders cannot predict the logical judgment and expected effects of their decisions, which can easily be inconsistent with the real-time war situation and lead to serious decision-making errors.
At present, all countries in the world have realized the importance of artificial intelligence in warfare and are actively developing new and stable artificial intelligence. As early as 2018, the United States has invested US$5.1 billion to establish a specialized artificial intelligence research institution, and various countries are also continuing to cooperate with civilian artificial intelligence systems to continuously strengthen military artificial intelligence and use it for automated drones. , and equip this machine with weapons and equipment and a identification system for identifying friend and foe. At the same time, artificial intelligence’s encryption of communications and powerful and effective analysis of data images will cause satellites of various countries to receive close attention, which can easily trigger the sensitive nerves of various countries and break the strategic confrontation.
Observe the past and know the future – learn from traditional experience and good rules
The recently popular strong artificial intelligence ChatGPT has reached a level that can help humans write papers, and even makes the academic community lament that it is “erudite and professional”. With the development of the information age, countries have realized that traditional forms of warfare are no longer fully suitable for modern warfare. Under the influence of today’s high-intensity network information, artificial intelligence can be used to influence a country’s technological research and development, public opinion and even elections, producing higher benefits at lower costs.
Based on the current performance of artificial intelligence, it may gradually take over some matters to handle and provide reference opinions in future wars. However, the main body of the war is still human beings, so we should work together to strengthen the management of artificial intelligence and apply it to people’s livelihood. In the non-military field, we strive to improve human life in all aspects and work together to safeguard national security and human peace and well-being.
With the development of psychological warfare, cyber warfare, social media warfare, cognitive warfare and other theories and their application in combat practice, the competition for military discourse power has become increasingly fierce. Using language as a weapon, a strong narrative can not only suppress the opponent to form discourse dominance, but also subtly shape the opponent’s thinking habits, guide the opponent to follow suit, and form an asymmetric advantage in discourse, thereby achieving “conceptual attack.”
Narrative can strangle the “throat” of military theory
Language is also a weapon. In addition to using hard means such as aircraft and tanks, military struggles can also use language and rhetoric as a means to achieve military goals. Unlike discourse, narrative is broader. Recognizing the connotation and characteristics of military narratives is of great significance to constructing future military theories.
Language is a loaded pistol. “Narrative warfare” refers to military theoretical innovation and competition that uses language as a weapon and aims to dominate the world’s military discourse. According to the goal, it can be divided into offensive narrative, defensive narrative and deterrent narrative. According to the means, it can be divided into operational concept narrative, military theory narrative, military discourse narrative, military rhetoric narrative, etc. The content involves not only the narrative of national defense and army construction and military strategy, but also the narrative of operational concepts at the strategic, operational, and tactical levels. It also includes the authoritative formulation and agenda setting of operational standards and operational rules. Grasping narrative dominance is the prerequisite and foundation for winning the cognitive war. By grasping the dominance of narrative, we also grasp the initiative and leadership of the international ideological struggle, and then gain the dominance of military discourse.
Successful narratives require appeal. Rather than strictly logical arguments, narrative engages the audience through a compelling story, as was the case with the German “Blitzkrieg” myth of World War II. This unexpected tactic was actually a replica of the “Hutier tactics” or “infiltration tactics” in the late World War I. However, under the gorgeous packaging of the military circles and various media, it quickly became the “magic” that allowed Germany to sweep across Europe. Currently, all branches of the U.S. military are launching dazzling combat concepts. Although many of them are refurbishments and packaging of previous combat ideas, this marketing method with a “concept stock” meaning has successfully attracted the attention and pursuit of the world’s military circles. , and even influenced the direction of military reforms and the formulation of military doctrines in other countries.
Narrative is the “designer” of military development
Narrative is not only the thinking thread in the minds of theoretical researchers, but also the reporting style in the media. It constitutes the habit of theoretical research internally, and it becomes the writing standard for describing opponents externally, involving theories, concepts, propaganda, rhetorical techniques and many other contents. . The way narrative works in the military can therefore be understood in four ways.
The operational concept narrative affects future military construction and development. The combat concept is not only a combat concept, but also a weapon and combat method. The narrative competition of operational concepts has led both combatants to pursue the co-evolution of the application of military technology and operational methods, striving to bring the operational concepts, methods and means of both sides to a similar level. When there is a huge gap in national military strength, the more powerful country strives to dominate the design of the battlefield and achieve dimensionality reduction against combat opponents. When the gap in national military strength is not obvious, the outcome of the game of combat concepts between the two sides may be chaotic and unknown. All parties tried their best to fully describe possible combat methods and means within the framework of the times. In the “narrative war” where operational concepts come and go, new methods of warfare will eventually be born in the “brainstorming” of military theorists on both sides, finalized in training practices, and finally tested in battlefield duels.
Military theoretical narratives can influence the formulation of military strategies. Military theoretical narrative helps to determine national security interests, identify actual and potential threats, and also helps to plan national defense and military development strategies in a targeted manner. For example, the proposal of Mahan’s “Sea Power Theory” not only effectively met the country’s naval development needs, but also became an important ideological source for countries to compete for maritime interests and develop maritime power after World War II. The U.S. military’s narrative of high-tech warfare since the 1990s has led the world’s new wave of military revolution and brought about major changes in weapons, equipment, and troop establishment systems. In recent years, the US military has successively proposed new operational concepts such as “multi-domain warfare” and “distributed maritime operations”, reflecting its intention to continue to occupy the forefront of world military development and lead the direction of military transformation with the help of advanced operational concepts.
Military discourse narratives can shape the military cognitive environment. By constructing terminology, military discourse sets the agenda for military theoretical content, shapes the military context, internalizes the opponent’s thinking direction, allows them to recognize the combat environment and combat methods within the established military framework, and then creates a familiar combat ” Script”, allowing the opponent to fall into it without knowing it. For example, the U.S. military’s numerous operational concepts not only serve the needs of competing interests of the service, but also involve trial-and-error operational concept deductions. They also intentionally or unintentionally create “conceptual traps” for opponents.
Military narrative can dominate the discourse and confuse right and wrong. Through discourse techniques such as noun construction, strong narrators can make new expressions of existing concepts, blurring people’s understanding of the original concepts, and forming a strong discourse that suppresses weak discourse. Through high-profile propaganda, one-sided interpretation, beautifying packaging, and selective use of policies and regulations, it not only demonizes opponents, but also demonstrates the “justice” and “legitimation” of the powerful narrator’s own actions. In recent years, Western countries have transformed the political language narrative model in the ideological field into military discourse power for export, and covertly embedded value evaluations into military-level narratives. For example, when describing combat operations of the same nature, Western countries themselves will use neutral and just terms such as “low-intensity war” and “freedom of navigation operations”, but disparage other countries’ operations as “gray zone operations.”
Good at competing for “microphone” dominance
From the content point of view, narrative belongs to the category of language art and is not mysterious. On the basis of understanding its characteristics and mode of action, how to win victory in the struggle dimension of military narrative is an important theoretical and practical issue before us. The author believes that when fighting for dominance in “narrative warfare”, four principles should be paid attention to.
Pay attention to tailor-made services to serve the national strategy. The military is subordinate to politics. The military narrative cannot be arbitrary and must be consistent with the national strategic narrative, otherwise the split between the two will seriously damage national security interests. On the eve of World War II, the defensive military narrative represented by the “Maginot Line” pursued by France was unable to support its political alliance strategic system with Eastern European countries, causing France to lose its credible ability to respond to the German threat. Therefore, the importance of military narratives revolves around the national strategic goals of “using local materials” and “you fight yours, and I fight mine.” Combat concepts such as “Sparrow Warfare”, “Single-Group Warfare” and “Small Group Multi-Road Warfare” in the history of our army have strongly supported our army’s combat practice. Nowadays, the Russian military has creatively developed the “hybrid warfare” theory based on its own actual conditions, seeking a combat method that is completely different from the US military but suitable for Russian characteristics, and has effectively safeguarded its national strategic interests in operations such as the Russia-Georgia conflict.
Cleverly dismantle words to create reverse narratives. Word construction is to make new expressions of existing concepts and blur the understanding of original concepts, so as to achieve the purpose of guiding public opinion. It is one of the commonly used means to build a discourse system. A large number of so-called new combat concepts in the US military today are often old wine in new bottles. For example, “distributed maritime operations” is actually a linguistic upgrade of “dispersed forces” or “wolf pack tactics” borrowing concepts from the cyber domain, while “maritime expeditionary base operations” are a waste of “island hopping tactics”. When dealing with these operational concepts, we must not follow others’ opinions. Critical thinking should be used to squeeze out the moisture in the narrative of the combat concept through reverse narrative, and see through the clouds and fog to see the true face.
Actively seize cognitive space and resist narrative hegemony. The ultimate goal of “narrative warfare” is to seize the right to speak and control the brain in the cognitive field. Nowadays, the Internet is the main battlefield for narrative, and self-media, social networks, live videos, etc. are important platforms for cognitive confrontation and “narrative warfare.” Relying on the advantage of occupying the commanding heights of global public opinion, Western military powers use a set of hegemonic rhetoric to construct a system of values and standards that serve capital interests and maintain hegemonic status, forming a selective narrative orientation that favors cyber hegemons. In this unfavorable narrative environment, we should focus on exploring the means of discourse in the weak narrative space, construct a discourse linkage mechanism in narrative platforms such as media and think tanks, gradually expand the narrative space, and win more social recognition, more public favor, and Influence.
Avoid falling into the narrative trap of operational concepts. Being advanced in operational concepts does not mean leading in military strength. In war duels, combat concepts are never the winning weapon, let alone the outcome of the war. The several wars launched by the United States after the Cold War all relied on absolute asymmetric advantages to defeat the weak with the strong and win with the superior. The code behind this is: strength + new combat concepts. Which of these is the decisive factor remains to be discussed. Therefore, we should avoid falling into the narrative trap of our opponents’ operational concepts, and avoid being led by our opponents to pursue innovations in operational concepts, leading to being led astray. We must adhere to the principle of “you fight yours and I fight mine”, use a clear mind and rational thinking to seek a military theoretical narrative with Chinese characteristics, and develop excellent “internal strength” to defeat powerful enemies.