The US military is accelerating the application of artificial intelligence technology in actual combat.
According to foreign media reports, the US Department of Defense recently released a strategic planning document on artificial intelligence technology to strengthen top-level design and promote the rapid development of related technologies. At the same time, the US military has also continued to strengthen its combat use of artificial intelligence technology.
Release of strategic planning documents
Recently, U.S. Deputy Secretary of Defense Hicks signed the strategic document “Responsible Artificial Intelligence Strategy and Implementation Approach”, which clarified the basic principles and main framework for the U.S. Department of Defense to implement the artificial intelligence strategy. The main contents include the following two aspects.
Sort out the “demand side”. First, adjust the management structure and process, and continue to follow up on the development of artificial intelligence technology in the Ministry of National Defense. Second, pay attention to the research and development and procurement of artificial intelligence products, and adjust the speed of artificial intelligence technology development in a timely manner. Third, use the demand verification procedure to ensure that artificial intelligence capabilities are consistent with operational requirements.
Optimize the “R&D end”. First, create a trustworthy AI system and AI-enabled system. Second, promote a common understanding of the concept of “responsible AI” through domestic and international cooperation. Third, improve the theoretical and operational level of AI-related personnel in the Ministry of National Defense.
In addition to the military’s strategic planning report, American think tanks have recently made recommendations on the cooperation between the United States and its allies in the application of artificial intelligence technology. The Center for Security and Emerging Technologies at Georgetown University in the United States released a report stating that the U.S. government, universities, research institutions and the private sector should promote artificial intelligence technology research cooperation with Australia, India and Japan in various ways to achieve an open, accessible and secure technology ecosystem and improve the performance of relevant U.S. military weapons and equipment.
Accelerate the pace of technology application
In addition to formulating a “roadmap” for the development of artificial intelligence technology in top-level design, the US military has also taken a number of measures recently to try to apply relevant mature technologies to military practice.
From the perspective of military construction, the Army’s “Integration Plan”, the Navy’s “Winning Plan” and the Air Force’s “Advanced Combat Management System” are the three major artificial intelligence programs of the US military. All three programs are being promoted simultaneously. Recently, the US Army Contracting Command awarded a US military contractor Engineering and Computer Simulation a contract totaling $63.28 million to design and develop new artificial intelligence algorithms. Kitchener, commander of the US Navy’s surface forces, said that the US Navy’s surface forces will focus on integrating capabilities such as artificial intelligence and machine learning in the near future to significantly enhance their combat advantages. The US Air Force recently successfully demonstrated an artificial intelligence algorithm called Artuu, which can automatically manipulate U-2 reconnaissance aircraft to search for enemy missile launchers and generate real-time combat maps of cross-domain threats.
From the perspective of combat power generation, the U.S. military is accelerating the application of artificial intelligence technology in actual combat. The U.S. National Interest bimonthly website recently published an article saying that the U.S. Navy and Air Force are developing a new generation of training systems to help their fighters better deal with new air threats. This intelligent technology, called the “P5 Combat Training System,” can help U.S. military pilots conduct virtual training in high-threat, high-confrontation combat scenarios.
The Defense Advanced Research Projects Agency (DARPA) is busy verifying an “autonomous cyber attack system based on artificial intelligence chips”. It is reported that the system can generate a set of attack codes every 24 hours and dynamically adjust the attack program according to the real-time network environment. Since the attack code is newly generated, it is difficult for antivirus systems that rely on existing virus libraries and behavior recognition to identify it, and the code is highly concealed and destructive. The Defense Advanced Research Projects Agency (DARPA) believes that the system has extremely high application potential and can help the US military gain technological advantages in future cyber operations.
Triggering a cutting-edge military competition
Overall, the US military has been active in the development of artificial intelligence recently, and related developments may trigger a new round of global cutting-edge military competition.
On the one hand, the US military is promoting the idea of ”everything can be intelligent” internally. The US military claims that fighter jets, tanks, ground control stations and surface ships can not only serve as entities with combat capabilities, but also as nodes for monitoring battlefields and obtaining war information. To achieve this goal, artificial intelligence will play an irreplaceable role. Combined with the US military’s strategic planning documents, it is not difficult to see that in order to create more nodes, the US military will give full play to the enabling role of artificial intelligence in the next step to help various weapon platforms find and strike targets faster.
On the other hand, it will have an external impact on the global military development pattern. The US military and its allies are vigorously promoting the development of artificial intelligence technology, mainly to use these advanced technologies to suppress rival countries, and the backlash effect of related practices may be immediate. At present, many countries in the world are vigorously developing related technologies. It can be foreseen that with the rapid development and support of technologies such as artificial intelligence, the future battlefield will accelerate the transition to an intelligent and unmanned battlefield. Cross-domain collaborative operations such as land, sea, air, space, and the Internet will become the main combat style of future wars, driving the development and application of equipment technology, and promoting major changes in the global military development pattern.
The winning mechanism of war refers to the main factors for winning a war, the way they play a role, and the internal mechanisms, laws and principles of their mutual connection and interaction. With the advent of the intelligent era, the increasingly widespread application of artificial intelligence in the military field has promoted the transformation of the war form to intelligent warfare, and the winning mechanism of war has also changed accordingly.
Having data advantage is the basis for success
In the era of intelligence, the core foundation of many “disruptive technologies” is data, and war will also be “no data, no war”. In intelligent warfare, both sides will fight a “data war” around understanding data, relying on data, competing for data, and using data. Whoever owns the “data right” will have the initiative in the war. Fighting for data, mastering data, analyzing data, and applying data in war are the keys to winning intelligent warfare.
Data resources are combat effectiveness. In intelligent warfare, data comes first before troops move. Whoever controls the data controls the resources to win the war, and controls the initiative and the chips for victory. The ability to understand and use data is an important indicator for measuring combat capability and directly affects the outcome of the war. Obtaining data, analyzing data, and using data are not only the yardsticks for measuring the combat capability of troops, but also the new engine for improving the combat effectiveness of troops. Data is the most direct record of the objective world. It appears in the form of numbers and is raw data, such as the performance parameters of weapons and equipment, the size of troops, the number of guarantees, target parameters, etc. These data can be processed to become the information and intelligence needed for combat. In the information age led by data, data has become the blood of intelligent warfare.
Big data has given rise to a data-based battlefield. To some extent, whoever controls the data resources controls the “winning space” of the war. Data has changed the logical cognition of war. In the past, people inferred the whole from the individual and inferred the inevitability from the small probability events, but now they deduce individual characteristics from the high probability and find the internal laws of specific things from the correlation. Only by understanding the relevant data can we grasp the overall situation, only by gathering similar data can we grasp the trend, and only by integrating all-source data can we understand the connection. All of this is attributed to the control of the data-based battlefield.
Big data changes the way of fighting. As the most important strategic resource, how to distinguish the authenticity and quality of data, how to fight and counter-fight, deceive and counter-deceive, attack and counter-attack around massive data, has become a key issue in winning intelligent wars. When data becomes the focus of war, it will inevitably lead to competition and gaming around data, thereby promoting changes in the style of fighting. At present, the competition for data collection is intensifying, and major countries have launched research on national defense big data projects to provide more intelligence with practical value for military decision-making. The “asymmetry” of data forms the “asymmetry” of algorithms, and then achieves the “asymmetry” of tactics.
Data has given rise to intelligent equipment systems. Data technology has upgraded combat platforms to highly intelligent and autonomous systems. Data has enabled command and control systems, air combat platforms, precision-guided munitions, etc. to complete the transition from informatization to intelligence. For example, modern “swarm technology” is the application of artificial intelligence supported by big data. Data has become a “telescope”, “microscope” and “perspective lens” for analyzing wars. To win intelligent wars, one must have a data mind, data awareness and data thinking.
Mastering algorithm advantages is the key to success
One of the characteristics of intelligent warfare is that all battle plans, campaign plans and war plans need to be generated by computers, and its essence is algorithm-generated tactics. Having an algorithm advantage means having an intelligent advantage, which can achieve a high degree of unity of information advantage, cognitive advantage, decision-making advantage and action advantage.
Algorithm advantage dominates information advantage. Algorithm is a systematic method to describe the strategic mechanism for solving problems, and is the key and prerequisite for improving intelligence advantage. Algorithm technology mainly includes deep learning, supercomputing, brain-like intelligence and other technologies. The use of intelligent sensing and networking technology can widely and quickly deploy various types of intelligent perception nodes, and can implement active collaborative detection for tasks, thereby building a transparent and visible digital combat environment. Judging from the current development trend, the advantage of war algorithms dominates information advantage, which contains great potential to rewrite the rules of the modern war game. This pair of “invisible hands” will shape the new landscape of future intelligent warfare.
Algorithmic advantage dominates cognitive advantage. In intelligent warfare, big data can quickly convert massive amounts of data into useful intelligence after being processed by high-performance and efficient algorithms, thereby gaining cognitive advantage. Algorithms, as the “brain” of artificial intelligence, have become the key to intelligently sensing the battlefield and using it for decision-making, command, and coordination. The party with algorithmic advantage can dispel the “battlefield fog” and “information fog” caused by the failure to process data in a timely manner, making cognition more profound and thus seizing the initiative in the war. In the future, whoever has algorithmic advantage will have stronger cognitive ability, faster learning speed, and better quality results.
Algorithm advantage dominates decision-making advantage. With its high-speed and precise calculation, the algorithm can replace people’s hard thinking and repeated exploration, thereby accelerating knowledge iteration. With the support of massive data and supercomputing capabilities, the judgment and prediction results of artificial intelligence will be more accurate. By constructing combat model rules through algorithms, commanders can be assisted in making rapid decisions in multi-level planning and ad hoc handling of strategies, campaigns, tactics, etc. through actuarial, detailed, deep and expert reasoning. With the development of disruptive technologies such as big data, cloud computing, and quantum computing and their application in the military field, the future combat decision-making cycle will become near real-time. In intelligent warfare, the party that masters super algorithms can quickly propose flexible and diverse combat plans and countermeasures in response to changes in combat opponents, constantly disrupting the opponent’s established intentions and deployments, and thus seize the dominance of the war.
Algorithmic advantage leads to operational advantage. In the era of intelligent warfare, algorithms determine tactics, and algorithmic advantage leads to war advantage. Supported by superior algorithms, the reaction speed of artificial intelligence is thousands of times that of humans. “Algorithmic warfare” foreshadows the transformation of future wars. Whoever can seize the commanding heights of intelligent algorithms can seize the initiative and win before the battle. On the intelligent battlefield, algorithms are far more important than artillery shells. War algorithms have become the key factor in winning intelligent warfare and are the strategic commanding heights that future intelligent armies must seize. Intelligent warfare calculations are ubiquitous. The party that has the algorithmic advantage can quickly and accurately predict the battlefield situation, innovate combat methods, and achieve the advantage of “winning before the battle.”
Multi-domain integration is the key to success
Multi-domain integration is based on the cloud-based combat system. With the support of the cloud-based battlefield situation, various combat personnel, equipment, facilities, and environmental elements have expanded the battlefield space from the traditional three-dimensional space to the polar regions, deep sea, space, and cyberspace, and even to multi-dimensional domains such as cognitive domain and information domain. Multi-domain integration has formed a giant, complex, and adaptive confrontation system. The integration of “cloud gathering” and “network gathering” has become a new mechanism for intelligent combat.
Cross-domain integration and integrated energy release. Under the conditions of intelligent warfare, the emergence of a large number of new long-range combat platforms and intelligent new concept weapons has made the future combat landscape present the characteristics of air-ground-sea-sky integration, global instant strikes, and cross-domain strategic deterrence and control. Supported by the cross-domain, distributed, and networked “cloud killing” collaborative combat system, through the cross-domain aggregation of multiple combat capabilities, cross-domain interoperability of combat command, cross-domain sharing of combat information, cross-domain movement of combat weapons, cross-domain response of combat actions, and cross-domain complementarity of combat functions are achieved. Cross-domain integration is the close coordination of main domain control and cross-domain support to implement cross-domain collaborative support. Integrated energy release is the transition of joint operations from integrated joint operations to cross-domain joint operations, realizing the cross-domain aggregation and overall energy release of multiple combat capabilities.
Human-machine integration, using speed to defeat slowness. If weapons are an extension of the human body, intelligence is an extension of the human brain. In the era of intelligent warfare, there will be a mode of giving human intelligence to machines to implement combat. People will further withdraw from the front-line confrontation and combat, and the combination of people and weapons will appear in a new form. Unmanned combat weapons and human intelligence are deeply integrated into an organic symbiosis, perfectly combining human creativity, thinking and the precision and speed of machines. Therefore, in future intelligent warfare, the mode of engagement will gradually change from the mutual killing of “human-machine integration” to the unmanned system cluster confrontation of “human-machine integration”. Relying on the intelligent combat system, commanders adaptively adjust and select the mode of action according to changes in the battlefield environment. Unmanned combat develops from single-platform remote control combat to multi-platform cluster autonomy, forming a simple command chain of “commander-combat cluster”, highlighting the rapid, flexible and autonomous characteristics of human-machine collaboration.
Brain-intelligence fusion and efficient control. The combat system of intelligent warfare will be characterized by a highly intelligent “human + network + machine”. The intelligent command and control system will operate in a collaborative manner of “human brain + intelligent system”. The intelligent system will assist or even partially replace the role of humans in command and control. The intelligent command and control system will have relatively strong autonomous command and control capabilities, and can relatively independently obtain information, judge situations, make decisions, and deal with situations. Relying on the battlefield situation awareness system, with the help of big data, cloud computing, artificial intelligence, and modeling and simulation technology, it is possible to accurately analyze and judge massive battlefield information, realize the transformation of combat command from “human experience-centered” to “data and model-centered” intelligent decision-making methods, and make combat planning more scientific and efficient. In the future, the super self-evolution and strategic decision-making capabilities of deep neural networks will realize the combat cycle of “human out of the loop”.
Integration of intelligence and mind, attacking the mind and winning the will. With the development of artificial intelligence technology, the boundaries between the biologicalization and humanization of intelligent weapons will be blurred in the future, and the control of people themselves will become the focus. “Attacking the mind and winning the will” is still the highest combat purpose of intelligent warfare. “Cognitive control warfare” based on the control of human brain and consciousness cognition may evolve into an important combat style. With human cognitive thinking as the target, various means are used to stimulate, influence and control the cognitive system to achieve the effect of disrupting the enemy’s command and decision-making system, inducing the enemy’s combat power, and disintegrating the enemy’s morale. For example, based on brain reading and brain control technology, using mental guidance and control means, the strategic intentions, combat intentions, and combat methods of the enemy commander can be grasped in real time, and even directly act on the brain of the enemy personnel, or the consciousness of the party can be “injected” in the form of EEG coding to interfere with or control their consciousness, thinking and psychology, and finally seize the “right to control intelligence” and achieve deep control over combat personnel. With the large-scale application of intelligent combat platforms on the battlefield, information systems assisting humans will gradually transform into intelligent systems partially replacing humans. The focus of the power struggle will shift from “information rights” to “intelligence rights”, and using elite troops to gain control of key domains will become the dominant approach.
●To understand the laws of intelligent warfare, we must grasp the foundation of intelligence and autonomy, the key of building a war knowledge and action system, and the essence of the changes in the connotation of war power.
●War leaders must examine intelligent warfare dynamically, keenly capture the new elements spawned by intelligent warfare, correctly analyze the changes in the relationship between the new elements, and constantly re-understand intelligent warfare.
President Xi pointed out that we should seriously study the military, war, and how to fight, and grasp the laws of modern warfare and the laws governing war. Today, the intelligent characteristics of war are becoming increasingly prominent, and intelligent warfare has already shown its early form. In order to seize the initiative in future intelligent warfare, we should actively follow the development of modern warfare, keep close to the actual military struggle preparations, proactively understand the laws of intelligent warfare, deeply grasp its guiding laws, focus on answering questions such as “what is it” and “how to do it”, and constantly innovate war and strategic guidance.
Answering the question “What is it?” and understanding the laws of intelligent warfare
Comrade Mao Zedong pointed out: “The laws of war are a problem that anyone who directs a war must study and must solve.” Today, as intelligent warfare begins to emerge, we should proactively understand “what” intelligent warfare is. Otherwise, we will not be able to solve “how to do it,” let alone control future wars.
The laws of intelligent warfare are the reconstruction of the war knowledge and action system. The laws of intelligent warfare, like the laws of cold weapon warfare, hot weapon warfare, mechanized warfare, and information warfare, are the inherent and essential connections between the elements of war. The difference is that it has new elements and new modes of composition between elements. It is essentially the reconstruction of the war knowledge and action system caused by the intelligent revolution. Today, to understand the laws of intelligent warfare, we must grasp the foundation of intelligence and autonomy, grasp the key to building a war knowledge and action system, and grasp the essence of the change in the connotation of war power. Mastering these laws can overcome the chaos and uncertainty in future wars and find order and certainty from them. This is the objective requirement for dealing with intelligent warfare.
The laws of intelligent warfare are the basis of the laws of war guidance. In “Problems of Strategy in China’s Revolutionary War”, Mao Zedong first analyzed the characteristics of China’s revolutionary war and revealed the laws of war, and then “derived our strategies and tactics from this”, that is, the laws of war guidance; in “On Protracted War”, he first explained “what it is”, and then turned to the question of “how to do it”, reflecting a logical order of the cognitive process. Today, the study of intelligent warfare should still follow this order, and neither put the cart before the horse, nor reverse the order; nor add, reduce or replace links. On the basis of mastering the fundamental law of intelligent autonomy, we must reveal the laws of war guidance such as autonomous perception, autonomous planning, autonomous implementation, autonomous linkage, and autonomous evaluation.
If you don’t understand the laws of intelligent warfare, you can’t guide the war. “Sun Bin’s Art of War” points out: “Know, win” and “Don’t know, don’t win.” Tao is the law of war. If you master it and act in accordance with it, you can win; otherwise, you will lose. Mao Zedong also emphasized: “If you don’t know the laws of war, you don’t know how to guide the war, and you can’t win the war.” Similarly, mastering the laws of intelligent warfare is the premise for correctly guiding intelligent warfare. Otherwise, it is inevitable to be confused by the superficial phenomena of intelligent warfare. Today, we need to analyze the basic, long-term and subversive impact of intelligent technology groups on war, and study what intelligent warfare looks like? What are the laws? How should it be fought? These are all major issues that must be answered in the guidance of intelligent warfare.
Solve the “how to do it” problem and reveal the guiding principles of intelligent warfare
The guiding laws of intelligent warfare are the medium for guiding practice by using the laws of intelligent warfare, playing the role of “bridge” and “boat”. We should solve the problem of “how to do it” on the basis of answering “what is it” and propose the “swimming skills” of intelligent warfare.
The guiding laws of intelligent warfare are the laws of applying the laws of war. The purpose of understanding the laws of war is to apply them. Marx pointed out: “Philosophers only interpret the world in different ways, but the problem is to change the world.” Similarly, intelligent warfare itself forces commanders to discover the laws. Once discovered, they will combine initiative and use the laws to serve winning the war, which will inevitably lead to the emergence of guiding laws for intelligent warfare. Today, war is the continuation of politics, which is still the law of intelligent warfare. From this, it can be concluded that intelligent warfare must obey the guiding laws that serve politics; soldiers and civilians are the basis of victory, which is still the law of intelligent warfare. From this, it can be concluded that the guiding laws of mobilizing the people in the broadest possible way are derived, and so on. These guiding laws for intelligent warfare are derived from the laws of war and are “swimming skills in the sea of intelligent warfare.”
Give full play to the active role of people in intelligent warfare. Engels said: “It is people, not guns, who win the battle.” The guiding laws of intelligent warfare are the laws of practice and use. It is not a simple “transfer” or “copying” of the laws of intelligent warfare, but it can be transformed into the guiding laws of war with the addition of people’s subjective initiative. Today, military talents who master artificial intelligence are not only the operators of intelligent weapons, but also the creators of artificial intelligence. People still occupy a dominant position in the intelligent human-machine system and are the decisive factor in the victory or defeat of intelligent warfare. Commanders should give full play to their initiative on the basis of mastering the laws of intelligent warfare and adhere to the “technology + strategy” combat theory generation model, so as to change from answering “what is” to solving “how to do”.
The laws governing intelligent warfare are constantly evolving. War is a “chameleon”. Intelligent warfare itself will also go through different stages such as germination, development, and maturity, which will inevitably lead to the development of laws governing intelligent warfare. War leaders must dynamically examine intelligent warfare, keenly capture the new elements of intelligent warfare, correctly analyze the changes in the relationship between the new elements, and constantly re-recognize intelligent warfare. We must keep up with the historical process of the accelerated advancement of war forms towards intelligence, grasp the direction of development of intelligent warfare and the pulse of the times, push the research on the laws governing intelligent warfare to a new level, and seize strategic initiative and opportunities on future battlefields.
Keep a close eye on the “initiative” and continue to innovate intelligent warfare and strategic guidance
As the military is ever-changing, water is ever-changing. As intelligent warfare has already arrived, we must follow the laws and guidance of intelligent warfare, keep close to the actual military struggle preparations, strengthen research on opponents and enemy situations, take the initiative to design “when”, “where” and “who to fight”, innovate war and strategic guidance, and firmly grasp the strategic initiative of future wars.
You fight yours, I fight mine. The highest realm of the art of war guidance is that you fight yours, I fight mine. “Each fights his own” requires commanders to use their own forces independently and autonomously in future intelligent wars, no matter how complex and difficult the environment is. In particular, enemies with high-tech equipment may cause a temporary local situation where the enemy is active and we are passive. At this time, we must use comprehensive means such as politics, economy, and diplomacy to make up for the disadvantages in weapons with an overall favorable situation, quickly reverse this situation, and restore the active position. If you are led by the nose by your strategic opponent, you may suffer a great loss.
Seize the opportunity and use the troops according to the time. The Six Secret Teachings pointed out: “The use depends on the opportunity.” Jomini emphasized: “The whole art of war lies in being good at waiting for the opportunity to act.” On the one hand, if the time is not right, do not force it. Be cautious about the opportunity, and have great patience before the opportunity comes to prevent strategic blind action. On the other hand, the time will not come again, so don’t miss the opportunity. Be good at seizing the opportunity, and once you encounter a favorable opportunity, you must resolutely use it and avoid being timid. It should be pointed out that we should look at the issue of the maturity of the opportunity dialectically. The future intelligent war is changing rapidly, requiring quick decision-making, but in the face of uncertain factors, we must make careful decisions. Sometimes making a decision early may be more effective than making a more perfect decision tomorrow. Therefore, we must dare to take a little risk, otherwise we will sit back and watch the loss of the opportunity for success.
Different domains are different, and operations are based on the local conditions. Clausewitz pointed out: “War is not like a field full of crops, but like a field full of trees. When harvesting crops, you don’t need to consider the shape of each crop, and the quality of the harvest depends on the quality of the sickle; when chopping down trees with an axe, you must pay attention to the shape and direction of each tree.” Different strategic spaces lead to different wars, and war guidance is also different. At present, the battlefield space is constantly expanding from traditional spaces such as land, sea and air to new spaces such as space and the Internet. War leaders should explore new intelligent war laws and guidance laws based on the characteristics of multi-domain, three-dimensional, and networked.
Aim at the opponent and win by taking advantage of the enemy. The Art of War by Sun Tzu states: “Follow the enemy and decide the battle.” Jomini also said: “No matter who you are, if you don’t understand the enemy, how can you know how to act?” Looking to the future, smart strategists should classify combat targets into primary combat targets and general combat targets, actual combat targets and potential combat targets according to their importance and urgency, and comprehensively and objectively understand the strategic intentions, force deployment, combat concepts, etc. of different combat targets, propose new intelligent war guidance laws that can give full play to the advantages of their own combat power, and implement correct war actions.
In short, the laws of intelligent warfare are the laws of the cognitive process, solving the problem of “what”; the guiding laws are the laws of the practical process, solving the problem of “how”. The two are dialectically unified and inseparable, forming a complete chain of understanding and guiding intelligent warfare. “Victory is not repeated, but should be formed in infinity.” Today, war and strategic leaders should, based on objective conditions, deeply explore and flexibly apply the laws of intelligent warfare and the laws of war guidance, and innovate war and strategic guidance in line with the times.
(Author’s unit: Academy of Military Science, Institute of War Studies)
Source: Liberation Army DailyAuthor: Hao Jingdong Niu Yujun Duan FeiyiEditor-in-charge: Wang Feng2021-03-16 10:12
In today’s world, the new military revolution has entered a critical qualitative change stage. Intelligent warfare with ubiquitous intelligence, interconnectedness, human-machine integration, and full-domain collaboration is accelerating. In order to consolidate its position as the world’s hegemon, the United States actively promotes the third “offset strategy” to “change the future war situation”, formulates an artificial intelligence development strategy, accelerates the actual combat testing and exercises of artificial intelligence, and regards intelligent technology as the core of a “disruptive technology group” that can change the “rules of the game”. Military powers such as Russia, Britain, and Israel are unwilling to lag behind and are also stepping up to improve their respective strategic layouts in the field of artificial intelligence. As competition among major powers intensifies, military intelligence will become the new commanding heights of the arms race.
【Key words】military conflict, artificial intelligence strategy, AI war 【Chinese Library Classification Number】D81 【Document Identification Code】A
In 2017, Master, known as the evolved version of “AlphaGo”, swept the top Go players on the online Go platform and won 60 consecutive games; in 2019, in the StarCraft II man-machine competition, two top human players were defeated with a score of 1:10; in 2020, in the “Alpha” air combat competition held by the Defense Advanced Research Projects Agency of the United States Department of Defense, the F-16 piloted by the US military ace pilot was completely defeated by the artificial intelligence fighter with a score of 0:5. These events show that the era of artificial intelligence that humans both look forward to and fear has quietly arrived.
Engels said, “Once technological advances can be used for military purposes and have been used for military purposes, they will immediately and almost forcibly, and often against the will of the commander, cause reforms or even changes in the way of warfare.” At present, the militarized application of artificial intelligence has caused “the winning mechanism of war to undergo an unprecedented transformation, and the center of gravity of combat power generation is undergoing a historic shift.” A new round of scientific and technological revolution, industrial revolution and military revolution provides support for the intelligent era of “controlling energy with intelligence.”
Military artificial intelligence demonstrates its powerful power in modern warfare
The drive of the arms race among the major powers is triggering a chain of changes in the military field. In recent years, the world situation has been in a turbulent period, which has triggered a series of geopolitical crises. The concept of “hybrid warfare” has entered the war stage, and military artificial intelligence has entered a new stage of development. The rapid development and comprehensive integration of technologies such as artificial intelligence, big data, cloud computing, and reconnaissance and strike drones have demonstrated their powerful power in modern warfare. Whether it is the physical domain of firepower strikes, the interest domain of economic sanctions, or the cognitive domain of public opinion and psychological control, it makes people deeply feel that military artificial intelligence is becoming popular.
Assassinating senior Iranian officials, AI becomes a “killing tool” for the US military. On January 3, 2020, then-US President Trump ordered the US military to launch an airstrike on Baghdad International Airport in Iraq without the consent of the US Congress. This airstrike directly killed Iranian senior official Soleimani. Soleimani is the top commander of the “Quds Brigade” of the Iranian Revolutionary Guard. Why was he successfully assassinated by the United States in the capital of Iraq? It is reported that the “Reaper” drone carried out this mission, which “targeted and eliminated” Soleimani by projecting “Hellfire” missiles. The operation was very secretive and could not be detected by radar. Even the US spy satellites did not know the location of the “Reaper” at the time. It should be emphasized that the assassination of Soleimani was an illegal and brutal act of the United States using terrorist means, “one of the war crimes committed by the United States by abusing force”, and its so-called “rules-based international order” is a pure whitewash, and its essence is a true manifestation of hegemony.
In the Israeli-Palestinian conflict, Israel launched the “first AI war”. In May 2021, Israel launched “Operation Rampart” against Hamas. During the 11-day battle in the Gaza Strip, Israel relied on advanced information collection technology, analytical algorithms and AI-led decision support systems to quickly and effectively select attack targets and use the most appropriate ammunition as needed. Through hundreds of intensive and precise strikes from multiple combat platforms, it paralyzed Hamas and the Palestinian Islamic Jihad Organization’s rocket positions, rocket manufacturing plants, ammunition depots, military intelligence agencies, senior commanders’ residences and other key facilities, destroyed several autonomous GPS-guided submarines of the Hamas Maritime Commando, and killed Bassem Issa and other Hamas senior commanders and senior agents.
It has been disclosed that the artificial intelligence system used in the war is an algorithm system developed by an elite team code-named 8200. The three systems “Alchemist”, “Gospel” and “Deep Wisdom” hatched by the team were all used in this military operation. The “Alchemist” system can analyze the enemy’s attempt to launch an attack and provide real-time warnings through the communication device carried by individual soldiers. The information fed back by the soldiers will also be collected again and evaluated for the next attack; the “Gospel” system can generate target strike suggestions and mark target information in real time. Commanders can flexibly select important targets and implement strikes based on battlefield conditions; the “Deep Wisdom” system can accurately draw a map of the tunnel network of Hamas armed organizations in the Gaza Strip through intelligence collection and big data fusion such as signal intelligence, visual intelligence, personnel intelligence, and geographic intelligence, forming a situation map that fully reflects the conflict area scenario. The use of these technologies has greatly enhanced the Israeli army’s battlefield situation awareness capabilities. A senior intelligence official of the Israel Defense Forces said that this is “the first time that AI has become a key component and combat power amplifier in fighting the enemy.” The Israeli military believes that the use of AI has brought “super cognitive ability” and even directly calls it “the first artificial intelligence war.”
In order to seize the technological commanding heights, countries are stepping up their strategic layout of military intelligence
Artificial intelligence is regarded as a key strategic technology in the Fourth Industrial Revolution. In order to gain the upper hand in the new round of disruptive technology competition, the world’s military and technological powers, led by the United States, have stepped up their strategic layout around military intelligence, and are working intensively and spare no effort.
The United States attempts to rely on artificial intelligence to maintain its military hegemony. Since 2016, the U.S. Department of Defense has successively issued documents such as “Preparing for the Future of Artificial Intelligence”, “National Artificial Intelligence Research and Development Strategic Plan”, and “Department of Defense Artificial Intelligence Strategy”, which have elevated the development of artificial intelligence to the national strategic level. In order to establish its own “rules of war”, the Pentagon has successively formulated artificial intelligence technology research and development plans, key project concepts, and technical standards and specifications, and focused on building a research and development production and combat application system. In summary, the U.S. military’s layout for the future development of artificial intelligence can be roughly divided into three stages: near, medium, and long. In the first stage, before 2025, with unmanned, stealth, and remote combat platforms as the development focus, a “global surveillance and strike system” will be built, and unmanned systems will become the main means of military intervention by the U.S. military. In the second stage, before 2035, with intelligent combat platforms, information systems, and command and decision-making systems as the development focus, an intelligent combat system will be initially established, and unmanned systems will surpass manned systems and occupy a dominant position in combat. The third stage, before 2050, will focus on the development of technologies such as strong artificial intelligence, nanorobots, and brain networking, fully realize the intelligence of combat platforms, information systems, and command and control, promote the expansion of combat space to biospace, nanospace, and intelligent space, and strive to seek the intelligent combat system to enter the advanced stage.
The various branches of the U.S. military have also launched and continuously updated their artificial intelligence development plans. The ground unmanned autonomous system has the “U.S. Ground Unmanned System Roadmap” and the “U.S. Robot Development Roadmap”, etc., and plans to achieve intelligent formations and coordinated actions of manned and unmanned by 2030, and realize the mobility of synthetic forces by 2040. The aerial unmanned autonomous system has a special drone development plan, and the long-term goal is to form a complete aerial unmanned equipment system covering high, medium and low altitudes, large, medium, small and micro, ordinary and long flight time. The maritime unmanned autonomous system is divided into two directions. One is to create a new underwater combat system, using multiple unmanned submarines to form a mobile integrated reconnaissance, detection, and strike network, and form an “advanced underwater unmanned fleet”; the other is to accelerate the development of surface unmanned ships and make breakthroughs in the “human-machine cooperation” of surface unmanned ships. In addition, the U.S. Department of Defense has also established partnerships with industry, academia and allies to ensure access to the most advanced artificial intelligence technology support.
Russia has also put forward its own strategic plan in the field of artificial intelligence. In recent years, Russian President Vladimir Putin has attached great importance to the development of artificial intelligence. He proposed that artificial intelligence is the future for both Russia and all mankind. Whoever becomes a leader in this field will stand out and gain a huge competitive advantage. Artificial intelligence is related to the future of the country. Russian Chief of General Staff Gerasimov said that the Russian army is “developing non-nuclear strategic deterrence forces” through artificial intelligence equipment. Russian Defense Minister Sergei Shoigu said that the Russian army is stepping up the research and development and deployment of military robots, and combat robots will be put into mass production.
As early as November 2014, Russia adopted a plan to develop combat robots by 2025, proposing that robot systems will account for 30% of the entire weapons and military technology system by 2025. In December 2015, Putin signed a presidential decree to “establish a national robotics technology development center”, providing institutional support for the development of artificial intelligence from a strategic level. In recent years, Russia has successively issued strategic plans such as “Future Russian Military Robot Application Concept”, “National Artificial Intelligence Development Strategy by 2030”, and “Russian Federation Defense Plan 2021-2025”, carried out war games in various complex combat environments, studied the impact of artificial intelligence on various levels such as strategy, campaign and tactics, and strived to build a multi-level and multi-dimensional unmanned intelligent combat system that is interconnected.
From the perspective of medium- and long-term goals, attacking unmanned equipment is the focus of Russia’s development. In 2019, Russian President Vladimir Putin proposed at the Russian Federation Security Conference that in the next 10 years, the Russian army will vigorously develop combat robot systems that can perform tasks on the battlefield. The short-term goal is to build a multifunctional combat robot force with certain autonomous control capabilities by 2025. According to information, the force will be composed of 5 types of robots, each of which can be independently divided into combat units and can basically complete battlefield combat tasks without or with very little human intervention. At present, the Russian army has started the experimental design work of the heavy and light robot “assault” and “comrade” systems. Some experts analyzed that the combat robot force may become an independent and brand-new branch of the Russian army.
The United States is wooing its allies to prepare for AI wars, and the AI arms race is intensifying. In recent years, in order to maintain its absolute leading position in the field of artificial intelligence, the United States has stepped up its own AI militarization construction while trying to win over its allies to jointly develop a joint operation AI system in the name of serving the alliance combat system. According to the U.S. “Defense News” website, in September 2020, the U.S. Joint Artificial Intelligence Center has launched the “Defense Partnership Program”, which covers the United Kingdom, France, Israel, Japan, South Korea, Australia, Canada, Finland, Norway, Sweden and other countries. It aims to develop an AI system that is interconnected with the above-mentioned allies and lay the foundation for joint operations in intelligent warfare. It is reported that relevant defense representatives of the United States and its allies have held several meetings around this plan. The United States also claimed that this defense cooperation will “open the door” to more interested U.S. allies.
The United States’s push will undoubtedly intensify the AI arms race among the world’s major military powers. Among the United States’ many allies, Israel’s AI level is the best. Israel is the world’s largest exporter of military drones; it has the world’s first controllable autonomous unmanned vehicle, the Guardian, which has been equipped to the troops; it is the only country in the world, except the United States, equipped with unmanned surface vessels, and has many types of unmanned surface vessels such as the Protector, Stingray, and Seagull.
Other major countries are also stepping up their layout in the field of artificial intelligence. The United Kingdom has formulated an artificial intelligence development path of “universities as the source, military-civilian integration”, and issued the “National Artificial Intelligence Strategy” and the “Robots and Artificial Intelligence” strategic plan. France has formulated the “French Artificial Intelligence Strategy” and the “French Artificial Intelligence Plan”. Since 2018, it has increased its defense budget year by year and continuously increased investment in the research and development of artificial intelligence weapons. Germany has the world’s largest artificial intelligence research center. In 2018, it issued the “Artificial Intelligence Strategy” and planned to create an “Artificial Intelligence Made in Germany” brand by 2025. Japan has successively issued the “Artificial Intelligence Strategy”, “New Robot Strategy” and “Comprehensive Science and Technology Innovation Strategy”, and established the “Innovative Intelligence Comprehensive Research Center” to focus on the development of artificial intelligence-related technologies. In January 2021, the Australian Department of Defense issued the “Fighting the Artificial Intelligence War: Operational Concepts for Future Intelligent Warfare”. This document focuses on how to apply artificial intelligence to land, sea and air combat.
As some experts have said, “Intelligent technology is a double-edged sword. While it promotes the evolution of warfare to intelligent warfare, it also brings about a series of new war ethics issues and dilemmas in the law of war.” What changes will artificial intelligence bring to human society? This issue deserves in-depth thinking and continued attention.
(The author is the director of the News Research Department of Guangming Daily)
【References】
①Wu Mingxi: Intelligent Warfare—AI Military Vision, Beijing: National Defense Industry Press, January 2020.
③ Ding Ning and Zhang Bing: “Development of Intelligent Weapons and Equipment of Major Military Powers in the World”, “Military Digest”, Issue 1, 2019.
④ Ge Yan and Jia Zhenzhen: “Future Combat Concepts and Combat Styles under Military Transformation”, “Military Digest”, Issue 15, 2020.
⑤He Fuchu: “The Future Direction of the New World Military Revolution”, Reference News, August 23, 2017.
⑥Ma Junyang: “Russian-made unmanned intelligent weapons debut in Syria”, People’s Liberation Army Daily, December 30, 2019.
Geng HaijunPeople’s Forum (July 1, 2022, Issue 03)
At present, judging from the reform and development of the establishment system in major countries in the world, the military is developing towards a lean, small, efficient, intelligent, and integrated “man-machine (robot-drone)” direction, seeking to coordinate and fight together with robot soldiers, drones and human soldiers. According to statistics, the armies of more than 60 countries in the world are currently equipped with military robots, with more than 150 types. It is estimated that by 2040, half of the members of the world’s military powers may be robots. In addition to the United States, Russia, Britain, France, Japan, Israel, Turkey, Iran and other countries that have successively launched their own robot warriors, other countries have also invested in the research and development of unmanned weapons.
The world’s military powers will set off a wave of forming unmanned combat forces to compete. The so-called unmanned combat forces are a general term for combat robots or battlefield killing robot systems. With the development of various types of information-based, precise, and data-based weapons and equipment, intelligent platforms have become the driving force for pre-designed battlefields, combat robots have become the main force on the battlefield, and the combination of man and machine has become the key to defeating the enemy. In the future, battlefield space forces will highlight the three-dimensional unmanned development trend of land, sea, and air.
USA Today once published an article titled “New Robots Take War to the Next Level: Unmanned Warfare,” which described unmanned warfare like this: drone fleets swarm in, using sophisticated instruments for detection, reconnaissance, and counter-reconnaissance; after locking onto a target, they calmly launch missiles; automatically programmed unmanned submarines perform a variety of tasks including underwater search, reconnaissance, and mine clearance; on the ground battlefield, robots are responsible for the delivery of ammunition, medical supplies, and food… In future wars, these may become a reality.
On land, various robots that can perform specific tasks are highly integrated mobile strike platforms with mechanization, informatization, and intelligence. For example, unmanned tanks are unmanned tracked armored platforms that are mainly controlled by their own programs. They can be remotely controlled by soldiers, and are dominated by long-range attack intelligent weapons and informationized weapons. They can automatically load ammunition and launch autonomously, and carry out long-range indirect precision strikes, effectively reducing the casualties of soldiers. In the ocean, various unmanned submarines, unmanned warships, etc. can sail thousands of miles and perform various maritime combat missions without the need for onboard personnel to operate. In the air, the human-controlled drone system deployed in actual combat is a drone system platform with its own reconnaissance and judgment, human control, integrated reconnaissance and attack, autonomous attack, and human-machine collaboration.
The use of drone weapons in wars highlights their combat capabilities, which will inevitably lead the armies of countries around the world to form unmanned combat units in full swing. In the Iraq War, the United States began to test the actual combat capabilities of unmanned combat vehicles. In March 2013, the United States released a new version of the “Robotics Technology Roadmap: From the Internet to Robots”, which elaborated on the development roadmap of robots, including military robots, and decided to invest huge military research funds in the development of military robots, so that the proportion of unmanned combat equipment of the US military will increase to 30% of the total number of weapons. It is planned that one-third of ground combat operations in the future will be undertaken by military robots. It is reported that the US military deployed the first future robot combat brigade (including at least 151 robot warriors) before 2015. In 2016, the US military conducted another experimental simulation test of the “modular unmanned combat vehicle” in a multinational joint military exercise. In 2020, the US Pentagon issued a contract with a price tag of 11 million US dollars to form a “combined arms squad” with the ability to cooperate with humans and robots, and plans to complete the construction of 15 future combat brigades by 2030. All squad members have human-like vision, hearing, touch and smell, can send information and attack targets in a timely manner, and can even undertake tasks such as self-repair and vehicle maintenance, transportation, mine clearance, reconnaissance, and patrol. The US Daily Science website reported that the US Army has developed a new technology that can quickly teach robots to complete new crossing actions with minimal human intervention. The report said that the technology can enable mobile robot platforms to navigate autonomously in combat environments, while allowing robots to complete combat operations that humans expect them to perform under certain circumstances. Currently, US Army scientists hope to cultivate muscle cells and tissues for robots for biological hybridization rather than directly extracting them from living organisms. Therefore, this combination of muscle and robot reminds the author of the half-cyborg Grace in the movie “Terminator: Dark Fate”.
On April 21, 2018, the Russian Federal Security Service (FSB) special forces launched a raid against extremist terrorists in Derbent, Dagestan, and for the first time publicly dispatched armed unmanned combat vehicles equipped with machine guns as pioneers. During the 2018 Russian Red Square military parade, the United States discovered a large number of Russian “Uranus-9” robots and other combat systems that had exchanged fire with Syrian anti-government forces in southern Syria, and showed their appearance characteristics to the audience. In August 2015, the Russian army used combat robot combat companies to carry out position assaults on the Syrian battlefield. The tracked robots charged, attacked, attracted the militants to open fire, and guided the self-propelled artillery group to destroy the exposed fire points one by one. In the end, the robot combat company took down the high ground that is now difficult for Russian soldiers to capture in one fell swoop in just 20 minutes, achieving a record of zero casualties and killing 77 enemies.
According to the British Daily Star website, after the British Army conducted a large-scale combat robot test at an event called “Autonomous Warrior 2018”, it unified drones, unmanned vehicles and combat personnel into a world-class army for decades to come. Future British Army autonomous military equipment, whether tanks, robots or drones, may have legs instead of tracks or wheels. In early 2021, after the UK held the “Future Maritime Air Force Acceleration Day” event, it continued to develop a “plug-and-play” maritime autonomous platform development system, which, after being connected to the Royal Navy’s ships, can simplify the acquisition and use of automation and unmanned operation technologies.
In addition to the development of robots by Russia, the United States, and the United Kingdom, other powerful countries have also successively launched their own robot warriors. It is expected that in the next 20 years, the world will usher in robots on land, sea, and air to replace soldiers to perform high-risk tasks. The future battlefield will inevitably be unmanned or man-machine integrated joint combat operations. The world’s military powers will launch a human-machine (drone) integrated combat experiment
The style of air combat is always evolving with the advancement of aviation technology. Since 1917, with the successful development of the world’s first unmanned remote-controlled aircraft by the United Kingdom, the family of unmanned equipment has continued to grow and develop, and various drones are increasingly active in the arena of modern warfare.
Since the 21st century, with the large number of drones being used on the battlefield, the combat style has been constantly updated. In the Gulf War, drones were limited to reconnaissance, surveillance and target guidance, but in the Afghanistan War, Iraq War and the War on Terrorism, the combat capabilities of drones have become increasingly prominent, and the combat style and methods have shown new characteristics, allowing countries around the world to see drones as a sharp sword in the air, thus opening the prelude to the integrated combat test of man-machine (drone).
It is reported that the total number of drones in NATO countries increased by 1.7 times between 1993 and 2005, reaching 110,000 by 2006. The United States, other NATO countries, Israel, and South Africa all attach great importance to the development and production of unmanned reconnaissance aircraft and multi-purpose drones.
In 2019, more than 30 countries in the world have developed more than 50 types of drones, and more than 50 countries are equipped with drones. The main types are: “password” drones, multi-function drones, artificial intelligence drones, long-term airborne drones, anti-missile drones, early warning drones, stealth drones, micro drones, air combat drones, mapping drones, and aerial photography drones. The main recovery methods: automatic landing, parachute recovery, aerial recovery, and arresting recovery.
On September 14, 2019, after Saudi Aramco’s “world’s largest oil processing facility” and oil field were attacked, the Yemeni Houthi armed forces claimed “responsibility for the incident” and claimed that they used 10 drones to attack the above facilities. On January 3, 2020, Qassem Soleimani, commander of the “Quds Force” under the Iranian Islamic Revolutionary Guard Corps, was “targeted and eliminated” in a drone raid launched by the United States at Baghdad International Airport in the early morning of the Iraqi capital. At the end of 2020, in the battle between Armenia and Azerbaijan in Nagorno-Karabakh (Nagorno-Karabakh region), it was obvious that drones played an important role in the conflict between the two sides. In particular, many military experts were shocked by the videos that the Azerbaijani Ministry of Defense kept releasing of the TB-2 “Flagship” and Israeli “Harop” suicide drones just purchased from Turkey attacking Armenian armored vehicles, artillery, cars and even infantry positions and S-300 air defense missiles. In December 2020, local conflicts in the Middle East and Transcaucasus showed that drones are playing an increasingly important role. Based on this, some military experts even predicted that the 21st century will be the “golden age” for the development of drones. Drones are bound to completely replace manned aircraft and become the “battlefield protagonist” of the 21st century.
Currently, the US Air Force plans to expand the teaming of manned and unmanned platforms between drones and manned aircraft, and by 2025, 90% of fighters will be drones. In other words, larger aircraft (F-35 fighters or F-22 fighters) can control a nearby drone fleet. For example, the F-35 fighter is like a flying sensor computer, which can obtain a large amount of data, and communicate, analyze and judge on its own, and finally upload the conclusion to the pilot’s helmet display. The pilot analyzes and processes the information obtained, formulates a combat plan based on the combat plan, battlefield situation, and weapons equipped by the formation, and then issues it to the drone… to achieve the purpose of manned aircraft commanding drones to cooperate in combat. In other words, the mixed formation of manned and unmanned aircraft will change the previous ground control to air control of drones, and the pilot will directly command the combat operations of drones. The US military envisions a modular design so that soldiers can assemble drones after taking out the parts of drones from their backpacks when needed in future battlefield operations, and can also use 3D printing drones. In August 2020, the U.S. Air Force defeated top F-16 fighter pilots in a simulated air battle with AI, which also proved that AI pilots can “think” creatively and quickly, and it may not be long before they surpass the skills of human pilots. The U.S. Navy’s new MQ-25 “Stingray” carrier-based unmanned tanker will be tested in 2021 and have initial operational capability in 2024, which will help expand the combat radius of aircraft carriers.
Since 2013, Russia has been equipped with a large number of drones, of which unmanned reconnaissance aircraft alone exceeded 2,000 by the end of 2019, most of which are light drones, such as the Kalashnikov drones that participated in the military operations in Syria. In the next step, each brigade or division-level unit of the Russian Army will have a drone company, and the airborne troops will also be equipped with a large number of drones. The Russian Northern Fleet will have a drone regiment, and some modern Russian warships will also be equipped with drones. In addition, from 2021, the “Orion” reconnaissance and strike drone developed by the Kronstadt Group will be equipped with the Russian army. This heavy drone can carry a variety of guided ammunition to perform combat missions. In addition, the Russian army is also testing two heavy drones, the “Altair” and the C-70 “Hunter”. These are enough to show that Russia has made significant progress in the field of drone research and development.
Israel is a true pioneer in the field of drones. The drones it develops are not only advanced, but also exported to other countries. It has equipped its troops with hundreds of drones, including the “Bird’s Eye” series of single-soldier drones, the “Firefly” drone, the light “Skylark-I” drone, the light “Hero” drone, the medium “Skylark-II/III” drone, the “Heron” drone, etc. In the mid-1980s, Israel had developed a land-based launch and patrol drone named “Harpy” or “Harpy”. The Harpy is a “suicide drone” capable of autonomous anti-radar attacks. It weighs 135 kg, can carry 32 kg of high explosives, and has a range of 500 km. Due to confidentiality reasons, the specific number and type of drones equipped by the Israel Defense Forces are not yet known. In order to deal with threatening targets such as enemy ground-to-ground missiles, Israel Aircraft Industries is developing a high-altitude, long-flight stealth unmanned fighter. The aircraft combines stealth technology with long-range air-to-air missiles, can carry Moab missiles, penetrate into the rear of the enemy’s battle zone, and intercept and attack ground-to-ground missiles in the boost phase.
On February 5, 2013, the British army stationed in Afghanistan used a micro unmanned helicopter for the first time to carry out front-line work of spying on military intelligence. This unmanned helicopter is equipped with a micro camera, which can transmit the captured images to a handheld control terminal in real time; it can fly around corners and avoid obstacles to identify potential dangers. Next, the UK plans to enable one manned aircraft to command five unmanned aircraft at the same time. According to a report on the website of the British “Times” on January 26, 2021, the British Ministry of Defense invested 30 million pounds to develop the first unmanned aerial vehicle force in Northern Ireland. According to reports, the contract for the design and manufacture of the prototype has been given to the American “Spirit” Aerospace Systems. The company has a branch in Belfast, and the contract is expected to provide 100 jobs. The British Ministry of Defense plans to start manufacturing the first prototype of this new type of unmanned aerial vehicle by 2025. It will be equipped with missiles, reconnaissance and electronic warfare technology equipment, becoming the British Army’s first unmanned aerial vehicle capable of targeting and shooting down enemy aircraft and avoiding surface-to-air missile attacks. Its partner manned fighters will be able to focus on missions such as electronic warfare, reconnaissance and bombing, thereby reducing costs and the high risks faced by British aircrews.
The French Navy will form its first carrier-based drone squadron at a base near Toulon, the 36F carrier-based aircraft squadron of the French Naval Aviation. The squadron will be equipped with S-100 drones and carried on the Navy’s Mistral-class amphibious landing ship. The formation of this carrier-based drone squadron reflects the French Navy’s desire to integrate drone expertise into a single professional team. Previously, the French Navy discussed the establishment of a dedicated drone squadron and the option of equipping the 31F, 35F or 36F squadrons with drones.
At the Paris Air Show in June 2004, the full-scale model of the NX70 Neuron unmanned combat aircraft displayed by the French Dassault Aviation Company rekindled people’s interest in the development of European drones. Iran, Turkey, the United Arab Emirates…some new countries have disrupted the geopolitical landscape of drones and are writing a new page.
It can be predicted that drones will become the biggest highlight in the development of weapons and equipment in various countries around the world, and become the “trump card” of land warfare, naval warfare, air warfare, and space warfare in the 21st century. It will become a new combat force in offensive and defensive operations. It can not only use the various ground attack weapons it carries to strike enemy ground military targets in frontline and deep areas, but also use air-to-ground missiles or bombs to suppress enemy air defense weapons; it can not only use weapons such as anti-tank missiles to attack enemy tanks or tank groups, but also use weapons such as cluster bombs to bomb enemy ground forces; it can not only detect targets and judge the value of targets and then launch missiles autonomously, but also deceive and interfere with enemy command and control systems, etc. The world’s military powers will set off a battle to form a “man-machine (robot drone)” integrated force
With the deepening of military-civilian integration, the rapid development of artificial intelligence technology, and the rapid development of big data, cloud computing, and the Internet of Things, not only will the development of unmanned weapons and equipment bring about tremendous changes, but it will also subvert the existing military force formation form. The “human-machine (robot-drone)” integrated intelligent army is bound to come.
In December 2015, in addition to sending traditional combat forces to the Syrian battlefield, the Russian army also sent a robot combat company mainly composed of unmanned combat platforms to participate in the battle for the first time. The company adopted a new combat mode of mixed manned and unmanned formations, built an intelligent combat system with the “Andromeda-D” automated command system as the core, and launched an attack on Hill 754.5 using a combination of full-dimensional reconnaissance and saturation attack, successfully seizing the hill. A few years ago, U.S. Navy officials in charge of expeditionary operations mentioned the vision of building a thousand man-machine combined warships, that is, a larger fleet of unmanned ships controlled by humans and coordinated with each other. The U.S. Navy announced that it plans to build an unmanned fleet of 10 large unmanned surface ships in the next five years for independent operations or joint operations with surface forces. According to the conceptual plan currently disclosed by the U.S. Navy, the unmanned fleet composed of large unmanned surface ships will mainly assist the Navy in completing highly dangerous combat missions. By combining with the Aegis combat system and other sensors, the coordinated combat capabilities of manned and unmanned systems will be enhanced. Its deployment will help reduce the demand for the number of large manned warships and reduce casualties in combat. According to the National Interest Network on January 20, 2021, the U.S. Navy Chief of Operations Michael Gilday released the “Navigation Plan of the Chief of Naval Operations” document on January 11, calling for the establishment of a mixed fleet of man-machine ships including large warships, various types of unmanned ships, submersibles and air strike equipment to prepare for all-domain operations in the new threat environment in the next few decades. The document states: “It is necessary to establish a larger fleet of underwater, surface and water platforms that meet the strategic and campaign needs of the troops, and a mixture of manned and unmanned platforms.”
In the “man-machine (robot-drone)” integrated forces, artificial intelligence technology is used to achieve an organic combination of “man-machine”, and cloud computing, new algorithms, and big data are used to formulate “man-machine” collaborative combat plans. Artificial intelligence is like an engine, big data + cloud computing is like a spaceship, and intelligent robots are astronauts. The organic combination of the three will surely add wings to the tiger and integrate man and machine. The future army is a human-machine integrated army. The squad and platoon commanders are gradually replaced by robots. Robots are gradually transformed from human control to autonomous decision-making or mind control through human brain cells. There may also be canteen-free barracks in the military camps. The military management may also be led by one or several military personnel to lead multiple or even dozens of intelligent robot teams with different division of labor tasks to complete the combat training management tasks that were previously completed by squads, platoons, and companies. Or there may be only one military commander in the command and control center for military training, and all intelligent robots in the training grounds may be controlled through video command and control for confrontation training, or remote control robot commanders may issue new training instructions, adjust task deployment, and change training grounds in real time.
The urgent need for the intelligent quality of military talents will also force the readjustment of the setting of the first-level military disciplines in the field of artificial intelligence. In the future, military academies will also open intelligent robot control disciplines, establish relevant human-machine integration laboratories and training bases, and focus on training intelligent professional military talents who understand computer control programs, intelligent design and management, image cognition, data mining, knowledge graphs, and can systematically master intelligent science and technology and have innovative consciousness. Future military talents must be proficient in intelligent technology, big data applications, and cloud computing, especially in the use of 3D or 4D printing technology to make various military equipment at any time, proficient in the control procedures, command methods, command issuance, and adjustment of tasks of intelligent robots, and proficient in the essentials of human-machine integrated autonomous combat coordination, so as to achieve the best combination of human information technology quality and efficient operation of intelligent robots. In addition, it is not ruled out that human-machine integration squads, combat simulation centers, imaginary enemy forces, combat units, intelligent headquarters, unmanned brigades, divisions, etc. will be established. By then, the military chief may also have one human and one machine, or the robot may serve as a hand or deputy.
In recent years, with the rapid development of artificial intelligence technology and its widespread application in the military field, the form of war and combat style have been constantly changing. Some foreign academic articles believe that artificial intelligence is reshaping the form of combat forces, enhancing the effectiveness of combat systems, improving the effectiveness of combat command, and improving the quality of combat coordination, promoting profound changes in combat activities.
Reshaping the combat force
These academic articles point out that combat forces are mainly composed of combat personnel, weapons and equipment, and organizational structures, and are undergoing tremendous changes under the influence of artificial intelligence technology.
From the perspective of personnel structure, with the widespread application of artificial intelligence technology and related equipment systems in the military field, the demand for professionals with the ability to develop, manage, use and maintain artificial intelligence technology has increased significantly, and the proportion of technical personnel in combat forces will continue to increase. Frontline combat personnel are no longer just direct operators of weapons, but are gradually transforming into battlefield monitors, system commanders and key decision makers in human-machine collaborative operations, and the requirements for their scientific and technological literacy and information processing capabilities have been greatly improved.
From the perspective of the equipment system, intelligent weapons and equipment such as drones, unmanned combat vehicles, and intelligent missiles will appear in large numbers and become an important part of the equipment system. These equipment are highly accurate and flexible, with stronger autonomous combat capabilities, and can independently complete tasks such as reconnaissance and strikes, greatly changing the traditional equipment structure and combat mode. In addition, traditional weapons and equipment will also accelerate intelligent transformation by adding intelligent sensors, communication modules, and automatic control systems, so as to have the ability to interconnect and cooperate with artificial intelligence systems. For example, old tanks can be upgraded and transformed to realize functions such as automatic driving, automatic aiming, and intelligent ammunition loading, thereby improving overall combat effectiveness.
From the perspective of combat unit formation, unmanned combat systems will gradually develop from auxiliary combat forces to independent combat units and organize them, relying on their unique advantages in high-risk and high-intensity combat environments. Research reports from some think tanks in Western countries believe that drone swarm combat forces and unmanned combat vehicle battalions will become common combat formations, which can complete a variety of tasks such as reconnaissance and surveillance, intelligence analysis, and firepower strikes. In order to give full play to the respective advantages of artificial intelligence and human warriors, human-machine mixed formations will also become the main form of future combat forces. In this formation, human warriors and intelligent weapons and equipment work closely together to complete combat missions.
Enhance combat system effectiveness
Judging from the evolution trend, intelligent technology will integrate unmanned equipment across domains and empower traditional combat platforms, and will become the “enabler” of future system warfare.
At present, many military experts in Western countries believe that artificial intelligence can conduct a comprehensive analysis and evaluation of various elements of the combat system, identify weak links and optimization space in the system, and provide a scientific basis for the construction and adjustment of the combat system. By optimizing the structure and function of the combat system, the overall effectiveness and stability of the combat system can be improved, making it more competitive when facing a changing battlefield environment and a powerful combat system.
During the combat process, artificial intelligence can analyze the combat systems of both sides in real time, predict the opponent’s possible actions and weaknesses, propose targeted system confrontation strategies, and continuously adjust and optimize according to the actual situation in the combat process to achieve efficient operation of one’s own combat system and improve the quality and effectiveness of combat system confrontation.
Western militaries believe that based on the advantages of artificial intelligence empowerment, they can greatly enhance security risk defense capabilities. By automatically predicting, identifying, discovering, and handling complex security risks, they can autonomously protect personnel, equipment, and materials from various attacks, improve all-domain and all-round defense capabilities, and ensure the safety and stability of the combat system.
Improving combat command effectiveness
At present, artificial intelligence has been deeply integrated into all aspects of combat command, affecting the external manifestations and main activities of combat command. Human-machine intelligent fusion control supported by artificial intelligence technology will become the basic form of combat action control.
Some foreign research institutions have found that artificial intelligence systems can quickly analyze the situation based on real-time battlefield situations and a large amount of historical data, generate multiple combat plans, and timely deduce and evaluate plans, adjust and optimize actions, provide commanders with more scientific and reasonable decision-making suggestions, and efficiently guide the execution of plans, so that combat planning can keep up with the rapidly changing battlefield rhythm. Especially when facing rapidly changing battlefield situations, it can help commanders make accurate judgments more quickly.
With the continuous development of artificial intelligence technology, some intelligent combat systems have a certain degree of autonomous decision-making capabilities. In certain situations, such as facing sudden threats or the temporary appearance of fighter jets, combat command systems assisted by artificial intelligence can make decisions and take actions autonomously within the preset rules and authority range, shorten the decision-making chain, and improve the response speed and flexibility of combat. When the combat terminal has stronger intelligent autonomy, it can even realize the self-generation, self-evaluation, and self-adjustment of combat plans, breaking through the limitations of human reaction capabilities and forming a more adaptive combat command.
Many experiments have proved that based on the accumulation of massive combat data and the enhancement of big data analysis technology, artificial intelligence technology can accurately calculate the entire process of combat planning under simulation conditions, helping commanders to accurately analyze the situation in advance, comprehensively judge trends, and reasonably plan trends. Then, through combat simulation, simulation and deduction, etc., it can virtually carry out activities such as calculation of combat force requirements and optimization of tactics and actions. In the planning process, it can scientifically and dynamically adjust combat plan strategies to form the best option, provide more reliable reference basis for combat command, and improve the accuracy of command and control.
Improve the quality of combat coordination
As artificial intelligence technology is deeply integrated into the combat system, the responsiveness of various combat elements on the battlefield continues to improve, the response time is gradually shortened, the adaptability level is gradually enhanced, and the quality of combat coordination is continuously improved.
Some military experts in Western countries believe that the battlefield of the future will be cross-domain, networked, and nonlinear. Artificial intelligence can break the boundaries between various combat domains and combat elements through efficient algorithms, making the coordination between different combat forces closer and more efficient. Based on artificial intelligence technology, autonomous coordination and cooperation between manned and unmanned combat forces can be achieved, so that manned and unmanned combat forces can complement each other and complement each other, significantly improving combat effectiveness. Moreover, the application of unmanned combat systems is becoming more and more extensive. Artificial intelligence technology can perform cluster control and collaborative management of a large number of unmanned combat platforms, achieve efficient coordination and task allocation between them, and improve the overall effectiveness and safety of unmanned combat.
China Military Network Ministry of National Defense Network
The combat window refers to the time and space range that is chosen to stimulate the effectiveness of the system’s combat cycle and is conducive to the joint combat force’s implementation of cross-domain coordinated operations. The concept of combat window comes from fighter jets. It is an innovative development of the theory of joint combat command under the new situation. It will be more widely used than fighter jets in combat command activities. Whether the selection of fighter jets in the confrontation of the joint combat force system can be regarded as a form of “combat window” directly affects the commander’s vision. In the complex and changeable information battlefield environment, the combat window has gradually become a new basis for the joint combat force to implement cross-domain coordinated operations, which is of great significance for seizing the initiative on the battlefield and shaping a favorable situation.
Constructing a combat window to highlight the comprehensiveness of cross-domain collaborative combat preparations
The theater joint command should closely follow the combat missions, opponents, and environment, firmly grasp the strategic and campaign initiative, strengthen the pre-positioning of joint combat resources, actively optimize the battlefield environment, and create conditions for establishing combat windows.
Carry out careful and continuous joint reconnaissance around the operational window. The time and space scope of the operational window includes the time interval and the strike area for attacking enemy targets. Among them, the strike area is generally centered on the strike target, which refers to a relatively closed space that can regulate the system combat forces to maintain comprehensive control over the local battlefield and is suitable for attacking enemy node targets. In order to ensure the smooth implementation of operations in the operational window area, its periphery can be divided into warning patrol areas, interception and annihilation areas, and defensive combat areas to provide support and guarantee for it. The joint command agency should focus on the reporting needs of priority intelligence and warning information in the operational window, and comprehensively use the reconnaissance and early warning forces and means of various services to implement careful, continuous and focused joint reconnaissance to obtain intelligence and warning information in the operational window area and its peripheral areas. If necessary, strategic reconnaissance and early warning forces can be coordinated to provide intelligence support, eliminate reconnaissance and early warning blind spots in the time and space of the operational window, and ensure that the flow of intelligence and warning information from acquisition to use is efficient and stable.
Predict the combat window and timely adjust the cycle plan of the combat readiness training of the task force. The scale and intensity of the high alert state maintained by the task forces of various services and arms greatly restricts the time and space scope of the combat window. Periodically maintaining a high state of alert requires the task forces of various services and arms to manage and operate in accordance with the state of war, which is an important indicator of the combat effectiveness of the task force. At present, the task force should carry out daily management and training in accordance with the three states of combat readiness, training, and preparation. The purpose is to ensure that a considerable number of combat-capable forces can carry out combat window tasks at any time and continuously improve their actual combat level. Non-combat-capable forces should coordinate resources and concentrate on training to generate system combat capabilities. The preparation period is in the interval between combat readiness training. The combat personnel should be flexibly organized to rest, repair equipment and conduct necessary training to create conditions for transitioning to the training cycle or combat readiness cycle. By predicting the combat window, the theater joint command timely adjusts the cycle plan of combat readiness training for large-scale task forces, so that they are rhythmically and regularly in a high state of alert, providing a force basis for implementing window operations.
Focus on the operational window and roll out the linkage operation of cross-domain collaborative combat plans. Since the operational window is often fleeting, the completeness of the cross-domain collaborative combat plans of various services and arms formulated around the operational window may be greatly reduced. Therefore, the theater joint command should gather the collective wisdom of commanders and their command organs, rely on the command information system, and roll out the formulation of cross-domain collaborative combat plans through systematic, procedural, and professional fast command linkage operations. Command linkage operations involve linkage operations of superior and subordinate command agencies, linkage operations of the entire process of reconnaissance, control, attack, protection, and evaluation, and human-machine interaction linkage operations. The implementation of command linkage operations should unify operational intentions, focus on operational windows, use the command operation platform for situation sharing, carry out parallel operations in a coordinated manner, conduct periodic operational planning, conduct situation analysis at any time, follow up on operational concepts, enhance the credibility of simulation and evaluation, and simultaneously formulate and improve cross-domain collaborative combat plans. The implementation of linkage operations helps to shorten the formulation time of cross-domain collaborative combat plans, improve the feasibility of plans, and seize the opportunity of operational windows as soon as possible.
Applying combat windows to highlight the effectiveness of cross-domain collaborative combat system confrontation
The theater joint command should make decisive decisions to launch operations based on careful planning and comprehensive preparation in response to different combat objectives and tasks, different attributes of combat opponents, and different combat types and styles, and quickly seize the initiative on the battlefield in the combat window.
Superimpose the effectiveness of the combat system. The task forces of various services and arms work closely together within the time and space of the combat window, work together as a whole, and focus on combat tasks to form a system combat effect. At present, with the rapid development of military science and technology and the continuous adjustment and optimization of new combat forces, precision, automation, intelligence, and unmanned weapons and equipment are being used more and more widely. Within a specific combat window, almost every service and arms has more or less the means to accurately strike enemy targets in multiple domains over long distances. Even land-based task forces have the ability to accurately strike enemy targets at long distances and the ability to project troops near the coast, which enables the task forces of various services and arms to carry out compound strikes within the combat window, becoming the preferred method for joint operations to strike enemy targets. Compared with a single service and arms, compound strikes of multiple services and arms will produce more powerful, more accurate, more stable, and faster compound strike effectiveness. The compound strike effectiveness of the task forces of various services and arms focuses on combat targets within the combat window, which will cause the value of cross-domain collaborative combat effectiveness to increase sharply, and the superimposed effect will be more obvious.
Converge combat support resources. Combat support resources are material factors that affect the selection and application of combat windows, involving many resources such as reconnaissance and intelligence support, information support, and rear-end support. Implementing converged support and support for the theater in wartime is the key to applying the combat window. The combat support of friendly theaters will enable the task force to maintain a high level of combat readiness, and commanders will have more combat options; the aerospace information support and network combat support provided by the strategic support force will be an important support in the field of joint reconnaissance and intelligence, and information operations; and the joint logistics support force is the main force for implementing joint logistics support and strategic and campaign support, and the volatility of the combat capability of the theater task force is largely restricted by this. In this regard, by clarifying the mission and tasks, command authority, institutional mechanisms, and laws and regulations of the combat support force, we will actively gather combat support resources around the combat window, implement integrated, comprehensive and efficient support, and greatly improve the system effectiveness of cross-domain collaborative operations.
Regulate the operational fluctuation cycle. The joint command command command of the task forces of various services and arms to carry out strike operations against enemy targets. Before the operation, it is necessary to convert the combat readiness level, conduct coordinated exercises, and deploy to the standby area. Even if the task force is faster in preparation for strikes, more skilled in strike methods, and more optimized in strike processes, it needs to be completed within the corresponding time period. At the same time, commanders and combatants will be affected by combat fatigue, resulting in a significant reduction in command decision-making efficiency and strike effectiveness, which greatly restricts the extension of combat duration and makes the fluctuation cycle of the combat capability of the task force more obvious. After the strike operation, the replenishment and rest of combat personnel, the maintenance and repair of weapons and equipment, and the summary and review of combat experience and lessons all require an adjustment cycle. Commanders need to timely regulate the fluctuation cycle of the task force’s strike capability according to the different combat methods and weapon and equipment damage mechanisms of various services and arms, clarify the combat threshold of the task force, and minimize the interference of combat fluctuations as much as possible, thereby greatly improving the cross-domain collaborative combat capability.
Maintain the operational window and highlight the stability of battlefield control in cross-domain collaborative operations
The theater joint command should strictly control the scale and intensity of window operations, strengthen joint management and control, strictly control combat costs, improve combat effectiveness, actively create a favorable battlefield situation, avoid combat passivity, and prevent window operations from expanding into full-scale operations.
Strengthen battlefield linkage control. Battlefield control by various services plays an important role in shaping a stable combat situation, strengthening multi-domain space control, and maintaining combat windows. Strengthen the control of cross-domain collaborative combat battlefield space, including battlefield spaces such as land, sea, air, space, and network, as well as electromagnetic spectrum and time-space reference battlefield space. Among them, the battlefield control area is mainly divided into combat window areas, strategic support areas, alert isolation areas, frontier warning areas, and friendly support areas in various fields. Under the unified command and control of commanders and command agencies, the task forces of various services and arms clarify the primary and secondary relationships of cross-domain collaborative control, clarify control rules, mechanisms and disciplines, adopt a variety of control methods, and comprehensively use command information systems and other advanced technical means to vigorously strengthen the timeliness and accuracy of battlefield linkage control.
Comprehensively evaluate the combat effectiveness. The command organization should closely follow the formulation process of the cross-domain collaborative combat plan of the combat window, closely follow the collaborative control instructions, closely follow the collaborative actions of the task force, and closely follow the actual collaborative support, and implement rapid, efficient, and continuous performance and effectiveness evaluation during the window operation. Focusing on the achievement of combat objectives, adapting to the characteristics of window operations with full-domain linkage, comprehensively using a variety of combat evaluation tools and means, integrating system evaluation algorithms, data and capabilities, optimizing the evaluation system dominated by combat effectiveness, process management, information support, and human-in-the-loop, forming an evaluation model that matches combat orders, actions, and effects, and combines combat performance with effectiveness indicator judgment, thereby improving the accuracy and timeliness of combat window effect evaluation.
Actively shape the new battlefield situation. After continuous preparations for military struggle against the enemy, interactive deterrence and control, and limited strikes within the combat window, the state and situation formed by the enemy and us in terms of combat force comparison, deployment and action are relatively stable, thus forming a battlefield situation under the new situation, and its development trend is also predictable and expected. Commanders and their command organs continue to have a deep understanding of the characteristics and laws of the enemy situation, our situation and battlefield environment in this strategic direction, and have a clear understanding of the basic outline of the future struggle situation. They can clarify future combat objectives and measures, and their confidence in winning will gradually increase, creating conditions for determining the next round of combat windows.
Source: Liberation Army DailyAuthor: Hao Jingdong Niu Yujun Duan Feiyi
Editor-in-charge: Wang Feng
无命题8
2021-03-16 10:xx
●To understand the laws of intelligent warfare, we must grasp the foundation of intelligence and autonomy, the key of building a war knowledge and action system, and the essence of the changes in the connotation of war power.
●War leaders must examine intelligent warfare dynamically, keenly capture the new elements spawned by intelligent warfare, correctly analyze the changes in the relationship between the new elements, and constantly re-understand intelligent warfare.
President Xi pointed out that we should seriously study the military, war, and how to fight, and grasp the laws of modern warfare and the laws governing war. Today, the intelligent characteristics of war are becoming increasingly prominent, and intelligent warfare has already shown its early form. In order to seize the initiative in future intelligent warfare, we should actively follow the development of modern warfare, keep close to the actual military struggle preparations, proactively understand the laws of intelligent warfare, deeply grasp its guiding laws, focus on answering questions such as “what is it” and “how to do it”, and constantly innovate war and strategic guidance.
Answering the question “What is it?” and understanding the laws of intelligent warfare
Comrade Mao Zedong pointed out: “The laws of war are a problem that anyone who directs a war must study and must solve.” Today, as intelligent warfare begins to emerge, we should proactively understand “what” intelligent warfare is. Otherwise, we will not be able to solve “how to do it,” let alone control future wars.
The laws of intelligent warfare are the reconstruction of the war knowledge and action system. The laws of intelligent warfare, like the laws of cold weapon warfare, hot weapon warfare, mechanized warfare, and information warfare, are the inherent and essential connections between the elements of war. The difference is that it has new elements and new modes of composition between elements. It is essentially the reconstruction of the war knowledge and action system caused by the intelligent revolution. Today, to understand the laws of intelligent warfare, we must grasp the foundation of intelligence and autonomy, grasp the key to building a war knowledge and action system, and grasp the essence of the change in the connotation of war power. Mastering these laws can overcome the chaos and uncertainty in future wars and find order and certainty from them. This is the objective requirement for dealing with intelligent warfare.
The laws of intelligent warfare are the basis of the laws of war guidance. In “Problems of Strategy in China’s Revolutionary War”, Mao Zedong first analyzed the characteristics of China’s revolutionary war and revealed the laws of war, and then “derived our strategies and tactics from this”, that is, the laws of war guidance; in “On Protracted War”, he first explained “what it is”, and then turned to the question of “how to do it”, reflecting a logical order of the cognitive process. Today, the study of intelligent warfare should still follow this order, and neither put the cart before the horse, nor reverse the order; nor add, reduce or replace links. On the basis of mastering the fundamental law of intelligent autonomy, we must reveal the laws of war guidance such as autonomous perception, autonomous planning, autonomous implementation, autonomous linkage, and autonomous evaluation.
If you don’t understand the laws of intelligent warfare, you can’t guide the war. “Sun Bin’s Art of War” points out: “Know, win” and “Don’t know, don’t win.” Tao is the law of war. If you master it and act in accordance with it, you can win; otherwise, you will lose. Mao Zedong also emphasized: “If you don’t know the laws of war, you don’t know how to guide the war, and you can’t win the war.” Similarly, mastering the laws of intelligent warfare is the premise for correctly guiding intelligent warfare. Otherwise, it is inevitable to be confused by the superficial phenomena of intelligent warfare. Today, we need to analyze the basic, long-term and subversive impact of intelligent technology groups on war, and study what intelligent warfare looks like? What are the laws? How should it be fought? These are all major issues that must be answered in the guidance of intelligent warfare.
Solve the “how to do it” problem and reveal the guiding principles of intelligent warfare
The guiding laws of intelligent warfare are the medium for guiding practice by using the laws of intelligent warfare, playing the role of “bridge” and “boat”. We should solve the problem of “how to do it” on the basis of answering “what is it” and propose the “swimming skills” of intelligent warfare.
The guiding laws of intelligent warfare are the laws of applying the laws of war. The purpose of understanding the laws of war is to apply them. Marx pointed out: “Philosophers only interpret the world in different ways, but the problem is to change the world.” Similarly, intelligent warfare itself forces commanders to discover the laws. Once discovered, they will combine initiative and use the laws to serve winning the war, which will inevitably lead to the emergence of guiding laws for intelligent warfare. Today, war is the continuation of politics, which is still the law of intelligent warfare. From this, it can be concluded that intelligent warfare must obey the guiding laws that serve politics; soldiers and civilians are the basis of victory, which is still the law of intelligent warfare. From this, it can be concluded that the guiding laws of mobilizing the people in the broadest possible way are derived, and so on. These guiding laws for intelligent warfare are derived from the laws of war and are “swimming skills in the sea of intelligent warfare.”
Give full play to the active role of people in intelligent warfare. Engels said: “It is people, not guns, who win the battle.” The guiding laws of intelligent warfare are the laws of practice and use. It is not a simple “transfer” or “copying” of the laws of intelligent warfare, but it can be transformed into the guiding laws of war with the addition of people’s subjective initiative. Today, military talents who master artificial intelligence are not only the operators of intelligent weapons, but also the creators of artificial intelligence. People still occupy a dominant position in the intelligent human-machine system and are the decisive factor in the victory or defeat of intelligent warfare. Commanders should give full play to their initiative on the basis of mastering the laws of intelligent warfare and adhere to the “technology + strategy” combat theory generation model, so as to change from answering “what is” to solving “how to do”.
The laws governing intelligent warfare are constantly evolving. War is a “chameleon”. Intelligent warfare itself will also go through different stages such as germination, development, and maturity, which will inevitably lead to the development of laws governing intelligent warfare. War leaders must dynamically examine intelligent warfare, keenly capture the new elements of intelligent warfare, correctly analyze the changes in the relationship between the new elements, and constantly re-recognize intelligent warfare. We must keep up with the historical process of the accelerated advancement of war forms towards intelligence, grasp the direction of development of intelligent warfare and the pulse of the times, push the research on the laws governing intelligent warfare to a new level, and seize strategic initiative and opportunities on future battlefields.
Keep a close eye on the “initiative” and continue to innovate intelligent warfare and strategic guidance
As the military is ever-changing, water is ever-changing. As intelligent warfare has already arrived, we must follow the laws and guidance of intelligent warfare, keep close to the actual military struggle preparations, strengthen research on opponents and enemy situations, take the initiative to design “when”, “where” and “who to fight”, innovate war and strategic guidance, and firmly grasp the strategic initiative of future wars.
You fight yours, I fight mine. The highest realm of the art of war guidance is that you fight yours, I fight mine. “Each fights his own” requires commanders to use their own forces independently and autonomously in future intelligent wars, no matter how complex and difficult the environment is. In particular, enemies with high-tech equipment may cause a temporary local situation where the enemy is active and we are passive. At this time, we must use comprehensive means such as politics, economy, and diplomacy to make up for the disadvantages in weapons with an overall favorable situation, quickly reverse this situation, and restore the active position. If you are led by the nose by your strategic opponent, you may suffer a great loss.
Seize the opportunity and use the troops according to the time. The Six Secret Teachings pointed out: “The use depends on the opportunity.” Jomini emphasized: “The whole art of war lies in being good at waiting for the opportunity to act.” On the one hand, if the time is not right, do not force it. Be cautious about the opportunity, and have great patience before the opportunity comes to prevent strategic blind action. On the other hand, the time will not come again, so don’t miss the opportunity. Be good at seizing the opportunity, and once you encounter a favorable opportunity, you must resolutely use it and avoid being timid. It should be pointed out that we should look at the issue of the maturity of the opportunity dialectically. The future intelligent war is changing rapidly, requiring quick decision-making, but in the face of uncertain factors, we must make careful decisions. Sometimes making a decision early may be more effective than making a more perfect decision tomorrow. Therefore, we must dare to take a little risk, otherwise we will sit back and watch the loss of the opportunity for success.
Different domains are different, and operations are based on the local conditions. Clausewitz pointed out: “War is not like a field full of crops, but like a field full of trees. When harvesting crops, you don’t need to consider the shape of each crop, and the quality of the harvest depends on the quality of the sickle; when chopping down trees with an axe, you must pay attention to the shape and direction of each tree.” Different strategic spaces lead to different wars, and war guidance is also different. At present, the battlefield space is constantly expanding from traditional spaces such as land, sea and air to new spaces such as space and the Internet. War leaders should explore new intelligent war laws and guidance laws based on the characteristics of multi-domain, three-dimensional, and networked.
Aim at the opponent and win by taking advantage of the enemy. The Art of War by Sun Tzu states: “Follow the enemy and decide the battle.” Jomini also said: “No matter who you are, if you don’t understand the enemy, how can you know how to act?” Looking to the future, smart strategists should classify combat targets into primary combat targets and general combat targets, actual combat targets and potential combat targets according to their importance and urgency, and comprehensively and objectively understand the strategic intentions, force deployment, combat concepts, etc. of different combat targets, propose new intelligent war guidance laws that can give full play to the advantages of their own combat power, and implement correct war actions.
In short, the laws of intelligent warfare are the laws of the cognitive process, solving the problem of “what”; the guiding laws are the laws of the practical process, solving the problem of “how”. The two are dialectically unified and inseparable, forming a complete chain of understanding and guiding intelligent warfare. “Victory is not repeated, but should be formed in infinity.” Today, war and strategic leaders should, based on objective conditions, deeply explore and flexibly apply the laws of intelligent warfare and the laws of war guidance, and innovate war and strategic guidance in line with the times.
(Author’s unit: Academy of Military Science, Institute of War Studies)
In recent years, the wave of intelligence has surged and has been widely used in the military field. Major countries in the world attach great importance to the construction and application of military intelligence. Various unmanned combat platforms and intelligent weapons and equipment continue to appear and are equipped in the army for actual combat. In the face of the accelerated evolution of the intelligent form of war, only by seizing development opportunities, actively responding to challenges, accelerating the development of military intelligence, and accelerating the forging of intelligent combat capabilities can we seize the strategic initiative of intelligent warfare and win the future intelligent war.
Focusing on the creation of intelligent theory of war design
Military theory originates from combat practice and is used to guide combat practice. In the past, due to various restrictions, military theory research was mostly “looking back”, that is, summarizing combat cases to form combat guidance. With the rapid development of modern technology, especially disruptive technologies such as big data and cloud computing, combat theory research has broken away from the traditional follow-up and inductive reasoning mode and entered a new era of experimental warfare and designed warfare. New disruptive technologies in the field of intelligence have opened up new space for innovation in military theory. To this end, we should follow the idea of ”proposing concepts-demand analysis-innovative theories” to create the basic theory of intelligent warfare, and conduct in-depth research on the conceptual connotation, essential characteristics, war guidance, combat style, offensive and defensive actions, winning mechanism, characteristics and laws of intelligent warfare; innovate intelligent warfare methods and methods, give full play to the overall effectiveness of the intelligent combat system, strengthen the research on new intelligent combat methods and methods such as human-machine collaborative intelligent warfare, intelligent robot warfare, and intelligent unmanned cluster warfare, as well as the processes and methods of intelligent combat command and intelligent combat support; focus on effectively responding to intelligent combat threats and study strategies to defeat the enemy, such as intelligent blocking warfare and intelligent disruption warfare. These theories are the cornerstone of the intelligent warfare theory system. In the future, the war theory centered on strengthening “intellectual power” and competing for “algorithm-centric warfare” is very likely to replace the war theory centered on “network-centric warfare”.
Focusing on cross-domain interconnection and exploring intelligent forms
Military organization is the link between military technology and combat theory, and is the lever for exerting the overall combat effectiveness of the army. Modern combat emphasizes “elite combat under the support of a large system”, that is, with the support of the joint combat system, “elite front and strong back”, and organizes precise and multi-functional combat modules according to the idea of ”integrated design, modular organization, and combined use” to maximize the release of combat energy. The system organization of future intelligent warfare will form small, multi-functional, intelligent new joint combat forces of different types and purposes according to different levels of strategy, campaign, and tactics and different military arms, and emphasize the organization of “global” forces that can perform diversified combat tasks. Through intelligent combat networks, according to the requirements of reconfigurability, scalability and adaptability, single weapon platforms can be seamlessly linked and flexibly organized according to changes in the enemy situation, battlefield environment, etc., and then aggregate to form system advantages and form an integrated offensive and defensive combat module. The new intelligent combat force system is the comprehensive product of the development of artificial intelligence technology, the formation of new quality combat power and the evolution of war forms. It is the “trump card” to seize the initiative in the future all-domain combat space, the key to the construction of an integrated joint combat system, and a new growth point for the army’s combat effectiveness.
Focusing on the integration of man and machine to develop intelligent weapons
With the development of information technology and intelligent technology, whoever can win in the field of artificial intelligence will have the opportunity to take the initiative in future military confrontation. We should focus on the dual needs of intelligent war system operations and intelligent weapons and equipment system construction, do a good job in top-level design and overall coordination, compile a roadmap for the development of intelligent weapons and equipment systems, and develop intelligent unmanned combat equipment systems that match operations and support in a planned, focused, and step-by-step manner, covering land, sea, air, space, electricity, and network space fields, and establish a “human-led, machine-assisted, mixed formation, and joint action” manned-unmanned collaborative system to enhance the system integration of various military services and various intelligent weapons and equipment such as operations and support. Intelligent unmanned combat systems are a new trend in the development of future war equipment. Its core lies in aiming at the requirements of “zero casualties”, “full coverage”, and “fast response” in future wars, making full use of the development results of new theories, new materials, new processes, new energy, and new technologies, and continuously making breakthroughs in human-machine collaboration and autonomous action. We will build a three-level unmanned equipment system of strategy, campaign, and tactics, build a new type of intelligent unmanned division on a large scale, and realize the systematic collaborative operations of unmanned combat systems. At the same time, we should focus on the needs of unmanned and anti-unmanned, intelligent and anti-intelligent combat, and pay attention to the research and development of weapons and equipment systems for anti-enemy intelligent unmanned combat, to ensure that we can effectively engage in intelligent unmanned offensive and defensive confrontation with the enemy.
Focus on the ability to combine innovation and intelligent training
The professional division of modern warfare is becoming more and more detailed, and the entire combat system is becoming more and more complex, which promotes the transformation of combat from labor-intensive to technology-intensive. It requires that combatants must not only have good physical fitness, but also have good technical literacy and intellectual advantages to cope with the needs of different combat tasks, combat environments, and combat opponents. Military intelligence has put forward higher requirements on the quality of people. Correspondingly, intelligent military talents should have the characteristics of talent group, advanced skills, complex knowledge, innovative thinking, and intelligent decision-making. Intelligent warfare will be a war jointly implemented by man and machine, and combat forces with intelligent unmanned combat systems as the main body will play an increasingly important role. Only the effective combination of high-quality personnel and intelligent weapons can maximize the combat effectiveness. It is necessary to adapt to the new characteristics of the intelligent warfare force system, innovate and develop intelligent training concepts, and explore new models for the generation of intelligent warfare combat effectiveness. At present, artificial intelligence technology can create a more “real” weapon operation experience and battlefield environment, and can realistically interpret the combat process, assist decision-making and command, and evaluate combat concepts. To this end, we should adapt to the new characteristics of the intelligent war force system, focus on improving the self-command, self-control, and self-combat capabilities of the intelligent combat system, make full use of the characteristics of the intelligent system that can self-game and self-grow, form a training system, training environment, and training mechanism specifically for the intelligent combat system, strengthen the training of “people” to control the intelligent system, and explore a new training model with “machines” as the main object. In this way, the intelligent combat system can obtain a leap in combat capability through short-term autonomous intensive training to cope with the test of disorder, complexity, and uncertainty in the future combat environment.
Focus on improving the guarantee model with precision and efficiency
In the intelligent battlefield, the realization degree of comprehensive support for joint operations is an important factor that directly affects the generation of combat effectiveness of troops. The development of intelligent technology will inevitably trigger revolutionary changes in the construction of the joint combat support system and realize intelligent comprehensive support. Comprehensive support is the foundation of combat effectiveness and a bridge for transforming the country’s economic strength into the combat capability of troops. With the continuous maturity of Internet of Things technology, intelligent warfare places more emphasis on integrated support, precise support, and distribution support, that is, delivering to the required location at the required time according to the required quantity. Relying on the integrated support system, the dispersed support forces and resources will be organized according to functional modules such as supply, materials, maintenance, ammunition and management, so that they cover all areas of combat service support work. Relying on visualization technology, the current status of combat supply will be tracked and mastered throughout the process, and information control, reception and distribution of personnel and material flows will be carried out according to the real-time development of the battle situation, so as to achieve point-to-point direct support. By using technologies such as the Internet of Things, drones, smart cars, remote surgery, and 3D printing, we will upgrade and create an intelligent after-sales support system covering smart warehousing, smart delivery, smart maintenance, and smart medical care. This will enable automatic, rapid, and accurate replenishment of battlefield after-sales materials, rapid diagnosis and repair of equipment failures, and timely rescue of battlefield personnel. We will transform passive support into active service, and improve the overall efficiency and benefits of after-sales support.
Focusing on military and civilian dual-use to deepen intelligent integration
Breakthroughs in the core key technologies of artificial intelligence are the “national heavy weapons” to deal with the threats and challenges of intelligent warfare. The rapid development of intelligent technology has become an accelerator of military intelligence. In the information age, the boundaries between military and civilian technologies are becoming increasingly blurred, and their convertibility is becoming stronger and stronger. Actively establish a military-civilian collaborative innovation mechanism, continuously strengthen the driving force for the innovation and development of intelligent core technologies, build an open industry-university-research collaborative innovation system for the whole society, make forward-looking arrangements and support investments in core cutting-edge technologies such as artificial intelligence, give full play to the innovative power of the entire society, and promote the rapid and sustainable development of military intelligence. Accelerate the advancement of technological breakthroughs in key areas. We must focus on relevant key technology areas and break the technical bottlenecks that restrict the development of military intelligence. Strengthen research in the basic support areas of military intelligence, such as military big data and military Internet of Things; based on combat needs, strengthen research on intelligent application technologies in various combat elements, especially research on intelligent command decision-making, intelligent weapon platforms, intelligent battlefield perception, and intelligent confrontation technologies. The research and development of core key technologies of military intelligence should not only carry out cross-disciplinary and cross-domain collaborative innovation, but also make social intelligence and military intelligence development dock and track, learn from mature technologies and successful experiences in the development of social intelligence, and promote the rapid embedding of various artificial intelligence technologies into combat elements and combat processes. To accelerate the development of military intelligence, we should speed up the exploration of the training rules of relevant talents, make full use of military and local educational resources, increase the training of relevant talents, and provide solid intellectual support and talent guarantee for promoting the construction of military intelligence.
Party committees at all levels of the military are the leading force in preparing for war. They must make preparation for war the first priority and place it at the center of all work. They must focus on the center to plan war, keep pace with the times, innovate in war research, and focus on winning. We will effectively prepare for war and comprehensively build the country.
In his important speech at the Central Military Commission’s military training conference, President Xi pointed out that “Party committees at all levels must improve their political positions, strengthen their political responsibilities, and work diligently to do a good job in military training.” He emphasized that “all levels, especially senior commanders, must concentrate on research. Military, study war, study fighting, understand combat, know how to command, be good at organizing training, and practice training to develop excellent skills and lead out excellent troops.” To implement the important instructions of Chairman Xi, we must strengthen the centralized and unified leadership of the Party committee over military training work, effectively focus our work on preparing for war, focus on our main responsibilities and main tasks of planning, researching, operating, and preparing for war, and put our combat effectiveness Standards and practical requirements run through the entire process of military building in all fields, ensuring that when the party and the people need it, they are always available, able to fight, and victorious when they are needed.
Focus on the center and fight resolutely
“Things that are well planned will be determined by action.” Party committees at all levels of the army, as the leading force in preparing for war, and commanders at all levels, as the “leaders” of combat command, should insist that all work be based on improving combat effectiveness, and all work should focus on improving combat effectiveness. To carry out all work, all work will be tested based on whether it can increase the contribution rate to combat effectiveness building. We should be good at using strategic thinking that has an overall view and a long-term perspective to think about wars and plan wars, so as to make decisions before taking action.
In-depth study of Xi Jinping Thought on Socialism with Chinese Characteristics for a New Era and Xi Jinping Thought on Strengthening the Army, implement the military strategic guidelines of the new era, understand the issues of victory, value inquiry, and ability torture through learning, understanding, and practice, and shoulder the responsibilities of the Party Committee in preparing for war. The main responsibility of the party committee is to prepare for war and war as the main responsibility of the party committee leaders, with a high sense of political responsibility and historical mission to prepare for war, concentrate on the main business, and perform the main responsibilities without distraction, so as to ensure that the center of gravity does not shift and the state does not change at any time. Be free and unyielding in will.
Keep up with the changes, trends, and developments of the new military revolution in the world, pay close attention to our country’s security and development situation, improve our political position, broaden our political horizons, grasp the direction, and broaden our horizons with forward-looking thinking, innovative ideas, and broadened horizons that keep pace with the times. Grasp the general trend, grasp the overall situation, and demonstrate the new responsibilities and new achievements of the party committee in the new era to prepare for war and win.
Resolutely set up the baton to prepare for war, take the lead in establishing the thinking of the combat team, find the correct functional positioning, deeply integrate the work of the party committee into the construction of combat effectiveness, strengthen the role of control and orientation functions, start from ourselves, and always tighten the string of preparation for war. , guide the troops to focus all their thoughts on fighting and work hard on fighting, and strengthen the minds of officers and soldiers to be ready to fight at any time and to win wars based on existing conditions.
Keep pace with the times and innovate research
Soldiers have no constant momentum, and water has no constant shape. The operational forms of future wars are changing with each passing day. In particular, the combat space of modern warfare has formed three major combat domains: the physical domain, the information domain, and the cognitive domain. This has resulted in multidimensional and diverse combat theories and war styles. We must adapt to new changes and grasp new characteristics. , establish new concepts, and keep pace with the times to explore and study the winning mechanism of information-based and intelligent warfare.
Adaptation to change research theory. Persist in making good use of the party committee’s theoretical study center group learning system, conduct in-depth study and study of combat ideas, combat guidance, combat methods, etc. in future wars, more accurately grasp the characteristics of future wars such as system confrontation, global time and space, and hybrid games, and highlight the joint efforts under informationized conditions. Research and exploration of combat characteristics and laws, and fully implement them into actual combat-oriented military training practices.
Understand the mechanism of war history research. Focusing on advancing preparations for military struggles in depth, from party committee leaders to front-line commanders, from agencies to troops, read more classic military works, study more war history and examples of generals, think more about the factors of victory and defeat, and comprehensively use innovative thinking, dialectical thinking, Legal thinking, etc. vigorously study military affairs, war, opponents, and technology to improve forward-looking planning, system design, and strategizing capabilities.
Democratic resolution research strategy. Adhere to the division of labor and responsibility system of heads under the unified collective leadership of the party committee, strictly implement the system of discussion, discussion and training, focus on identifying shortcomings, bottlenecks and difficulties during the discussion, study measures, fill gaps and solve problems during the discussion, and solve problems during the discussion. Direction, clear ideas, clarification of rights and responsibilities, so that the basis for discussion, the quality of decision-making, and the responsibility for implementation can be realized, and the decision-making and action can be realized, and the decision-making power, execution power and combat effectiveness can be truly realized.
Specializes in refining and conducting research. In view of the “five incompetences” existing among a small number of commanders, we must speed up the improvement of strategic literacy, joint literacy, command literacy, and scientific and technological literacy, and develop excellent skills in understanding operations, commanding, organizing training, and practicing training, so as to achieve We must really understand combat, be good at command, and truly know how to unite, and accelerate the improvement of our ability to plan and command war.
Focus on winning the war with dedication
If the soldiers do not want to fight, it will be a great disaster for the country. Party committees at all levels, as the leading, central, and engine in preparing for war, must roll up their sleeves and work hard, consolidate and deepen the results achieved in correcting the long-standing abuses of peace with a high-spirited attitude, a pragmatic style, and effective measures, and act vigorously and resolutely, and work hard and quickly, Don’t give up if you don’t see results, and push forward the implementation of various tasks in preparation for war.
Thoroughly rectify the accumulated shortcomings and strengthen the spirit. In the past, we had less steel and more air. Now that we have more steel, we need more air and our bones need to be harder. We must take effective measures and flexible and diverse forms to do a good job in education on missions, tasks, and situational combat readiness, explore and form a long-term mechanism for cultivating combat spirit, strive to strengthen the combat team mentality of the majority of officers and soldiers, always maintain a ready-to-fight attitude, and thoroughly correct the ” The “Peace Officer” and “Peace Soldier” have accumulated many disadvantages. They educate and guide officers and soldiers to strengthen their ideals and beliefs, sharpen their will to fight, temper their fighting style, and always maintain a tenacious fighting spirit that is not afraid of hardship and death.
Really prepare for strong combat power. Based on what can be drawn, used and won at critical moments, we must strictly strengthen the supervision of combat readiness training, increase the intensity of inspections and inspections, deeply correct formalism and bureaucracy in training, comprehensively rectify training and performance examinations, and achieve The training style has basically improved. Reduce “five more” by cutting the edge of the knife inward, improve the style of the meeting, investigate and deal with fraud with zero tolerance, effectively treat the training ground as a battlefield and the post as a combat position, in arduous and strict training, in an environment close to actual combat Beat and train the troops, hone the quality of the officers and soldiers, test the performance of the equipment, and forge the troops’ excellent combat effectiveness.
Positive motivation and strong orientation. Adhere to the standards of good military cadres, select and employ cadres strictly in accordance with principles, policies, rules, and procedures, so that those who want to fight have a stage, those who want to fight have a seat, and those who can fight have a purpose, and resolutely abandon and correct the selection and employment of personnel. The unhealthy tendencies and wrong guidance have been effectively formed to form a work orientation, employment orientation, policy orientation, and public opinion orientation that are conducive to strengthening military training and preparation for war.
Strong configuration of aggregated resources. We must focus all our minds on the center, work hard on the center, and allocate resources to the center. We should focus on planning, reviewing, guiding, and evaluating all work at the service guarantee center, and vigorously break the performance standards of competing for fame and glory, and passively ensuring safety. Safety standards, compliance with the status quo, and resolute efforts to resolutely correct the phenomenon of competing for time, space, and resources with central work, truly aligning all work with actual combat needs, and in line with improving core military capabilities. We must resolutely prevent wasted idling that deviates from combat effectiveness, review plans, determine projects, focus on construction, and seek development at the rate of contribution to combat effectiveness, and always ensure that the center is centered.
Comprehensive construction and effective preparation for war
Only by being strong in all aspects can we be sure of victory. Party committees at all levels should insist on focusing on preparing for war, comprehensively strengthen grassroots construction, and strive to forge excellent grassroots who listen to the Party and follow the Party, capable of fighting and winning wars, and have strict laws and disciplines and upright morale, so as to lead officers and soldiers very well. With a bloody spirit, he brings the troops to full strength and ensures the overall progress and overall excellence of the troops.
Strengthen political leadership. To be strong at the grassroots level, we must first be strong politically. Party organizations at all levels must strengthen political guidance to the officers and soldiers, persist in using the party’s scientific theories to build connections and educate people, unremittingly arm officers and soldiers with Xi Jinping Thought on Socialism with Chinese Characteristics for a New Era and Xi Jinping Thought on Strengthening the Army, and continue to deepen the “inheriting the red gene” , shoulder the important responsibility of strengthening the army”, promote the project of passing on the red gene from generation to generation, strive to lay a solid ideological and political foundation for officers and soldiers to obey the party’s command and devote themselves to the cause of strengthening the army, and ensure that the party’s absolute leadership over the army reaches directly to the grassroots and officers and soldiers.
Strengthen organizational functions. Party committees and leading cadres at all levels must firmly establish the idea that “doing a good job in party building is their duty, not doing a good job in party building is dereliction of duty, and failing to do a good job in party building is dereliction of duty.” Service contact orientation. Extensively carry out the activities of “learning military affairs, learning command, and learning science and technology” to enhance the ability of all levels to plan wars, command wars, and lead troops to fight, and truly transform the party’s political and organizational advantages into winning advantages.
Sharpen the bloody courage. Focus on sharpening the edge of the sword in actual combat and forging elite soldiers and generals in actual training. Strengthen the consistency of combat training, insist on using combat to lead training and use training to promote combat, so as to train according to actual combat requirements and realize the integration of combat and training. Make live ammunition, actual delivery, and live explosions a “homely meal”. Difficulty, strictness, and actual combat should be regarded as the “standard configuration” of training. Keep a close eye on the battlefield and tasks, design the training environment, set training conditions, and transform the training ground into Designed as a “quasi-battlefield” and “actual combat ground”, officers and soldiers are trained in difficult situations, tempered in dangerous situations, and tempered in critical situations, so as to truly develop excellent skills and bring out excellent troops.
Transform the way we run the military. Adhere to the orientation of everything to improve combat effectiveness and focus on mobilizing the enthusiasm, initiative and creativity of officers and soldiers, accelerate the transformation of the way of running the military, increase the intensity of running the military in accordance with the law and strictly manage the military, and strictly perform duties and powers in accordance with legal responsibilities and authority, Work is carried out in accordance with the regulations and rules and regulations, which is not only strict within the law and strict in accordance with the law, but also managed in a reasonable and measured manner, so as to effectively manage positive energy, high efficiency, and combat effectiveness.
