Category Archives: #新興戰爭技術

Chinese Military New War Force that Emerges Suddenly the Micro-operation

異軍突起的中國軍隊新戰爭力量微作戰

現代英語:

War is a violent confrontation. With the development of science and technology and the evolution of war forms, the violence of war has gradually reached its peak in the “big” aspect. Nuclear weapons have been able to destroy the earth many times, which in turn limits the actual combat application of nuclear weapons. However, the violence of war is accelerating in the “small” aspect. The emergence and use of micro-combat equipment and micro-combat forces have increasingly changed our cognition of future warfare. Perhaps a mosquito may be a precision strike weapon in the future.

Micro-operation is the abbreviation for using miniaturized weapons and equipment to conduct operations. It is a new product based on the rapid development of science and technology and an important manifestation of the scientific and technological development level of a country and its military. With the rapid development of high technologies such as electronic information technology, nanotechnology, and artificial intelligence technology, more miniaturized, micro-miniaturized, and intelligent weapons and equipment are constantly emerging. The scale of operations has changed from the trend of continuous expansion for thousands of years. Micro-operation has become possible and has become an important development trend of future operations. We must fully recognize the importance of micro-operation, lead the development trend of micro-operation, and seize the initiative in micro-operation.

Micro-operation becomes a new direction of combat development

In the new wave of development of combat methods, micro-combat, with its unique image of being independent and cost-effective, has become a new direction of combat development and has a huge impact on combat development.

The future demand for intelligent warfare will lead to the development of micro-operations. The development of military intelligence has overturned traditional cognition. Its battlefield perception intelligence, autonomous decision-making intelligence, and attack intelligence have undoubtedly become the key to victory. Micro-operations just fit the context of military intelligence development and become a new direction of rapid development driven by the demand for intelligent warfare. Intelligent warfare requires intelligent perception means. The intelligent micro-perception system under micro-operation conditions can provide battlefield intelligence and information that is difficult to obtain with traditional perception equipment. It is reported that the modern new bionic flapping-wing aircraft developed by the University of Toronto in Canada and a company in California, USA, by imitating hummingbirds, has achieved aerial hovering for the first time. In wartime, it can be disguised as a hummingbird and is extremely difficult to be discovered. It has the ability to enter enemy locations and secretly obtain intelligence information. Intelligent warfare is inseparable from intelligent attack methods, and micro-operation provides a wealth of options for this. The “Vector Eagle” multi-mission micro-drone launched by Lockheed Martin of the United States has a total take-off weight of only 1.8 kilograms and a length of about 10 centimeters. It can carry different payloads according to different mission requirements and complete different combat missions such as destruction, interference, and blasting.

Microsystems, micro-bionics, micro-drones and other technologies support the development of micro-warfare. The development of combat forms cannot be separated from the support of technology, and micro-warfare cannot be separated from the support and promotion of the development of microsystems, micro-bionics, micro-drones and other technologies. Microsystems are devices that integrate sensing, driving, execution and signal processing devices in a heterogeneous and heterogeneous manner based on micro-photonics, micro-mechanics, algorithms and architectures to achieve functions. The US DARPA has set up a microsystem technology office to step up the research and development of electronic components based on microelectronics, optoelectronics, micro-electromechanical and micro-energy technologies, integrated technologies based on optoelectronics and magnetism, algorithms and architecture technologies based on programmable architecture, spectrum utilization algorithms, and electronic warfare, as well as technologies such as heat dissipation, safety, self-decomposition, and self-repair. Military bionic technology is also developing from macro to micro. Through micro-bionics, new materials, new equipment, and new tactics urgently needed for micro-combat can be developed. For example, the photon effect of butterfly wing scale powder can be applied to the stealth of micro-weapons and equipment, and the hydrophobic multi-level micro-nano structure of lotus leaves can be used for the drag reduction and self-cleaning of micro-underwater combat systems. Micro-unmanned technology is a miniaturized unmanned combat technology, representing the crystallization of the development frontier and integration of informatization, intelligence, and miniaturization.

The revolution in military effectiveness has raised new questions for micro-operations. Military effectiveness is the best release of efficiency and effectiveness in the new military reform, and micro-operations are the “catalyst” for releasing energy. On the one hand, the economic added value of micro-operations-related technologies is high and can produce a high cost-effectiveness ratio. Due to the use of micro-nano technology, the size of equipment and parts is greatly reduced, and the cost of equipment and parts can be greatly reduced. For example, the chip-level atomic clock will be 100 times smaller than the traditional atomic clock, and the production cost will be greatly reduced; the missile accelerometer and gyroscope manufactured using micro-nano technology are greatly reduced in size, but the price is only 1/50 of the original. On the other hand, micro-operations can achieve combat effects that traditional operations cannot achieve, presenting unique combat results. For example, the VAPR project carried out by the US DARPA aims to develop a revolutionary advanced transient electronic product. In addition to having the basic functions, reliability and durability of traditional electronic products, it starts and stops working through a trigger program. In order to prevent electronic equipment from being left in the battlefield environment for use by the enemy and to prevent the leakage of key technologies, after completing the military mission, this transient electronic product will partially or completely decompose into the surrounding environment.

Micro-operations will have a profound impact on future operations

In the intelligent era of war, the scale of operations has changed from its inherent trend of continuous expansion. Micro-operations, which are based on the use of micro-nano technology and miniaturized equipment, have had a disruptive impact on traditional warfare.

Subverting combat equipment. Micro-combat equipment is highly integrated and miniaturized, with advanced information technology replacing mechanical technology. It is mainly characterized by extremely small size and weight, extremely low energy consumption, extremely fast attack and defense speed, and extremely high combat performance. The millimeter wave radar scanner developed by the Fraunhofer Institute in Germany has an effective range of hundreds of meters, and the printed circuit board is tiny. The entire radar is similar in size to a cigarette box. This has revolutionized the appearance of military radar and will subsequently subvert the traditional combat operation mode of millimeter wave radar. MIT recently launched a new computer chip called “Navion” that can be used for micro-drone navigation. The chip is only 20 square millimeters and consumes only 24 milliwatts of power, which is about one thousandth of the energy consumption of a light bulb. It can be integrated into a nano-drone the size of a fingernail to help with navigation, and use a tiny amount of energy to process camera images in real time at a speed of 171 frames per second and perform inertial measurements. Micro-combat equipment developed through miniaturization, weight reduction, and integration is more concealed and more sudden in attack and defense than ever before, which has brought about subversive changes in its use mode and rules.

Subverting the way of fighting. Micro-warfare uses a large number of intelligent, unmanned, and miniaturized combat equipment, and combat personnel are transferred from the front to the rear; some equipment can even achieve fully autonomous intelligent combat, and “people are not in the loop” will become a new way of fighting. Researchers at the City University of Hong Kong have designed a micro-robot that is expected to transport cells in the human body. Its diameter is 500 to 700 microns, and it has successfully achieved the purpose of controlling the movement of micro-robots through magnetic fields inside complex organisms. If this robot is used as a weapon to attack the enemy’s living forces, it can attack various organs in the enemy’s body, such as the brain, eyes, etc., and can quickly make the enemy lose its combat ability, and its combat is extremely covert and sudden. In addition, Harvard University in the United States has developed a robot named Kilobot with a diameter of about 2.5 cm. It relies on its own vibration to achieve self-movement and can form a “team” with other robots of the same type to collaborate to complete tasks, providing more options for typical “swarm” operations in micro-operations.

Subvert the organizational form of the army. Micro-operation has changed the relationship between weapons and equipment and soldiers, and thus subverted the organizational form of the army. First, the number of front-line combat personnel has been greatly reduced. Traditional combat is mainly in the form of direct combination of people and weapons and equipment, and killing on the front line. However, due to the extremely small size of weapons and equipment in micro-operation, the combat is relatively concealed. Weapon equipment operators can operate and assist in decision-making far away from the battlefield. This form of warfare makes the army form more loosely developed, and the boundaries between the front and rear will be more blurred. According to traditional standards, it is more difficult to define and distinguish combat personnel and support personnel. Secondly, military personnel are showing a trend of becoming more professional, highly educated, and highly intelligent, and the organizational form of the military needs to be adjusted accordingly. Micro-operations involve many high-tech fields, including materials science, engineering mechanics, chemistry, aerodynamics, electronics, cybersecurity and information technology, optoelectronics, micro-nano, artificial intelligence, cloud computing, the Internet of Things, big data, mobile Internet, and quantum, which are all supporting disciplines for micro-operations. The scientific and technological quality requirements for military personnel are not only “broad” but also “deep”. Therefore, the gathering of a large number of high-level talents in the military will become a “new situation”, which will inevitably have a new and significant impact on the organizational form of the military.

Attach great importance to future micro-operations

As the military develops rapidly today, we should fully realize the importance of micro-operations, conduct timely research, drive layout planning with major technological innovation and independent innovation, and take the lead in the field of micro-operations.

Strengthen the basic theoretical tracking of micro-operations and research on applied innovation. Strengthen the basic theoretical research of micro-operations. At present, the micro-operation concepts of developed countries in Europe and the United States are advanced and frequently verified. We should attach importance to the basic theoretical tracking of micro-operations and strive to study and reveal its essence and fill in the gaps. At the same time, we still have a certain emphasis on research and development, but are still insufficient in applied innovative research and transformation of results. We should follow the essential laws of micro-operations, give full play to the role of innovation in driving development, give priority to supporting basic theories, combat experiments, personnel organization, and rear-end support to improve the level of innovation, and use major technological innovations such as artificial intelligence and quantum to consolidate the “foundation” of micro-operations; use independent innovation efforts to narrow the gap in key areas, make up for the “heart, core, and innovation” of micro-operations, and focus on key areas where opponents are holding back and we cannot support them, to ensure leading development.

Vigorously promote the development of micro-operation-related technologies and equipment by taking military-civilian integration as the starting point. Accurately grasp the development direction of micro-operation, take military-civilian integration as the starting point, strengthen the development of related equipment, and form a micro-operation military-civilian integration development organization management system that integrates management, production, learning, and research. Promote the military-civilian sharing of micro-operation technical resources, speed up the formulation of military-civilian compatible micro-operation weapon equipment standards and military-civilian common technical systems, and formulate policies and measures to promote them, so as to reduce the barriers between the military and civilians and ensure the coordinated interaction between military and civilian use. We should speed up the removal of barriers to military-civilian integration in micro-operations-related fields, explore new paths and new models, conduct pilot projects in industries with strong military and civilian versatility and mature technological applications, such as microelectronics and artificial intelligence, and form replicable and popularizable experiences and practices as soon as possible.

Strive to achieve advanced planning and layout of micro-operations. To meet the requirements of future micro-operations, new combat forces can be given micro-operation exercises and experimental tasks, collect relevant data, and provide detailed data to better provide relevant theoretical and practical support for micro-operation planning and layout and pre-practice. Micro-operation-related majors can be created in colleges and universities, and exploration and practice can be strengthened in micro-operation theory research and teaching to provide intellectual support and talent training conditions for micro-operations. We should thoroughly demonstrate the needs of future battlefield construction, continuously improve the construction of battlefield network information system infrastructure, increase mobile communication coverage and bandwidth construction mainly based on satellite communications, and meet the needs of massive information transmission in future micro-operations. We must accelerate the construction of a micro-operation-related standard system and formulate and improve relevant application standards. (Pei Fei, Zhang Dapeng, Li Jinggang)

現代國語:

資料來源:解放軍報 作者:裴飛 張大鵬 李景鋼 責任編輯:喬楠楠 2018-08-30 08:00
編者按

戰爭是暴力的對抗。隨著科技發展和戰爭形態演化,戰爭暴力在「大」的方面漸趨走到極點,核武已經能夠多次摧毀地球,這反過來也限制了核武的實戰應用;戰爭暴力在「小」的方面卻在加速演變,微型作戰裝備和微型作戰力量的出現和使用已日益改變著我們對未來作戰的認知。或許一隻蚊子未來就可能是精確打擊兵器。

微作戰,是指使用微小型化武器裝備進行作戰的簡稱,是基於科技高速發展的新產物,是一個國家和軍隊科技發展水準的重要體現。隨著電子資訊技術、納米技術、人工智慧技術等高技術的飛速發展,更加小型化、微型化、智慧化的武器裝備不斷湧現,作戰規模一改千百年來不斷擴大的趨勢,微作戰成為可能,並且成為未來作戰的重要發展趨勢。我們要充分認識微作戰的重要性,引領微作戰的發展潮流,掌握微作戰的主動權。

微作戰成為作戰發展新方向

在作戰方式發展的新浪潮中,微作戰以其特立獨行、效費比高的獨特形象示人,成為作戰發展新方向,並對作戰發展產生巨大影響。

未來智慧化戰爭需求牽引微作戰發展。軍事智能化發展顛覆了傳統認知,其戰場感知智能化、自主決策智能化、攻擊智能化無疑成為了勝戰的關鍵,而微作戰恰恰契合了軍事智能化發展的脈絡,成為智能化戰爭需求牽引下高速發展的新方向。智慧化戰爭需要智慧化的感知手段,微作戰條件下的智慧化微感知系統能夠提供傳統感知裝備很難獲得的戰場情報和資訊。據悉,加拿大多倫多大學和美國加州某公司通過模仿蜂鳥研製出的現代新型仿生撲翼機首次實現了空中盤旋,戰時可偽裝成蜂鳥極不容易被發現,具備進入敵方場所秘密獲取情報信息的能力。智能化戰爭還離不開智能化的攻擊手段,微作戰為此提供了豐富的選擇,美國洛-馬公司推出的「向量鷹」多任務微型無人機,起飛總重量只有1.8公斤,長度約10釐米,可依不同任務需求搭載不同荷載,完成破壞、幹擾、爆破等不同作戰任務。

微系統、微仿生、微無人等技術支持微作戰發展。作戰形態的發展離不開技術的支撐,微作戰離不開微系統、微仿生、微無人等技術發展的支撐與推動。微系統是在微光電、微機械、演算法與架構等基礎上,把傳感、驅動、執行和訊號處理等裝置採用異構、異質方法整合而實現功能的裝置。美國DARPA專門成立了微系統技術辦公室,加緊研發以微電子、光電子、微機電和微能源技術為主的電子元件,以光電、磁性為主的整合技術;以可編程架構、頻譜利用演算法、電子戰為主的演算法與架構技術;以及散熱、安全、自分解、自我修復等技術。軍事仿生技術也正由宏觀向微觀發展,通過微仿生可研製微作戰急需的新材料、新裝備和新戰法等,譬如將蝴蝶翅膀鱗粉光子效應應用於微小武器裝備的隱身,將荷葉疏水的多級微納結構用於微小水下作戰系統的減阻自潔等。微無人技術是微小型化的無人作戰技術,代表資訊化、智慧化、微小型化發展前沿和融合的結晶。

軍事效能革命為微作戰提出新命題。軍事效能是新軍事變革中效率、效力的最佳釋放,而微作戰則是釋能的「催化劑」。一方面,微作戰相關技術經濟附加價值高,能產生較高的效費比。由於使用微納技術,大幅縮小了裝備和零件的尺寸,還能大幅降低裝備和零件的成本,比如,晶片級原子鐘將比傳統原子鐘體積縮小100倍,生產成本反而大大下降;利用微納技術製造的導彈加速度計和陀螺儀,體積大大縮小,價格卻僅為原來的1/50。另一方面,微作戰能夠實現傳統作戰無法實現的作戰效果,呈現出獨特的作戰結果。例如,美國DARPA開展的VAPR項目,旨在開發一種革命性的先進瞬態電子產品,除具備傳統電子產品的基本功能和可靠性、耐用性外,其通過觸發程序啟停工作,為避免電子設備遺留在戰場環境中為敵方利用,杜絕關鍵技術洩露,在完成軍事任務後,這種瞬態電子產品會部分或完全分解到周圍環境中。

微戰將深刻影響未來作戰

智慧時代的智慧化戰爭,作戰規模一改不斷擴大的固有趨勢,以微納技術和微小型化裝備運用為基本特徵的微作戰,對傳統作戰產生了顛覆性影響。

顛覆作戰裝備。微作戰裝備高度整合、微小型化,以先進的資訊技術取代了機械技術,主要表現在體積重量極小、能源消耗極少、攻防速度極快、作戰性能極高。德國弗勞恩霍夫研究所研發的毫米波雷達掃描儀,作用距離達數百米,而印製電路板尺寸微小,整部雷達大小與煙盒類似,這使軍用雷達面貌發生革命性改變,隨之將顛覆傳統毫米波雷達的作戰運用方式。麻省理工學院近日推出名為「Navion」的新型電腦晶片,可用於微型無人機導航,該晶片只有20平方毫米,功耗僅為24毫瓦,大約是燈泡耗能的千分之一,可以整合到指甲大小的納米無人機中幫助導航,用微量能耗以171幀/秒的速度實時處理相機圖片以及進行慣性測量。透過縮小、減重、整合等研發出的微作戰裝備比以往更具自身隱蔽性和攻防突然性,使其運用模式和規則等產生了顛覆性變化。

顛覆作戰方式。微作戰由於採用大量智慧化、無人化、微小化作戰裝備,作戰人員從前方轉移至後方;有的裝備甚至能夠實現完全自主智慧化作戰,「人不在迴路中」將成為新的作戰方式。香港城市大學研究人員設計出一種微型機器人,預計在人體內運輸細胞,其直徑為500到700微米,成功實現了在復雜生物體內部通過磁場控制微型機器人運動的目的,這種機器人如用作武器對敵方有生力量實施攻擊,可攻擊敵人身體內各器官,譬如大腦、眼睛等,可快速使敵人失去戰鬥能力,而其作戰極具隱蔽性、突然性。此外,美國哈佛大學開發出直徑約為2.5毫米,名為Kilobot的機器人,依靠自身的振動實現自身移動,能夠與其他同種類型的機器人組成一個“團隊”,共同協作完成任務,為微作戰中典型的「蜂群」作戰提供更多選擇。

顛覆軍隊組織形態。微作戰改變了武器裝備與軍人之間的關系,進而顛覆軍隊的組織形態。首先,一線作戰人員大幅減少。傳統作戰是以人和武器裝備直接結合,在前線進行廝殺為主要形式,而微作戰由於武器裝備尺寸極小,作戰相對隱蔽,武器裝備操作人員可在遠離戰場的後方對其進行操作和輔助決策,這樣的戰爭形態使得軍隊形態呈現更加鬆散的發展態勢,前後方界限將更加模糊,按照傳統標準,作戰人員和保障人員更加難以界定和區分。其次,軍隊人員呈現更專業、高學歷、高智力發展趨勢,軍隊組織形態需要因勢調整。微作戰涉及眾多高科技領域,材料學、工程力學、化學、空氣動力學、電子學、網信科技等學科領域及光電子、微納、人工智慧、雲計算、物聯網、大數據、行動互聯網、量子等都是微作戰支撐學科,對軍事人員科技素質要求不僅是“廣”,還要求“深”,為此,大量高水平人才聚集到軍隊將成為“新情況”,必然對軍隊組織形態產生新的重大影響。

高度重視打好未來微作戰

在軍事發展日新月異的今天,我們應充分認識到微作戰的重要性,緊前研究,以重大技術創新和自主創新帶動佈局規劃,在微作戰領域實現領跑。

加強微作戰基礎理論追蹤與應用創新研究。加強微作戰基礎理論研究。當前,歐美發達國家微作戰理念超前,驗證頻繁,我們應重視微作戰基礎理論追蹤並努力研究揭示其本質,填補空白。同時,我們還存在著一定重視研發而在應用創新研究與成果轉化上尚顯不足的情況,應遵循微作戰的本質規律,充分發揮創新驅動發展作用,優先扶持基礎理論、作戰實驗、編制人員、後裝保障等領域提高創新水平,以人工智慧、量子等重大技術創新夯實微作戰的“底子”;以自主創新努力縮小關鍵領域差距,補好微作戰“心、芯、新”的“裡子”,把對手卡脖子、自己不託底的關鍵領域作為主攻方向,確保引領發展。

以軍民融合為抓手大力提升微作戰相關技術與裝備發展。準確掌握微作戰發展方向,以軍民融合為抓手,加強相關裝備發展,形成管、產、學、研相融合的微作戰軍民融合發展組織管理體系。推進微作戰技術資源軍地共享,加緊制定軍民相容的微作戰武器裝備標準和軍地通用的技術體系,制定政策措施推進,以減少軍民之間的隔閡,保證軍用和民用之間的協調互動。加速破除微作戰相關領域軍民融合壁壘,探索新路徑新模式,在微電子、人工智慧等軍地通用性強、技術運用成熟的行業先行試點,盡快形成可複製可推廣的經驗做法。

努力實現微作戰超前規劃和佈局。適應未來微作戰的要求,可賦予新質作戰力量微作戰演訓和實驗任務,採集相關數據,提供翔實數據,更好地為微作戰規劃佈局和預先實踐提供相關理論和實踐支撐。可在院校創設微作戰相關專業,在微作戰理論研究、教學等方面加強探索與實踐,為微作戰提供智力支撐與人才培養條件。應深入做好未來戰場建設需求論證,不斷提升戰場網絡資訊體系基礎設施建設,加大以衛星通訊為主的行動通訊覆蓋及頻寬建設,滿足未來微作戰海量資訊傳輸的需求。要加快構建微作戰相關標準體系,制定完善相關應用標準。 (裴飛、張大鵬、李景鋼)

中國原創軍事資源:http://www.mod.gov.cn/gfbw/jmsd/4823585888.html

Chinese Intelligent Warfare Cannot be Successful Without Human Element

中國智慧戰爭離不開人的因素

2019年10月17日 17:00 來源:解放軍報 作者:徐莉

現代英語:

An important task in studying intelligent warfare is to accurately position humans in intelligent warfare.

  No matter how high the “kite” of intelligent weapons and equipment flies, it can only be controlled by humans and autonomously by machines. Humans must have a strong enough kite string and hold it tightly at all times.

  ”Synchronous development of man and machine” should be regarded as a basic principle for the development of military intelligence. Intelligence should integrate both “things” and “people”.

  At present, the research on intelligent warfare is in the ascendant. Some people believe that intelligent warfare will be unmanned as the core form of expression, and unmanned equipment such as drones, unmanned submarines, and robot soldiers will become the protagonists of war. The form of war will also develop from the co-starring of “human-machine collaborative warfare” to the one-man show of “machine vs. machine war”. People seem to have become bystanders in intelligent warfare, with the meaning and trend of “intelligent warfare makes people go away”. What is the status and role of people, who have always been the main body of war, in intelligent warfare? This is the first problem that should be solved in the study of intelligent warfare.

  The Marxist view of war holds that weapons are an important factor in war, but not the decisive factor. The decisive factor is people, not weapons. Although people no longer directly control weapons in advanced intelligent warfare, the following factors still determine that people are the main body of war and the key to winning.

  First, war is the continuation of politics. The launching of war and the control of the war process must be decided by people according to political needs. The game outside the battlefield has a decisive influence on the progress of the war. For example, the results of diplomatic negotiations, the focus of international public opinion, and the support of the domestic people all depend on the decisions of politicians and military strategists, which cannot be replaced by any intelligent machines.

  Secondly, war planning and command can only be implemented by commanders at all levels. Military command is both a science and an art, but it is more of an art. Any successful battle or campaign in the world is the result of commanders breaking routines and stereotypes and using troops creatively. The history of our army’s growth and development has repeatedly proved that correct military strategic guidance and flexible strategies and tactics are the magic weapon for our army to defeat the strong with the weak and defeat the many with the few, which enables our army to move from victory to victory. It is also something that intelligent machines cannot imitate or create. For example, in the battle, the comparative analysis of enemy and our combat forces, the real-time control of the combat situation, the real-time evaluation of the overall damage effect, the combat psychological analysis of enemy commanders, and the prediction of the next combat action, etc., intelligent machines can only provide auxiliary decision-making information and suggestions. Commanders at all levels must make decisions, make combat decisions, and issue combat orders.

  Third, the level of intelligence of weapons and equipment ultimately depends on humans. Artificial intelligence originates from human intelligence. One of the major factors restricting the development of intelligence is that the scientific understanding of human intelligence is still superficial, and the understanding of the cognition, memory, thinking, decision-making and action mechanism of the human brain is still insufficient. The “Wuzhen Index: Global Artificial Intelligence Development Report 2016” pointed out that over the years, the proportion of biological research in the four sub-fields of artificial intelligence, machine learning, natural language processing, computer vision, and robotics, has been the lowest. Due to the lack of attention to the basic and decisive influence of brain science on artificial intelligence, the current artificial intelligence can only stay at the stage of superficial understanding and primary imitation of brain functions. Once there is a major breakthrough in the understanding of human intelligence, artificial intelligence will also be reborn and enter a leapfrog development stage.

  Fourth, only humans can control intelligent weapons and equipment and combat platforms. Although the final intelligent weapons can be operated without human on-site control, when to put intelligent weapons and equipment into battle, when to change the direction of attack, how to control the rhythm of the war, when to withdraw from the battle, etc., can only be decided by humans in the end. This is the basic principle that must be grasped when designing intelligent weapons and equipment, that is, one of Asimov’s three laws of robotics: robots must obey human orders. Once intelligent weapons and equipment are out of human control, it will be a disaster for the entire human race, not just the enemy. This also determines that no matter how high the “kite” of intelligent weapons and equipment flies, it can only be controlled by humans and autonomous control functions of machines. The autonomous function of machines can only be effective within the scope limited by humans. Humans must have a strong enough kite line and hold it tightly at all times.

  Fifth, only humans can crack and control the enemy’s intelligent weapons and equipment. The development of military history has proved that any weapon and equipment has its “Achilles’ heel” and will eventually be defeated. There has never been and will never be perfect and impeccable weapons and equipment in history, and intelligent weapons and equipment are no exception. The magic weapon to defeat the enemy is humans with infinite wisdom. For example, drones seem advanced, but they can be interfered, trapped or controlled by radio waves of a specific frequency. The same is true for other intelligent weapons and equipment, and finding and studying methods, technologies, and equipment to crack, control, and destroy intelligent weapons and equipment is where human wisdom comes into play.

  Therefore, “synchronous development of man and machine” should be taken as a basic principle for the development of military intelligence. Intelligence should be applied to both “objects” and “people”. As soldiers in the era of intelligent warfare, they must master the working principles and weak links of intelligent weapons and equipment, be familiar with and master the “thinking mode” and “conventional actions” of intelligent weapons and equipment, as well as the abnormal “abnormal thinking” and abnormal “extraordinary actions” that may appear, and understand their technical and tactical indicators and performance. Especially in the stage of man-machine collaborative operations, soldiers are required not only to be able to coordinate actions with machines, but also to communicate with machines without obstacles in cognitive ability and intelligence. This not only relies on intelligent knowledge reserves, but also relies on the “brain reading” and “brain strengthening” of intelligent equipment. Scientific research shows that the normal human brain usage rate is only 3%-5%, which shows that there is still a huge room for improvement and release of human intelligence. When studying intelligent warfare, we should also study how to improve human intelligence.

  In the face of intelligent warfare, we should prepare for the future, establish intelligent troops suitable for intelligent warfare as soon as possible, study the way to defeat the enemy in intelligent warfare, and establish and improve the theory of intelligent warfare; repair, maintain and improve intelligent weapons and equipment; study the methods, techniques and equipment to decipher the control keys of enemy weapons and equipment; study effective means to attack the enemy’s intelligent weapons and equipment, rewrite their combat rules and targets, and make them turn against us in the face of battle, or use high-energy lasers and high-power microwaves to directly destroy the enemy’s communication networks and weapons and equipment, demonstrating the way to win in intelligent warfare.

  In short, in intelligent warfare, people are still the main body of war and the decisive factor in the outcome of war. An important task in studying intelligent warfare is to find the correct position of people in intelligent warfare. Otherwise, it is easy to fall into the idealistic quagmire of “seeing things but not people”, “only weapons” and “only technology”.

現代國語:

研究智能化戰爭的一項重要任務,就是找準智能化戰爭中人的定位。

不論智慧化武器裝備這個「風箏」飛多高,永遠只能是人類控制與機器自主控制功能並存,人類必須擁有足夠結實的風箏線並時刻牢牢抓住它。

應把「人機同步發展」當作軍事智慧化發展的一個基本原則,智慧化既要化「物」也要化「人」。

當前,對智慧化戰爭的研究方興未艾。一些觀點認為,智慧化戰爭將以無人化為核心表現形式,無人機、無人潛航器、機器人士兵等無人裝備將成為戰爭主角,戰爭形態也將從「人機協同作戰」的聯袂主演,最後發展到「機器對機器大戰」的獨角戲。人似乎成了智慧化戰爭的旁觀者,大有「智慧化戰爭讓人走開」的意味和態勢。曾經一直是戰爭主體的人,在智能化戰爭中的地位和角色究竟是什麼,這是研究智能化戰爭應當首先解決的問題。

馬克思主義戰爭觀認為,武器是戰爭的重要因素,但不是決定的因素,決定的因素是人而不是武器。雖然在高階階段的智慧化戰爭中,人不再直接操控武器,但以下因素仍決定了人是戰爭的主體和關鍵的致勝力量。

首先,戰爭是政治的延續,戰爭的發動、戰爭進程的掌控,必須由人視政治需求作出決定。戰場以外的博弈對戰爭進程有著決定性的影響,如外交談判的結果、國際輿論的焦點、國內民眾支持度等,均取決於政治家、軍事家的決策,是任何智能化的機器都無法替代的。

其次,戰爭規劃和指揮只能由各級指揮官來實施。軍事指揮既是科學,也是藝術,但更體現為藝術。世界上任何一場取得勝利的戰鬥、戰役,都是指揮者打破常規和定式,創造性用兵的結果。我軍成長壯大的歷史也一再證明,正確的軍事戰略指導、機動靈活的戰略戰術,是以弱克強、以少勝多,使我軍不斷從勝利走向勝利的製勝法寶,也是智能化機器所無法模仿和創造的。例如,戰中對敵我作戰力量的比較分析、作戰態勢的即時掌控、整體毀傷效果的即時評估、敵軍指揮作戰心理分析,以及對下一步作戰行動的預判等等,智慧化機器只能提供輔助決策資訊和建議案,必須由各級指揮官親自決策、下定作戰決心,並下達作戰命令。

第三,武器裝備智慧化程度高低最終取決於人類。人工智慧源自人類智能,目前製約智能化發展的一大因素,就是對人類智能的科學認識尚膚淺,對人類大腦的認知、記憶、思維、決策和行動機理等的認識還很不夠。 《烏鎮指數:全球人工智慧發展報告2016》指出,歷年來人工智慧的機器學習、自然語言處理、電腦視覺、機器人四類細分領域涉及生物學研究的比例均最低。由於不重視腦科學對人工智慧基礎和決定性的影響,直接導致當前人工智慧只能停留在對大腦功能膚淺認識和初級模仿階段,一旦對人類智慧的認識有了重大突破,人工智慧也必將脫胎換骨,進入跨越式發展階段。

第四,控制智慧化武器裝備和作戰平台的只能是人。雖然最終的智慧化武器可以沒有人類現場操控,但智慧化武器裝備何時投入戰鬥、何時轉換進攻方向、如何把控戰爭節奏、何時撤出戰鬥等等,最終只能由人來決定,這是智慧化武器裝備設計時必須掌握的基本原則,即阿西莫夫機器人三定律之一:機器人必須服從人類的命令。一旦智能化的武器裝備脫離了人的控制,那將是整個人類而不僅僅是敵人的災難,這也決定了不論智能化武器裝備這個“風箏”飛多高,永遠只能是人類控制與機器自主控制功能並存,機器自主功能只能在人類限定的範圍內有效,人類必須擁有足夠堅固的風箏線並時刻牢牢抓住它。

第五,破解、控制敵人智慧化武器裝備的只能是人。軍事歷史發展證明,任何武器裝備都有其“阿喀琉斯之踵”,最終都會被擊敗。歷史上從來沒有、未來也不會出現完美無缺、無懈可擊的武器裝備,智慧化武器裝備也不例外,而克敵制勝的法寶就是擁有無窮智慧的人類。例如,無人機看似先進,但完全可以被特定頻率的電波幹擾、誘捕或控制。其他智慧化武器裝備也是如此,而尋找並研究破解、控制、擊毀智慧化武器裝備的方法、技術、裝備,則是人類聰明才智的用武之地。

因此,應把「人機同步發展」作為軍事智能化發展的一個基本原則,智能化既要化「物」也要化「人」。作為智能化戰爭時代的軍人,必須掌握智能化武器裝備的工作原理和薄弱環節,熟悉並掌握智能化武器裝備的“思維方式”和“常規動作”,以及可能出現的非常態的“異常思維”和變態的“超常動作”,了解其技戰術指標及性能,特別是人機協同作戰階段,不僅要求軍人能夠與機器協調行動,而且在認知能力和智力上能夠和機器無障礙交流,這不僅要依靠智能化的知識儲備,也要依賴智慧化裝備的「讀腦」「強腦術」。科學研究表明,正常人大腦使用率只有3%——5%,這說明,人類智慧仍有巨大的提升和釋放空間。研究智能化戰爭,也應同步研究如何提升人類智慧。

面對智慧化戰爭,我們應當未雨綢繆,儘早建立與智能化戰爭相適應的智能化部隊,研究智能化戰爭的克敵制勝之道,建立完善智能化戰爭理論;維修、保養、改進智能化武器裝備;研究破解敵方武器裝備操控密鑰的方法、技術、裝備;研究攻擊敵軍智能化武器裝備的有效手段,改寫其作戰規則和作戰對象,使其臨陣倒戈,或是利用高能量激光、高功率微波直接擊毀敵通信網絡和武器裝備,彰顯智慧化戰爭的致勝之道。

總之,智慧化戰爭中人仍是戰爭的主體,是戰爭勝負的決定性因素。研究智能化戰爭的一項重要任務就是找準智能化戰爭中人的定位。否則,就容易陷入「見物不見人」「唯武器論」「唯技術論」的唯心主義泥沼。

中國原創軍事資源:http://www.qstheory.cn/defense/2019-10/17/c_112511776588.htm

Enhancing and Influencing the Chinese Military Innovation Culture


弘揚及影響中國軍事創新文化 //2016年01月12日08:XX   来源:解放军报

現代英語:

At the Central Military Commission’s reform work conference, President Xi Jinping emphasized, “We must focus on seizing the strategic commanding heights of future military competition, give full play to the role of innovation-driven development, and cultivate new growth points for combat effectiveness.” This important statement profoundly reveals the important position of military innovation in the strategy of reforming and strengthening the military.

  History has repeatedly shown that in the process of military competition, whoever occupies the commanding heights of military culture may lead the trend of military innovation, stay ahead of the war and win strategic advantages in advance.

  The deepening of national defense and military reforms currently underway is closely linked to the new world military revolution. “In this tide of the new world military revolution, whoever is conservative and complacent will miss precious opportunities and fall into strategic passivity.” President Xi’s words are deafening and thought-provoking. In the process of reforming and strengthening the military, every soldier is not a bystander, but a factor of innovation. In the face of reform, can we accurately grasp the latest trends in the development of world military theory and military technology? Can we adapt to the latest changes in the form of war? Can we find the right path and method for innovation? These should be questions that we should think about.

  Culture senses the changes in the world, stands at the forefront of reform, and is the forerunner of the times. We build a strong military culture by leveraging the unique advantages of culture, breaking the conservative and rigid thinking pattern in the context of thousands of ships competing and hundreds of boats vying for the current, stimulating the vitality of military innovation, and allowing the latest achievements of military cultural innovation to continue to extend to reform.

  Rocks are flying through the sky, waves are crashing against the shore, in the rolling tide of the new world military revolution, who has awakened and who is still sleeping?

  –editor

  The curtain has been raised on deepening the reform of national defense and the military. This reform is carried out against the backdrop of the surging tide of the world’s military revolution and is another milestone in the history of our military development. From “changing chess pieces” to “changing the chessboard”, institutional reform inevitably requires changes in the “rules of the game” and the military system; it requires accelerating the pace of building an informationized army based on a new organizational structure.

  The new military revolution is a process of continuous innovation, and the informationized army is essentially an innovative army. We need to continuously cultivate a military innovation culture, enhance the vitality of reform, and promote the realization of the strategy of reform and strengthening the army.

  (one)

  The new trend of the development of world military culture requires us to strengthen cultural cultivation in the process of change and change the thinking logic of military innovation.

  In a sense, the so-called strategic vision is the vision of understanding the future. Associated with the change in the field of observation, the “paradigm” of innovative thinking has changed accordingly: in the past, it was: practice-technology-theory. Now it is: theory-technology-practice. Associated with the change in the “paradigm” of thinking, since the 1980s, military innovation has gradually changed from the previous combat demand-driven model to the “theory-driven” model. Theoretical works such as “The Third Wave” and “Future Wars” by the famous American futurist Alvin Toffler have played a great role in the development of information society, information warfare and related technologies. As a result, the logic of military innovation has also changed accordingly. The previous order of innovation development was: scientific and technological progress-weapons and equipment-military theory-combat formation. The current development order is: military theory-scientific and technological progress-weapons and equipment-combat formation. The military culture of the information age has made combat commanders and military theory experts the leaders of military technology innovation.

  Military theory experts and military technology experts have found that in developed Western countries, the evolution of modern military culture has gone through three stages:

  Throughout the 19th century and before, most soldiers had not yet realized the huge role of scientific and technological progress in promoting the development of military power. Even a highly innovative military commander like Napoleon easily rejected the suggestion of American scientist Fulton to develop sailless warships. From the beginning of the 19th century to the First World War, although the Industrial Revolution had already affected other areas of society, most soldiers did not think about the role of new technologies in war. They only emphasized the use of existing equipment in their hands and would not think about improving and innovating equipment. This period is called the stage of soldiers “waiting for technology.”

  At the beginning of the 20th century, the highly developed mechanical industry gradually changed the soldiers’ simple martial concept. On August 8, 1918, in the Battle of Emins, the assault power of the Allied “star” tanks and the bombing power of 300 British aircraft awakened the soldiers from their trenches. In the following 20 years, history has created a large number of new military strategists in the era of mechanized warfare, such as Fuller, Douhet, Guderian, Rommel, Montgomery, de Gaulle, Eisenhower, Zhukov, and Vasilevsky. They are not only proficient in military affairs, but also know the performance characteristics of tanks, aircraft, and other new technological weapons at the time. They regard science and technology as their second major and engineers as their close friends, thus making one innovation after another in the development of tactics. Guderian invented the armored blitzkrieg, Roosevelt accepted Einstein’s suggestion to make the atomic bomb, and Stalin treated a large number of aircraft designers as guests of honor. Because of this, during and after World War II, the military technology and military academic level of these countries have achieved unprecedented and substantial development. This period can be called the stage of “marriage between soldiers and technology”.

  Since the 1960s and 1970s, due to the rapid development of new technologies such as microelectronics, artificial intelligence, genetic engineering, space, ocean development, new materials, and new energy, the wave of new technological revolution has enabled many far-sighted military strategists to further break the original thinking mode and propose that soldiers should stand at the forefront of scientific and technological development to envision future combat styles, and based on these ideas, in turn propose the goals and directions of military technology innovation. Military defense experts look forward to the development trends in the next 20 to 30 years, design new combat concepts, and innovate combat theories to propose the necessary technical support, and then scientific researchers will meet the new military needs from a technical perspective. Under the organization and guidance of soldiers, military technology has reduced the blindness of development, thereby obtaining faster and more military economic benefits. This period can be said to be the stage of soldiers “leading technology”.

  The change from soldiers “waiting for technology” and “marrying technology” to “leading technology” reflects the objective trend of the increasingly close relationship between the development of military science and science and technology. This trend forces soldiers to change from being bystanders of technological development to being leaders of technological development.

  In my country, due to the loss of the opportunity of the first industrial revolution, military culture is still in the stage of “waiting for technology” and “marrying technology”. The military concept that emphasizes history and neglects the future is used to designing our army’s tomorrow according to the opponent’s today; it is used to thinking about our army of tomorrow and fighting against today’s opponent.

  On the journey of reform, many comrades’ ideas are still stuck in the Gulf War, Kosovo War, Afghanistan War, and Iraq War, which have been 15 or 20 years. The US military proposed the third “offset strategy” to select disruptive new technologies and create new “asymmetric military advantages.” The new military revolution will thus see a turning point: a new form of warfare – light warfare based on autonomous systems is slowly coming. In order to fulfill the historical mission of military reform and meet new challenges, we must strengthen cultural cultivation and transform the thinking logic of military innovation.

  (two)

  The cultural core of an army is deeply hidden in its military philosophy. In the process of implementing the strategy of reforming and strengthening the army, we should use modern scientific methods to carry out military innovation.

  In human history, every great era not only gives people great tasks, but also provides people with new methods. Only those who have clearly defined the great tasks and mastered the new methods can lead the trend of the times.

  The history of scientific development shows that many major scientific and technological innovations, as well as the raising and solving of major scientific problems, are often the result of certain breakthroughs in scientific methods. Galileo’s discovery of the laws of falling motion and the law of inertia is inseparable from his systematic use of experimental and mathematical methods; Darwin’s creation of the theory of biological evolution benefited from the scientific observation method and the historical comparison method; the theoretical experimental method played an important role in the emergence of Einstein’s theory of relativity; Marx’s “Capital” was able to deeply analyze the complex capitalist society and achieve great success. One of the important reasons is that he cleverly applied the method of unity of logic and history, as well as the method of scientific abstraction, taking the “simplest, most common, and most basic things” – commodities, as the logical and historical starting point of scientific research, rising from the concreteness of perception to the abstract provisions, and then from the abstract provisions to the concreteness of thinking.

  Similarly, innovation in military theory also first relies on the new methods of the times. The Art of War was published in China in the late Spring and Autumn Period because the ancient system theory represented by “yin and yang” and “five elements” had matured and been complete by then; Clausewitz wrote On War because Newton’s mechanics and Hegel’s dialectics provided him with weapons to study war; Mao Zedong’s military thought is the result of Comrade Mao Zedong’s use of Marxist philosophical methods to study the practice of China’s revolutionary war.

  The scientific and technological revolution has promoted the improvement of social productivity and military combat effectiveness, and also prompted the development of philosophical thought.

  The “three major discoveries” of the 19th century (evolution, cytology, and conservation and transformation of energy) led to the end of German classical philosophy and the emergence of Marxist philosophy.

  In the 20th century, the emergence of relativity, quantum mechanics and life sciences, the development of information technology, biotechnology, nanotechnology, new materials technology, and Internet technology have changed and are continuing to change the world’s landscape. In the 1960s and 1970s, along with the wave of new technological revolution, the revolution of scientific methods reached an unprecedented high, showing the trend of natural science research methods, methods, models and concepts penetrating and blending into the field of social sciences. New scientific methodologies have emerged one after another: system theory, control theory, synergy theory, mutation theory, information theory, discrete theory, functional theory, intelligence theory, optimization theory, reaction theory, fuzzy theory, art theory, as well as “chaos” and “fractals”. From a philosophical perspective, the methods proposed by these cross-disciplinary disciplines can be summarized as system methods and complex system methods.

  In 1958, after the U.S. military implemented the separation of military administration and military command, it did not quickly regain vitality. The Pentagon’s resource management was in chaos and was still in a precarious situation. In 1960, McConamara took over the Ministry of Defense. In response to the chaotic situation in which the three armed forces acted independently in the use of national defense resources, he proposed the management principle of “combining centralized guidance with decentralized implementation” in 1962, adopted the system engineering method, coordinated the planning of national defense and weapons and equipment construction, and proposed a “Planning, Programming and Budgeting System (PPBS)”, which straightened out the relationship for the construction of the U.S. military and saved resources.

  In 1986, the U.S. military implemented the Department of Defense Reform Act, which centralized the power of the Department of Defense and the Joint Chiefs of Staff and established a new set of regulations that unified centralization and authorization. This ensured the smooth implementation of joint operations and laid the foundation for future integrated joint operations.

  At the beginning of the 21st century, when Donald Rumsfeld was the Secretary of Defense, according to the development of the new military revolution, the U.S. military changed the PPBS system’s management habits based on target tasks and proposed a PPBE system based on capability requirements, namely “Planning, Programming, Budgeting and Execution System”.

  The PPBS system and the PPBE system are both typical applications of the system science method in national defense management. From a methodological perspective, the characteristics of these systems are: grasping the reality from the future, determining capabilities based on missions and tasks, and driving technology creation and selecting combat formations based on capability requirements. In short, the “upstream” determines the “downstream”, the “top” determines the “bottom”, and the “front end” determines the “back end”.

  The ideas of system theory and complexity methods have been deeply applied in the transformation of the US military. They believe that previous military theories, namely the theories of famous scholars such as Clausewitz and Jomini, are all based on Newtonian mechanics. In today’s operations, the enemy’s military organization and combat operations must be regarded as a system. In this way, only complexity theory, which Newtonian methods cannot do at all, can be used to describe, predict, and select corresponding confrontational actions. For example, the concept of “friction” often used by Clausewitz in “On War” originated from Newtonian mechanics. It can be said to be a concept of physical war, reflecting the characteristics of war in the pre-industrial era. No matter how tightly organized the army was at that time, it was inevitable to face shocks and hysteresis, frontier confrontation and confrontation. Therefore, Clausewitz used Newtonian mechanics as the main method to understand, study, and guide war. In today’s information warfare, the purpose of war has changed from “destroying the enemy and preserving oneself” to “controlling the enemy and realizing interests.” Therefore, a major change in the confrontation method is from large-scale destruction to increasing the “entropy value” within the enemy organization and increasing the “negative entropy value” within one’s own organization (“entropy” is a description of the disorder within the organization). The more information-based, integrated, and sophisticated a military is, the more vulnerable it becomes. An important principle in modern military construction is to minimize the vulnerability of its own disintegration and collapse; an important principle in war guidance is to actively create and exploit the vulnerability within the enemy.

  Today, when evaluating a military system, we cannot only look at the amount of matter, energy and information it possesses, but also its anti-destruction ability, stability, and the possible “entropy value”.

  (three)

  Informatization and networking have broken through the traditional space boundaries and time barriers. The “pre-practice” of virtual technology has created a new military culture.

  While causing a revolution in philosophical methodology, the science of complex systems has also triggered a revolution in philosophical epistemology when combined with multimedia technology, virtual reality technology, artificial intelligence technology, high-performance computing technology and simulation technology – there have been some changes in the way humans understand the world.

  First, the understanding of the unity of the world is richer. In the past, when we talked about the unity of the world, we only emphasized the “primacy of matter”. From today’s perspective, the unity of the world contains three basic elements, namely the unity of matter, energy, and information. In man-made technical systems, it is the unity of materials, energy, and information; in social and economic systems, it is the unity of material flow, energy flow, and information flow. Abstracting the unity of these three aspects to the philosophical level, it colorfully embodies the “unity of matter, movement, and information.”

  Secondly, the cognitive process has changed from the past “part-whole-part” to today’s “whole-part-whole”. In connection with this, the research method has changed from the past “analysis-synthesis-analysis” to today’s “synthesis-analysis-synthesis”.

  Informatization and networking have broken through the traditional space boundaries and time barriers. People’s focus on observing problems has shifted from “object-centered” to “system-centered”, and the key to epistemology is no longer “concrete analysis” but “system integration”.

  This new philosophical epistemology marks a major change in the structure of scientific thinking. Scientific research has shifted from the analytical advantage of the past to the overall comprehensive advantage of today; the static cognition that mainly studied “existence” in the past has shifted to the dynamic cognition that mainly studies systems today.

  The significance of practice is no longer limited to the framework of history and reality, but also includes the future. After the Gulf War, developed countries established the innovative idea of ​​”proposing theory – combat experiment – actual military exercise – actual combat test”, stepped up the establishment of “combat laboratory”, and made new breakthroughs in military theory research methods.

  Scholars such as Zhang Yi, the author of Virtual Epistemology, pointed out: “Virtual technology has profoundly changed the way humans perceive the world and created a completely new way of human practice. Virtual technology is not just a way of understanding and interpreting the world, it is itself a way of human practice.”

  The “pre-practice” of virtual technology creates a new military culture. Thus, the military construction has developed from the past “contemporaneity” to today’s “synchronicity”. “Contemporaneous” development means finishing today and then moving on to tomorrow. “Synchronic” development means that things today, tomorrow and the day after tomorrow can be done at the same time. In this process, based on the repeatability, modifiability and embeddability of virtual technology, the war scenarios that are happening and will happen in the world, as well as the pre-designed war scenarios in the mind, are created into virtual environments to test and correct the military capabilities that should be in different stages.

  Compared with natural science, military science is relatively weak in analytical reasoning and quantitative analysis. Summarizing the experience of wars that have already occurred and “learning war from war” have always been the traditional way for soldiers to create theories. With the development of information technology, modeling/simulation and computer networks have provided people with a third important method to understand the world, promoting the expansion of military practice from “experience induction” to “virtual simulation”, “learning war in the laboratory” and “learning war from future wars”, which greatly improves the soldiers’ advanced cognitive ability.

  In short, to advance the reform of our army in the face of the new wave of military revolution, we need to establish a new philosophy, innovate military theories, and let the light of military innovation illuminate the path to the future.

現代國語:

習近平主席在中央軍委改革工作會議上強調,“要著力搶佔未來軍事競爭戰略制高點,充分發揮創新驅動發展作用,培育新的戰鬥力增長點。 ”這項重要論述深刻揭示了軍事創新在改革強軍戰略中的重要地位。

歷史一再證明,在軍事競爭過程中,誰佔據了軍事文化的製高點,誰就能引領軍事創新潮流,領先於戰爭,提前贏得戰略優勢。

當前深化國防和軍事改革與新世界軍事革命密切相關。 “在這場新世界軍事革命的浪潮中,誰保守、自滿,誰就會錯失寶貴機遇,陷入戰略被動。”習主席的話震耳欲聾,引人深思。在改革強軍過程中,每位戰士都不是旁觀者,而是創新者。面對改革,我們能否準確掌握世界軍事理論和軍事技術發展的最新動態?我們能否適應戰爭形式的最新變化?我們能否找到正確的創新路徑和方法?這些都應該是我們應該思考的問題。

文化感知世界變遷,站在改革前沿,走在時代先驅。發揮文化獨特優勢,打破千軍萬馬、百舸爭流的保守僵化思維模式,激發軍事創新活力,讓最新成果不斷湧現,打造強軍文化。

亂石飛天,海浪拍岸,在新世界軍事革命的滾滾浪潮中,誰已經甦醒,誰還在沉睡?

  • 編輯

深化國防和軍事改革拉開了序幕。這次改革是在世界軍事革命浪潮洶湧澎湃的背景下進行的,是我軍發展史上的另一個里程碑。從“換棋子”到“換棋盤”,機構改革必然需要“遊戲規則”和軍事體制的改變;要求加快新組織架構的資訊化軍隊建設步伐。

新軍事革命是一個不斷創新的過程,資訊化軍隊本質上是一支創新軍隊。我們要不斷培養軍隊創新文化,增強改革活力,推動改革強軍戰略實現。

(一)

世界軍事文化發展的新趨勢要求我們在改變過程中加強文化修養,轉變軍事創新思維邏輯。

從某種意義上來說,所謂戰略願景就是認識未來的願景。伴隨著觀察領域的變化,創新思維的「典範」也隨之改變了:過去是:實務-技術-理論。現在是:理論-技術-實務。與思維「範式」的轉變相聯繫,1980年代以來,軍事創新逐漸從先前的作戰需求驅動模式轉變為「理論驅動」模式。美國著名未來學家阿爾文‧托夫勒的《第三波》、《未來戰爭》等理論著作對資訊社會、資訊戰爭及相關科技的發展發揮了巨大作用。由此,軍事創新的邏輯也發生了相對應的改變。以往的創新發展順序是:科技進步──武器裝備──軍事理論──作戰形成。目前的發展順序是:軍事理論——科技進步——武器裝備——作戰編隊。資訊時代的軍事文化使作戰指揮官和軍事理論專家成為軍事技術創新的領導者。

軍事理論專家和軍事技術專家研究發現,在西方已開發國家,現代軍事文化的演變經歷了三個階段:

在整個19世紀及以前,大多數軍人還沒有認識到科技進步對軍事力量發展的巨大推動作用。即使是像拿破崙這樣極富創新精神的軍事統帥,也輕易地拒絕了美國科學家富爾頓研發無帆戰艦的建議。從十九世紀初到第一次世界大戰,雖然工業革命革命已經影響社會的其他領域,大多數士兵沒有考慮新技術在戰爭中的作用。他們只強調使用手中現有的設備,不會考慮設備的改良和創新。這個時期被稱為士兵「等待技術」的階段。

20世紀初,高度發展的機械工業逐漸改變了士兵單純的軍事觀念。 1918年8月8日,在埃明斯戰役中,盟軍「明星」坦克的突擊威力和300架英國飛機的轟炸威力喚醒了戰壕裡的士兵。此後20年,歷史創造了一大批機械化戰爭時代的新軍事家,如富勒、杜黑、古德里安、隆美爾、蒙哥馬利、戴高樂、艾森豪威爾、朱可夫、華西列夫斯基等。他們不僅精通軍事,也了解當時坦克、飛機等新技術武器的性能特徵。他們視科學技術為第二專業,視工程師為親密朋友,在戰術發展上進行了一次又一次的創新。古德里安發明了裝甲閃電戰,羅斯福接受了愛因斯坦的建議製造原子彈,史達林則把一大批飛機設計師當作貴賓。正因為如此,二戰期間和戰後,這些國家的軍事技術和軍事學術水準都獲得了前所未有的長足發展。這段時期堪稱「軍人與科技聯姻」的階段。

自1960、70年代以來,由於微電子、人工智慧、基因工程、太空、海洋開發、新材料、新能源等新技術的快速發展,新技術革命的浪潮使許多有遠見的軍事家進一步打破原有的思維模式,提出軍人應該站在科技發展的最前沿暢想未來的作戰樣式,並基於這些設想進而提出軍事技術創新的目標和方向。軍事國防專家展望未來20至30年的發展趨勢,設計新的作戰概念,創新作戰理論,提出必要的技術支撐,然後科學研究人員從技術角度滿足新的軍事需求。軍事技術在士兵的組織和指導下,減少了發展的盲目性,從而獲得更快、更多的軍事經濟效益。這段時期可以說是軍人「技術領先」的階段。

士兵從「等技術」、「嫁技術」到「領先技術」的轉變,體現了軍事科學與科技發展關係日益密切的客觀趨勢。這種趨勢迫使士兵從技術發展的旁觀者轉變為技術發展的領導者。

在我國,由於失去了第一次工業革命的機遇,軍事文化仍處於「等待科技」和「嫁給科技」的階段。重歷史、輕未來的軍事理念,用來根據對手的今天來設計我軍的明天;它習慣於思考我們的明天的軍隊,並與今天的對手作戰。

在改革的旅程上,許多同志的思想還停留在海灣戰爭、科索沃戰爭、阿富汗戰爭、伊拉克戰爭,已經十五年、二十年了。美軍提出第三個“抵消戰略”,選擇顛覆性新技術,打造新的“非對稱軍事優勢”。新軍事革命將迎來轉捩點:一種新的戰爭形式——基於自主系統的輕型戰爭正在慢慢來臨。履行軍隊改革歷史使命、迎接新挑戰,必須加強文化修養,轉變軍事創新思維邏輯。

(二)

軍隊的文化內核,深蘊藏在軍事理念之中。在實施改革強軍戰略過程中,要運用現代科學方法進行軍事創新。

人類歷史上的每一個偉大時代,不僅賦予人們偉大的任務,也提供人們新的方法。只有明確了偉大任務、掌握了新方法,才能引領時代潮流。

科學發展史表明,許多重大科技創新以及重大科學問題的提出和解決,往往都是科學方法取得一定突破的結果。伽利略發現落體運動定律和慣性定律與他系統性地運用前驅定律是分不開的。

實驗和數學方法;達爾文創立生物演化論得益於科學觀察方法和歷史比較方法;理論實驗方法對愛因斯坦相對論的產生發揮了重要作用;馬克思的《資本論》能夠深入分析複雜的資本主義社會並取得巨大成功。其中一個重要原因是他巧妙地運用了邏輯與歷史相統一的方法以及科學抽象的方法,以「最簡單、最普遍、最基本的東西」——商品,作為邏輯和歷史的起點。著眼點,從感知的具體上升到抽象的規定,再從抽象的規定上升到思考的具體。

同樣,軍事理論的創新也首先依賴時代的新方法。中國春秋末年出版《孫子兵法》,是因為當時以「陰陽」、「五行」為代表的古代體系理論已經成熟、完整;克勞塞維茨寫《論戰爭》,是因為牛頓的力學和黑格爾的辯證法為他提供了研究戰爭的武器;毛澤東軍事思想是毛澤東同志運用馬克思主義哲學方法研究中國革命戰爭實踐的成果。

科技革命促進了社會生產力和軍事戰鬥力的提高,也促進了哲學思想的發展。

19世紀的「三大發現」(進化論、細胞學、能量守恆與轉化)導致了德國古典哲學的終結和馬克思主義哲學的出現。

20世紀,相對論、量子力學與生命科​​學的出現,資訊科技、生物科技、奈米科技、新材料科技、網路科技的發展,已經並將持續改變世界面貌。 1960、70年代,伴隨著新科技革命浪潮,科學方法革命達到了前所未有的高度,呈現出自然科學研究方法、方法、模型和理念向社會科學領域滲透、融合的趨勢。新的科學方法論相繼出現:系統論、控制論、協同論、突變論、資訊理論、離散論、泛函論、智能論、最優化論、反應論、模糊論、藝術論,以及「混沌論」。 」和「分形」。從哲學的角度來看,這些跨學科學科所提出的方法可以歸納為系統方法和複雜系統方法。

1958年,美軍實行軍政軍指揮分離後,並沒有很快恢復活力。五角大廈的資源管理一片混亂,仍處於岌岌可危的境地。 1960年,麥科納馬拉接管國防部。針對三軍獨立使用國防資源的混亂局面,他於1962年提出「集中指導與分散實施相結合」的管理原則,採用系統工程方法,統籌規劃國家國防資源。規劃和預算系統(PPBS)”,理順了美軍建設的關係,節省了資源。

1986年,美軍實施了《國防部改革法案》,將國防部和參謀長聯席會議的權力集中起來,建立了一套集權與授權相統一的新法規。這保證了聯合作戰的順利實施,為今後一體化聯合作戰奠定了基礎。

21世紀初,拉姆斯菲爾德擔任國防部長時,根據新軍事革命的發展,美軍改變了PPBS系統基於目標任務的管理習慣,提出了基於能力需求的PPBE系統,即「規劃、規劃、預算和執行系統」。

PPBS體系和PPBE體係都是系統科學方法在國防管理的典型應用。從方法論來看,這些體系的特點是:從未來掌握現實,根據任務任務確定能力,根據能力需求驅動技術創新和選擇作戰編隊。簡而言之,“上游”決定“下游”,“頂部”決定“底部”,“前端”決定“後端”。

系統論和複雜性方法的想法已經深入人心應用於美軍轉型。他們認為,以往的軍事理論,即克勞塞維茨、約米尼等著名學者的理論,都是以牛頓力學為基礎的。在今天的作戰中,必須把敵方的軍事組織和作戰行動視為一個系統。這樣,就只能用牛頓方法根本無法做到的複雜性理論來描述、預測和選擇相應的對抗動作。例如,克勞塞維茨在《戰爭論》中經常使用的「摩擦」概念就源自於牛頓力學。可以說是物理戰爭的概念,反映了前工業時代戰爭的特徵。無論當時的軍隊組織得多麼嚴密,都不可避免地要面臨衝擊和滯後、邊疆對峙和對抗。因此,克勞塞維茨以牛頓力學為主要方法來認識、研究和指導戰爭。當今資訊化戰爭,戰爭目的已從「消滅敵人、保存自己」轉變為「制敵、實現利益」。因此,對抗方式的一個重大變化就是從大規模破壞,轉向增加敵方組織內部的「熵值」和增加己方組織內部的「負熵值」(「熵」是對組織內部混亂的描述)。 )。軍隊越是資訊化、一體化和複雜化,它就越容易受到攻擊。現代軍事建設的一個重要原則就是盡量減少自身瓦解和崩潰的脆弱性;戰爭指導的一個重要原則是積極創造和利用敵人內部的弱點。

今天,評價一個軍事系統,不僅要看它所擁有的物質、能量和資訊的多少,還要看它的抗破壞能力、穩定性以及可能存在的「熵值」。

(三)

資訊化、網路化突破了傳統的空間界限和時間障礙。虛擬技術的「預實踐」創造了新的軍事文化。

複雜系統科學在引發哲學方法論革命的同時,與多媒體技術、虛擬實境技術、人工智慧技術、高效能運算技術、模擬技術結合,也引發了哲學知識論的革命——在知識論上發生了一些變化。人類理解世界的方式。

一是對世界統一的認識更加豐富。過去,我們在談論世界的統一性時,只強調「物質的首要性」。從今天的角度來看,世界的統一包含三個基本要素,即物質、能量、資訊的統一。在人造技術系統中,它是物質、能量和資訊的統一體;在社會經濟系統中,它是物質流、能量流、資訊流的統一。將這三方面的統一抽像到哲學層面,豐富多彩地體現了「物質、運動、資訊的統一」。

其次,認知過程從過去的「部分-整體-部分」轉變為今天的「整體-部分-整體」。與此相聯繫,研究方法也從過去的「分析-綜合-分析」轉變為今天的「綜合-分析-綜合」。

資訊化、網路化突破了傳統的空間界限和時間障礙。人們觀察問題的焦點從“以物件為中心”轉向“以系統為中心”,認識論的關鍵不再是“具體分析”而是“系統整合”。

這種新的哲學認識論標誌著科學思維結構的重大變化。科學研究從過去的分析優勢轉向今天的整體綜合優勢;過去主要研究「存在」的靜態認知已經轉向今天主要研究系統的動態認知。

實踐的意義不再侷限於歷史和現實的框架,也包括未來。海灣戰爭後,已開發國家確立了“提出理論——實戰實驗——實戰演練——實戰檢驗”的創新思路,加緊建立“實戰實驗室”,軍事理論研究方法取得新突破。

《虛擬知識論》一書作者張毅等學者指出:「虛擬技術深刻改變了人類感知世界的方式,創造了人類全新的實踐方式。虛擬技術不僅僅是一種理解和解釋世界的方式,它本身就是人類實踐的一種方式。

虛擬技術的「預實踐」創造了新的軍事文化。由此,軍隊建設從過去的“同時性”發展到今天的“同步性”「同步」開發是指完成今天,然後走向明天。嵌入性,將世界上正在發生和將要發生的戰爭場景,以及腦海中預先設計的戰爭場景,創建到虛擬環境中,以測試和修正不同階段應有的軍事能力。

與自然科學相比,軍事科學在分析推理和定量分析方面相對較弱。總結已經發生的戰爭經驗,“從戰爭中學習戰爭”,一直是軍人創造理論的傳統方式。隨著資訊科技的發展,建模/模擬和電腦網路為人們提供了認識世界的第三種重要方法,推動軍事實踐從「經驗歸納」向「虛擬模擬」、「在實驗室學習戰爭」拓展「從未來戰爭中學習戰爭”,大大提高了士兵的高級認​​知能力。

總之,面對新一輪軍事革命浪潮,推進我軍改革,需要建立新理念,創新軍事理論,讓軍事創新之光照亮未來之路。

中國原創軍事資源:http://theory.people.com.cn/n1/2016/0112/c49150-28040888.html

Truly Integrating Chinese Military Combat Preparation into Current Adversarial Defeat Operations

將中國軍事備戰真正融入當前抗擊作戰

現代英語:

Key points

  ● Our military’s preparations for military struggle are being carried out under the special background of dramatic changes in world military affairs. If we lack a strong awareness of keeping pace with the times and theoretical preparations for pioneering and innovation, we will not be able to carry the spirit of the times throughout the entire process of military struggle preparations.

  ● The many stages of military transformation and their possible changes are uncertain, which leads to different value judgments and behavioral norms. The only way to decide on these judgments and norms is to put them into the “general coordinates” of military transformation.

  ● Keeping pace with the times does not mean following the trend or following a routine. Leapfrog development is an inherent requirement of keeping pace with the times. The new historical mission requires us to shorten or even surpass certain development stages and take a road of military struggle preparation with distinctive characteristics.

  The era of rapid change gave birth to great ideas. In his speech on May 31, General Secretary Jiang Zemin pointed out: “To implement the requirements of the ‘Three Represents’, the whole party must always maintain a spirit of keeping pace with the times and constantly open up new horizons for the development of Marxist theory…” The idea of ​​keeping pace with the times proposed by Chairman Jiang is a high-level summary of the spirit of the times and a lasting spiritual driving force for promoting military innovation. It will surely have a profound impact on military struggle preparations. Guided by the important thought of “Three Represents”, we must vigorously promote the spirit of keeping pace with the times, open up the work situation with pioneering and innovation, and enhance combat effectiveness with emancipated minds, so as to put “winning” into practice.

  The most prominent background of military struggle preparation is the new military transformation

  The important thought of “Three Represents” is the result of the Chinese Communists observing and thinking about the changes in the world and China today, and adhering to and developing Marxism in new practices. Keeping pace with the times is a concept that reflects the essential characteristics of the times. To examine military struggle preparations with this concept, we should first look at what kind of changes have taken place in the background of our times.

  There are many factors that affect the preparation for military struggle: the development of the international situation, the evolution of the strategic pattern, the judgment of security threats… However, the most direct, profound and extensive influence is the new round of military revolution that emerged at the end of the last century.

  ———A revolution in combat elements: simultaneous improvement in strike, defense, and mobility. For thousands of years, no military revolution has achieved simultaneous development of strike, defense, and mobility in a short period of time. The military revolution taking place today is turning the ideal model of simultaneous improvement of the three combat capabilities into reality.

  The improvement of strike capability is mainly due to precision-guided weapons. The accuracy of traditional unguided weapons is generally in a stable inverse relationship with the strike distance, but precision-guided weapons are changing the “range-accuracy” law. The accuracy does not decrease with the increase of range. This change has a strong impact on the time, space and effectiveness concepts formed in the previous generation of wars, and new tactics such as “non-contact combat” and “out-of-area strike” have emerged.

  In all previous military reforms, the transformation of defense capabilities has always been “half a beat slower”, and the battlefield strictly follows the iron rule of “saving oneself by destroying the enemy”. Some people even believe that the armor revolution in the 20th century was just an extension of the idea of ​​”blocking and offsetting the opponent’s attack power” in the cold weapon era, and it is not really a defense revolution. Today, a real defense revolution has quietly arrived. The representative technology is stealth technology, known as “low detectability technology”. It breaks through the traditional routine that has been followed for thousands of years, “saves itself” by reducing the probability of the target being discovered, and at the same time creates conditions for achieving the suddenness of the attack. It can be called an offensive defense method of “saving oneself” first and then “destroying the enemy”, and its development prospects are unlimited.

  Mobility is shifting to “air”, and military mobility is showing multi-dimensional and three-dimensional characteristics. With the cross-generational improvement of intelligence support, command and control, and mobility tools, air mobility has leapt from the tactical level to the campaign level. At present, the number of helicopters in the main forces of the military of some developed countries is roughly equal to that of tanks, with an average of one helicopter for every 100 soldiers. Once the ground is no longer an obstacle, what new landscape will appear on the battlefield?

  ———Revolution in the military structure: integration of all services. Integration is a prominent manifestation of the achievements of the new military revolution in the field of command and coordination. Since the establishment of services, the military has believed in the idea of ​​​​integrated operations, but the difficulty of “horizontal flow” of information has restricted the improvement of the overall combat capability of the military. Since the 1980s, digital communication equipment, friend-or-foe identification systems, global positioning systems, and computer networks have successively entered the battlefield. For the first time, troops of different types, levels, and spaces have the ability to “horizontally flow” information, creating conditions for integrated operations. Reflecting this trend is the concept of “action-centered warfare” proposed by the US military in recent years. Based on the development of sensor technology, computer network technology and rapid response capabilities, the US military has transformed “plan-centered warfare” into “action-centered warfare”, which will be a profound change in the field of military command and coordination, and the integrated operations of all services will reach a new level.

  Integration is also reflected in the formation of the army. First, the boundaries between the services are weakened. Since World War II, the power of the services has usually been directly controlled by the strategic command, forming a clear boundary between the services. In future joint operations, the traditional command system can no longer adapt to the special requirements of timeliness. It is necessary to break the original boundaries between the services and form an integrated force. At present, the establishment of a “joint task force” composed of an army brigade task force, an air force fighter squadron, a naval ship unit and a marine expeditionary unit is a new attempt by the military of developed countries to seek integration. Secondly, the boundaries between the services are weakened. The military of developed countries has formed mixed-service synthetic forces. For example, the US Air Force will establish 10 expeditionary aerospace forces by 2003 based on the “mixed wing” experiment in the past few years; the United Kingdom has mixed the Navy’s “Sea Harrier” aircraft with the Air Force’s “Harrier” fighter since 2000. It can be foreseen that in the near future, a new pattern will emerge in the relatively stable military structure formed in the era of mechanized warfare. Some scholars call it a “revolution of relationships” and a “revolution of structure”, which is indeed a vision.

  ———Revolution of combat systems: transformation from mechanized army to informationized army. Human society is facing the third major transformation in history, and the wave of information revolution continues. A few years ago, the concept of informationization as “intelligent” warfare was still beyond people’s vision, but today few people doubt its emergence.

  Since the advent of the industrial age, war has shown an accelerating development trend, especially in the half century after World War II. Mechanization, as the mainstream of war, has reached its peak, but it has also fallen into a dilemma: the physical performance of weapons and equipment has reached its limit, and the return on investment is very small; the catastrophic consequences of nuclear weapons make it increasingly difficult to play a role in war; the harm to innocent people and the pollution to the environment caused by weapons of mass destruction have led to ecological deterioration… There is almost no way to continue to develop within the framework of mechanization. People began to seek new ways, that is, to solve the problems of strike efficiency and combat effectiveness from a deeper level, and strive to achieve precision, controllability and intelligence, and this is informatization. At present, the armies of many countries are working hard to open up a path of change to break out of the dilemma of mechanized warfare. The trend of mechanized warfare giving way to information warfare is irreversible. President Jiang has a keen insight into the major changes in the world’s military field and pointed out that the essence of the new military revolution is the information revolution, which has pointed out the direction for our army to meet the challenges of the new military revolution in the world.

  At present, the armed forces of developed countries are vigorously promoting the informatization of weapons and equipment. While actively developing C4I systems, precision-guided munitions, smart weapons, and digital individual equipment, they also focus on doing a good job in top-level design, integrating target reconnaissance and surveillance, target information processing and transmission, precision strikes, and damage assessment to form a “military system”. In this way, the combat system of the industrial age, which is suitable for exerting the potential of firepower and mobility, has been gradually transformed into a combat system of the information age, which is suitable for the rapid flow and use of information.

  Our military’s preparations for military struggle coincide with the real upheaval in the world’s military field. Having experienced this revolution, we should have a stronger sense of the times and urgency than ever before. When we are preparing for real threats, we must not ignore or forget that we are in a new era, and we must not be busy responding and indifferent to the general trend. Not being attached to things we are already familiar with, keenly absorbing the new things shown to us by the historical trend, taking advantage of the trend, and taking a bigger step, this is the powerful response of the idea of ​​keeping pace with the times to the challenges of the times.

  Designing the “general coordinates” of military struggle preparation in accordance with the general trend of military transformation

  In his “May 31” speech, General Secretary Jiang pointed out: “Adhering to the ideological line of emancipating the mind and seeking truth from facts and promoting the spirit of keeping pace with the times are decisive factors in the Party’s maintaining its advanced nature and creativity under the conditions of long-term governance. Whether our Party can always do this will determine China’s development prospects and destiny.” If we understand keeping pace with the times from the perspective of “determining destiny,” military struggle preparations will be able to find reference in a broader context.

  ———Inspiration from history: Those who follow the trend will prosper, and those who go against the trend will perish. Those who follow the historical trend are destined to be favored by history, and those who seize the initiative are often those armies that are extremely sensitive to the historical trend. In the mid-19th century, Prussia was earlier than other countries to realize the challenges brought by the Industrial Revolution to the military field, and took the lead in realizing the transition of the military system to mechanized warfare, which gave it a decisive advantage over those European armies with more troops and higher technological levels in the following decades.

  On the contrary, there is a clear gap between the huge military investment and the results achieved, and the reason is probably the lack of a keen sense of smell to seize the opportunity. From the mid-17th century to the end of the 18th century, Chinese society developed to the extreme under the original system framework, and the military was also in the heyday of the cold weapon era. Almost at the same time, a series of earth-shaking changes took place in the world: the gunpowder revolution was in full swing, and the mechanization revolution followed. Faced with the impact of military changes, the Qing army clung to the pedantic idea that “riding and shooting are the foundation of Manchuria”, calling inventions and creations “strange skills and tricks” and viewing strong ships and powerful guns as sorcery. The Qing Dynasty was eventually passively beaten and lost its power and humiliated the country.

  History has striking similarities, but the choices of historical paths have their merits and demerits. Today, the world’s military is once again facing major changes, major developments, and major turning points. After the Gulf War, the Central Military Commission was keenly aware that the world’s military field was undergoing extensive and profound changes, and promptly formulated a military strategic policy for the new era, requiring that the basis of military struggle preparation be placed on winning local wars under modern technology, especially high-tech conditions; in 1996, under the guidance of this strategic policy, it was proposed that the guiding ideology of military construction must achieve two fundamental changes from quantity and scale to quality and efficiency, and from manpower-intensive to technology-intensive; in 1997, with great wisdom and extraordinary courage, the “three-step” strategy for the cross-century development of the military was determined… These major measures fully reflect the forward-looking vision of keeping pace with the times. Over the past decade, the reason why our military’s preparation for military struggle in the new era has been able to make continuous progress and breakthroughs is because the spirit of the times that keeps pace with the times has been integrated into it.

  ———Useful experience: Take reform as the focus of military struggle preparation. After the Cold War, the international situation changed, and the armies of various countries began to redesign their development blueprints. The general practice is to attach great importance to the impact of new military changes, emphasize the historical opportunity of war transformation, and promote military reform in accordance with the requirements of the times. Waves of reforms have emerged one after another, and finally formed a reform trend that swept the world.

  According to the “2001-2002 Strategic Assessment Report” recently published by the London International Institute for Strategic Studies, after the “9.11” incident, the US military proposed a new round of military reform plans, which included six important components, the first of which was “concepts on future wars.” With a new view on future wars, the war machine must be remodeled. In fact, the former Soviet army was the first to realize the current military revolution, but the US military came later. When many mechanized armies were still arguing about whether informatization would come, the US military quietly began the informatization reform and established the “Senior Steering Committee for Military Revolution Research” in 1994 as the organizational leadership of military reform. Each branch of the military has also established corresponding institutions, such as the Army Digitalization Office and Ground Information Warfare Center, the Navy New Operational Concept Committee and Fleet Information Warfare Center, and the Air Force Information Warfare Center. After years of accumulation, a large number of beneficial results have been achieved, providing coordinates for the military’s informatization transformation.

  The deeper the reform, the more difficult it is to operate. The armies of many countries have seen that the military system that has been perfected in the mechanized era has little room for transformation, and must vigorously promote the new military revolution. The US Department of Defense has set up five working groups to focus on how to use information technology to completely transform the US military, and has established six combat laboratories dedicated to studying information warfare. The US military believes that it is currently unable to effectively cope with various complex new security challenges, and needs to carry out military reforms with the goal of rapid, flexible, and effective joint operations of all arms, including the establishment of a standing joint task force, the development of required leapfrog technologies, the enhancement of the flexibility of command organizations, the reform of procurement strategies, the abandonment of old military systems to free up funds for new systems, and so on. Although the conditions for promoting the new military revolution in Russia, Britain, France, Japan and other countries are not as complete as those in the United States, they have also formulated long-term national defense development strategies and military construction plans, and accelerated the pace of their own military reforms to meet the challenges of the new military revolution. These reform measures reflect the general direction and are worth learning from for our army.

  ———The call of mission: Unify military struggle preparation and building a first-class army. The tasks of our army’s military struggle preparation are determined, but the reference system of army building is not solidified. The changing international environment, the uncertain strategic pattern and the complex surrounding security situation faced by our country have determined that once a war breaks out, our combat opponents and combat directions may not be single, and the main strategic direction is also relative and variable. After the founding of the People’s Republic of China, almost none of the several local wars we have fought were carried out in the strategic direction we have prepared. If we only target one opponent and imagine one situation, it is undoubtedly a strategic shortsightedness.

  In the face of this situation, how can we prepare for military struggle? The answer is: improve the starting point of military struggle preparation and build a first-class army. In a reality full of uncertainty and unpredictability, the most important thing is to have the “ability” to cope with various situations. This is like participating in a large-scale international competition. It is not enough to just defeat one opponent. Only by defeating a series of opponents can you win the championship, which requires comprehensive strength. Therefore, military struggle preparation should be planned for the long term, not overly focusing on recent threats and ignoring long-term construction. While highlighting the key points, we should focus on developing the ability of the entire army to cope with challenges and unexpected events. This ability can only be obtained by strengthening quality construction and catching up with the world’s military powers. Take advantage of our “latecomer advantage”, draw nourishment from the history of military development in developed countries, accelerate the process of catching up with advanced technology, advanced systems, and advanced ideas, avoid the detours they have taken, and finally form our own advantages. In this way, we can prepare for recent threats while also taking care of the future.

  The military revolution is global, but it will not automatically visit every country. Although it has made it possible for the armies of developing countries to catch up, opportunities only come to those who respond correctly. We have unified the two strategic tasks of preparing for real military struggles and strengthening the quality of military construction, preparing while building, using preparation to drive construction and construction to promote preparation. This is undoubtedly the right choice.

  Taking a Distinctive Path of Military Struggle Preparation in the Trend of Change

  Due to different starting points, the military of different countries has shown diversity in the choice of development path. A foreign scholar once asserted: “What aspects of an army lag behind and how much it lags behind completely determines the pattern of historical change.” In the field of economics, this phenomenon is called “path dependence.” If the path of change of the world’s military powers is regarded as the only model and applied to oneself without thinking, then it will inevitably lead to a serious misalignment of the starting point, path and goal.

  ———Establish a brand-new development strategy. In the 21st century, the war will inevitably enter the informationization stage. In this transition, the armies of countries around the world may undergo new differentiation, resulting in major differences and imbalances in combat capabilities. To avoid being left behind in the new competition, conventional strategies will not work. We must find a way to catch up quickly.

  Mechanization is the path to development for Western armies. This is because the historical background at that time provided them with special conditions. It is impossible for our army to have these historical conditions again and to achieve the same level of development in the form of mechanized warfare. Therefore, we should seriously reflect on whether we can really catch up with the armies of developed countries in the framework of mechanization.

  Information warfare is a great leap forward in the form of warfare. In fact, the development from the old form to the new form is achieved through a series of huge changes within the combat system. This transformation is not a linear transition from the old form to the new form, but a “transfer development”. Just as “steamboats are not evolutionary sailboats; cars are not evolutionary improvements on horses and carriages; transistors are not better vacuum tubes”, “transfer development” is a change in the nature and direction of combat means. Its prominent features are its transition, nonlinearity, discontinuity and innovation. Looking forward from the perspective of the old form in a straight line, you cannot see the new form.

  Our army is still in the process of mechanization. The limitations of mechanization are rapidly emerging but have not yet been fully exposed. In some areas of information technology, our army has gradually entered the new military revolution, and even in some parts and to some extent, it is not behind many Western countries’ armies. This shows a fact that mechanization and informatization are not completely connected in a straight line. Under certain conditions, it is possible to achieve leapfrog development. The agricultural civilization of ancient Egypt was not built on the basis of the world’s most developed hunting and gathering civilization, and the British pioneering industrial civilization did not have the world’s most developed agricultural civilization.

  The discontinuity and transition of the new war form often provide a historical opportunity for the army that was not advanced to catch up. The information revolution provides an opportunity for our army to achieve leapfrog development without fully developed mechanization.

  ———Use informatization to drive mechanization. The “generational” development of weapons and equipment is not only an important part of the new military revolution, but also its origin. A fundamental question is: for which generation of war are the weapons systems being developed or introduced preparing? If we use yesterday’s equipment to meet tomorrow’s war, we will inevitably run into a wall. Let’s take an example. The radar system used by the vast majority of early warning aircraft currently in service is an active radiation radar, which will basically have no survivability in the next generation of war. If we blindly introduce such early warning aircraft, is it a strategic miscalculation? Obviously, forward-looking awareness is particularly important for equipment development.

  The so-called advanced consciousness, for our army at this stage, is to establish the development concept of “using informatization to drive mechanization”. The information revolution has provided opportunities for our army to develop by leaps and bounds, but it is impossible to completely leapfrog the mechanization stage. The mechanization level of our army’s weapons and equipment is still not high, and some are even only semi-mechanized. Using informatization to drive mechanization means moderately developing mechanization, but not pursuing the most advanced mechanization, not affecting the capital investment in informatization transformation, not over-performing the mechanized command system and mechanism, and ensuring the smooth progress of informatization transformation while maintaining the mechanized combat mode. Combine moderate development of mechanization with informatization, and while maintaining the former, focus on the latter.

  ———Deepen reform while inheriting. As early as 1996, President Jiang pointed out: “From the current trend of world military development, the problem of unreasonable organizational system of our army is also quite prominent. The adjustment and reform of organizational system should continue to be carried out actively and steadily.” Any army is following the organizational tradition that has been tested by practice and reflects its own characteristics. For example, Sweden has adopted the organizational system of integrating soldiers with civilians for hundreds of years, and the organizational system of the Indian Army still retains the “wing system” tradition of the British Indian period… However, the impact point of military reform is often aimed at the organizational system first. The “hub” position of the organizational system makes it the focus of any army that wants to make a difference.

  As the military revolution develops in depth, a series of innovative achievements in weapons and equipment, personnel quality and combat theory will eventually need to be materialized in a smooth system, and scientific mechanisms will be used to express and reflect them, so that they can release energy most quickly and effectively. The adjustment of the organizational system of our army should break through the accumulated problems, transcend tradition, create enough space to promote institutional reform, and unswervingly work towards the direction of “appropriate scale, reasonable structure, and flexible command” required by Chairman Jiang. The so-called keeping pace with the times means that we should boldly reform the focus and difficulties of these top-level designs, and should not be burdened by the details in front of us.

  ———Using science and technology as the driving force. In the process of new military transformation, our army’s scientific spirit and scientific and technological awareness are keeping pace with the times. The whole army has carried out extensive, in-depth and long-term scientific and technological training activities, and has embarked on a new training development path driven by science and technology.

  Historically, armies that reject science and technology have always been doomed. During World War II, the Japanese Kwantung Army believed that “belief rather than knowledge is the factor in completing the mission”, and its combat regulations insisted on “hand-to-hand combat”. In the “Zhanggufeng Incident” in 1938, although the casualties in hand-to-hand combat only accounted for 2.8% of the total casualties, the Kwantung Army’s combat regulations in 1941 still emphasized “hand-to-hand combat” and lacked training to deal with tanks and aircraft. After the war, the Japanese army admitted that the Kwantung Army “had almost zero modern combat training”. Western armies have a tradition of advocating science, and they attach great importance to timely revising training regulations and adjusting training content according to the development of military technology. It is reported that the US Air Force no longer conducts training in close-range air combat projects, but focuses on controlling missile flight.

  In recent years, the whole army has carried out a comprehensive reform of the content of education and training in accordance with the requirements of the military strategic policy of the new era, and has achieved phased results. However, the reform that has been carried out is preliminary, and there is still a long way to go. The innovation of education and training content should focus on the requirements of the next generation of war on personnel quality and combat capability, and make a good overall design from top to bottom. In recent years, our army has built a military training information network for the whole army and campus networks of various colleges and universities, established a large number of modern teaching venues and training grounds, developed and distributed a large number of training simulation equipment that matches new equipment, and realized the interconnection and interoperability of campaign and tactical training simulation systems… We will hold high the torch of the spirit of the times, keep pace with the times, and rely closely on scientific and technological progress to continuously push education and training to a new level.

現代國語:

柴宇球、曾蘇南、本報記者張國育

內容提要

●我軍軍事鬥爭準備是在世界軍事真正發生劇變的特殊背景下進行的。如果缺乏與時俱進的強烈意識和開拓創新的理論準備,就無法把時代精神貫穿軍事鬥爭準備的整個過程

●軍事變革的許多階段及其可能變化具有不確定性,因此產生了不同的價值判斷和行為準則。決定這些判斷和準則的取捨,只能把它們放到軍事變革的「總座標」中去考慮

●與時俱進不是隨波逐流,不是按部就班,跨越式發展是與時俱進的題中應有之義。新的歷史使命要求我們縮短甚至超越某些發展階段,走具有鮮明特色的軍事鬥爭準備之路

激變時代催生偉大思想。江澤民總書記在「5·31」演講中指出:「貫徹好『三個代表』要求,必須使全黨始終保持與時俱進的精神狀態,不斷開拓馬克思主義理論發展的新境界…」。江主席提出的與時俱進思想,是時代精神的高度概括,也是推動軍事創新的持久的精神動力,它必將對軍事鬥爭準備產生深遠影響。以「三個代表」重要想法為指導,大力弘揚與時俱進的精神,用開拓創新打開工作局面,用解放思想提升戰鬥力,才能把「打得贏」落實。

軍事鬥爭準備最突出的時代背景是新軍事變革

「三個代表」重要思想是中國共產黨人觀察、思考當今世界和中國的變化,在新的實踐中堅持與發展馬克思主義的結果。與時俱進,則是反映了時代本質特徵的觀念。用這個觀念來檢視軍事鬥爭準備,首先應當看我們所處的時代背景究竟發生了什麼樣的改變。

影響軍事鬥爭準備的因素很多:國際情勢的發展,戰略格局的演變,對安全威脅的判斷……但是,影響最直接、最深刻、最廣泛的,當首推上世紀末期興起的新一輪軍事革命。

———戰鬥要素的革命:打擊力、防護力、機動力同步提升。千百年來,還沒有哪一次軍事變革在短時間內使打擊、防護、機動能力獲得同步發展。而當今發生的這場軍事變革,正把三種作戰能力同時提升的理想模式變成現實。

打擊能力的提升主要得益於精確導引武器。傳統非導引武器的命中精準度一般與打擊距離構成穩定的反比關係,而精確導引武器卻在改變「射程-精準度」規律,它不因射程的增大而降低精準度。這項變革猛烈衝擊著上一代戰爭中形成的時間觀、空間觀和效能觀,「非接觸作戰」、「防區外打擊」等新戰法應運而生。

在歷次軍事變革中,防護能力的變革總是“慢半拍”,戰場嚴格遵循“靠消滅敵人來保存自己”的鐵律。甚至有人認為,20世紀的裝甲革命只是冷兵器時代「阻隔與抵消對方打擊威力」的思路的延伸,實在算不上是一次防護革命。今天,一場真正意義上的防護革命悄然而至,代表性的技術是被稱為「低可探測性技術」的隱身技術,它突破了沿襲數千年的傳統套路,透過降低目標被發現的機率來“保存自己”,同時又為達成攻擊的突然性創造了條件,堪稱先“保存自己”再“消滅敵人”的進攻性防護手段,其發展前景不可限量。

機動力正向「空中化」轉移,軍隊機動呈現多維立體的特徵。隨著情報保障、指揮控制、機動工具的跨代式改善,空中機動能力從戰術級躍升到了戰役級。目前,有些已開發國家軍隊主力部隊的直升機數量與坦克大致相等,平均每100名士兵就有一架直升機。一旦地面不再成為障礙物時,戰場將出現什麼新景觀?

———軍隊結構的革命:諸軍兵種一體化。一體化是新軍事變革的成果在指揮協同領域的突出體現。自從有了軍兵種,軍隊就信奉整體作戰思想,但由於資訊的「橫向流動」比較困難,制約了軍隊整體作戰能力的提升。自1980年代以來,數位化通訊設備、敵我識別系統、全球定位系統、電腦網路相繼躋身戰場,不同類型、不同層級、不同空間的部隊第一次具備了資訊「橫向流動」的能力,為一體化作戰創造了條件。反映這一趨勢的是近年來美軍提出的「行動中心戰」概念。基於感測器技術、電腦網路技術及快速反應能力的發展,美軍把“計劃中心戰”轉變為“行動中心戰”,這將是軍隊指揮協同領域的一次深刻變革,諸軍兵種一體化作戰將由此達到一個新水平。

一體化也體現在軍隊編成上。首先是軍種界限的弱化。二次大戰以來,軍種力量通常由戰略統帥部直接掌握,形成了涇渭分明的軍種界限。未來聯合作戰,傳統的指揮體制已無法適應對時效性的特殊要求,必須打破原有的軍種界限,組成一體化部隊。目前,建立由陸軍旅特遣隊、空軍戰鬥機中隊、海軍艦艇部隊和陸戰隊遠徵分隊組成的“聯合特遣部隊”,就是發達國家軍隊謀求一體化的新嘗試。其次是兵種界線的弱化。已開發國家軍隊紛紛組成兵種混編合成部隊,如美國空軍在前幾年「混編聯隊」試驗的基礎之上,將在2003年前建立10​​支遠徵型航空航天部隊;英國從2000年開始將海軍的「海鷂」飛機與空軍的「鷂」式戰鬥機混合編組。可以預見,在不遠的將來,機械化戰爭時代所形成的相對穩定的軍隊結構將出現新格局。有些學者稱之為“關係的革命”、“結構的革命”,不失為一種遠見。

———作戰體系的革命:機械化軍隊轉變為資訊化軍隊。人類社會正面臨歷史上第三次大轉型,資訊革命的浪潮持續不斷。幾年前,作為「智慧化」戰爭的資訊化概念尚在人們的視野之外,而今天沒有多少人再懷疑它的出現。

戰爭自進入工業時代以來,呈現出加速度發展趨勢,尤其是第二次世界大戰後的半個世紀,機械化作為戰爭形態的主流已經達到它的巔峰,但同時也陷入了困境:武器裝備的物理性能達到極限,大量的投入回報甚微;核武的災難性後果,使其越來越難以在戰爭中發揮作用;大規模殺傷性武器造成的對無辜人民的傷害和對環境造成的污染,導致生態惡化……在機械化的框架中繼續發展幾乎沒有出路,人們開始尋求新的方式,即從更深層面上解決打擊效率和作戰效果問題,努力實現精確化、可控化和智能化,而這就是信息化。目前,許多國家軍隊都在努力開拓跳出機械化戰爭困境的變革之路,機械化戰爭讓位給資訊化戰爭的趨勢不可逆轉。江主席敏銳洞察世界軍事領域發生的重大變化,精闢指出了新軍事變革的本質是資訊化革命,為我軍迎接世界新軍事變革的挑戰指明了方向。

目前,已開發國家軍隊都在大力推進武器裝備的資訊化建設,在積極發展C4 I系統、精確制導彈藥、靈巧武器、數位化單兵裝備的同時,注重搞好頂層設計,使目標偵察與監視、目標資訊處理與傳輸、精確打擊與毀傷評估實現一體化,形成「軍事大系統」。這樣,就把工業時代的適於發揮火力和機動力潛能的作戰體系,逐步改造成了資訊時代的適於資訊快速流動和使用的作戰體系。

我軍軍事鬥爭準備恰逢世界軍事領域正發生著真正的劇變,親歷了這場革命,我們應有比以往更強烈的時代感和緊迫感。當我們針對現實威脅認真準備的時候,我們一定不可以忽略或忘記我們正置身一個新的時代,一定不可以忙於應對而淡漠大勢。不眷戀我們已經熟悉了的東西,敏銳吸納歷史潮流為我們展示的新鮮事物,乘勢而上,把步子邁得更大一點,這就是與時俱進思想對時代挑戰的有力回應。

按照軍事變革大趨勢設計軍事鬥爭準備“總坐標”

江總書記在「5·31」演講中指出:「堅持解放思想、實事求是的思想路線,弘揚與時俱進的精神,是黨在長期執政條件下保持先進性和創造力的決定性因素。我們黨能否始終做到這一點,決定著中國的發展前途和命運。

———歷史的啟蒙:順應趨勢者昌,逆趨勢而動者亡。順應歷史潮流注定得到歷史的青睞,搶先者往往是那些對歷史潮流異常敏感的軍隊。 19世紀中葉,普魯士比其他國家更早察覺到工業革命對軍事領域帶來的挑戰,率先實現了軍事體係向機械化戰爭的過渡,從而使它在後來數十年間比那些兵力更多、科技水平更高的歐洲軍隊都佔有決定性優勢。

相反的情形是,軍事上的巨額投入與所取得的成果之間存在明顯落差,其原因恐怕也是缺乏乘勢而動的靈敏嗅覺。 17世紀中葉至18世紀末,中國社會在原有的體系框架下發展到了極致,軍事上也處於冷兵器時代的鼎盛期。幾乎在同一時間,世界發生了一系列改天換地的變革:火藥革命方興未艾,機械化革命接踵而至。面對軍事變革的衝擊,滿清軍隊卻死抱著“騎射乃滿洲根本”的迂腐觀念,把發明創造稱為“奇技淫巧”,把堅船利炮看成妖術。大清王朝最終被動挨打,喪權辱國。

歷史有著驚人的相似之處,歷史道路的選擇卻有高下優劣之分。當今,世界軍事又面臨大變動、大發展、大轉折。海灣戰爭以後,中央軍委敏銳察覺到世界軍事領域正在發生廣泛而深刻的變革,及時制定了新時期軍事戰略方針,要求把軍事鬥爭準備的基點放在打贏現代技術特別是高技術條件下的局部戰爭上;19 96年,在這一戰略方針的指導下,提出軍隊建設的指導思想必須實現由數量規模型向質量效能型、由人力密集型向科技密集型的兩個根本性轉變;1997年,又以高度的智慧和過人的膽魄,確定了軍隊跨世紀發展“三步走”戰略……這些重大舉措,充分體現了與時俱進的前瞻性視野。十多年來,我軍新時期軍事鬥爭準備之所以能夠不斷取得進展與突破,就是因為把與時俱進的時代精神融入其中。

———有益的經驗:把改革當作軍事鬥爭準備的著力點。冷戰後,國際局勢起了變化,各國軍隊開始重新設計發展藍圖。普遍的做法是,高度重視新軍事變革的影響,強調掌握戰爭形態轉型的歷史機遇,並依照時代要求推動軍事改革。一個波次接一個波次的改革浪潮此起彼伏,最終形成了席捲全球的改革之勢。

根據倫敦國際戰略研究所最近發表的《2001-2002年度戰略評估報告》稱,「9·11」事件以後,美軍提出了新一輪的軍事改革計劃,其中包括六個重要組成部分,首要部分是「關於未來戰爭的設想」。對未來戰爭有了新看法,必然對戰爭機器進行新的改造。其實,最早意識到當今這場軍事變革的是前蘇軍,但美軍後來居上,當許多機械化為主的軍隊還在爭論資訊化是否會到來時,美軍不動聲色地開始了資訊化改革,於1994年成立了“軍事革命研究高級指導委員會”,作為軍事改革的組織領導機構。各軍種也成立了相應的機構,如陸軍數位化辦公室和地面資訊戰中心、海軍新作戰概念委員會和艦隊資訊戰中心、空軍資訊戰中心等。經過多年積累,取得了大量有益成果,為軍隊資訊化改造提供了座標。

改革越深入,操作的難度就越高。許多國家的軍隊已經看到,在機械化時代日臻完善的軍事體系已經沒有太大的改造空間,必須大刀闊斧地推進新軍事革命。美國國防部專門成立了5個工作小組,集中探討如何使用資訊科技徹底改造美軍,並且建立了6個專門研究資訊戰的戰鬥實驗室。美軍認為,目前還不能有效地應付各種複雜的新安全挑戰,需要以迅速、靈活、各兵種有效聯合行動為目標進行軍事改革,包括設立一支常備聯合特遣部隊,開發需要的躍進技術,增強指揮機構的彈性,改革採購策略,放棄舊的軍事系統以便為新系統騰出經費,等等。俄、英、法、日等國推行新軍事革命的條件雖然不如美國完備,但它們也紛紛制定面向長遠的國防發展戰略與軍隊建設規劃,加快本國軍事改革的步伐,以迎接新軍事革命的挑戰。這些反映了大方向的改革舉措,值得我軍借鏡。

———使命的呼喚:把軍事鬥爭準備和建設一流軍隊統一起來。我軍軍事鬥爭準備的任務是確定的,而軍隊建設的參考係卻不是凝固的。多變的國際環境、未定的戰略格局以及我國所面臨的複雜的周邊安全形勢,這些都決定了一旦發生戰事,我們的作戰對手和作戰方向可能都不是單一的,主要戰略方向也具有相對性和可變性。建國後,我們所進行的幾場局部戰爭,幾乎沒有一場是在我們準備好了的戰略方向進行的。如果僅僅瞄準一個對手,設想一種情況,無疑是一種戰略短視。

面對這種局面,如何做好軍事鬥爭準備?答案是:提高軍事鬥爭準備的起點,建立一支一流軍隊。在充滿不確定性和不可測性的現實中,具備應付各種情況的「能力」才是最重要的。這如同參加大型國際賽,光是戰勝一個對手不行,只有戰勝一系列對手才能奪冠,這就需要綜合實力。所以,軍事鬥爭準備要從長計議,不過度專注近期威脅而忽略長遠建設,在突出重點的同時,著力去開發整個軍隊應付挑戰和不測事件的能力。這種能力只有透過加強品質建設,在追趕世界軍事強國的過程中獲得。利用我們的“後發優勢”,從發達國家軍隊發展的歷史中汲取營養,加速對先進技術、先進體制、先進思想的追趕過程,避免他們走過的彎路,最終形成自己的優勢。這樣,我們才能在為近期威脅作好準備的同時,也關照好未來。

軍事革命是全球性的,但它不會自動光顧每一個國家,它雖然使後發國家軍隊有了奮起追趕的可能性,但機運只為那些正確應對者而來。我們把現實軍事鬥爭準備和加強軍隊質量建設兩大戰略任務統一起來,邊準備,邊建設,以準備牽引建設,以建設促進準備,這無疑是正確的抉擇。

在變革潮流中走具有特色的軍事鬥爭準備之路

不同國家軍隊由於起點不同,對發展道路的選擇呈現出多樣性。國外某學者曾斷言:「一支軍隊什麼方面落後、落後多少完全規定了歷史的變化模式。」經濟學領域稱這種現象為「路徑依賴」。如果把世界軍事強國的變革之路視為唯一模式,不假思索地套於自身,那麼,必然導致起點、途徑與目標的嚴重錯置。

———確立嶄新的發展思路。戰爭形態在21世紀必定跨入資訊化階段,世界各國軍隊有可能在這場過渡中發生新的分化,形成作戰水準的重大差異與不平衡。要避免在新的角逐中落伍,常規的思路肯定不行,必須找到一條快速追趕的路徑。

機械化是西方軍隊的發達之路,這是由於當時的歷史背景給西方軍隊提供了特殊條件,而我軍不可能重新具備這些歷史條件,不可能在機械化戰爭形態中獲得同等發達水平。因此,我們應該認真反思在機械化框架中能否真正趕上已開發國家軍隊的問題。

資訊化戰爭是戰爭形態的大飛躍。其實,從舊形態轉向新形態的發展是透過作戰系統內部一系列巨大轉變來實現的,這種轉變不是舊形態向新形態的直線推移,而是一種「轉移式發展」。正如「蒸氣船不是進化發展的帆船;汽車不是馬和馬車的進化型改進;晶體管不是一種較好的真空管」一樣,「轉移式發展」是作戰手段的本質、方向的改變,其突出特徵是它的轉折性、非線性、間斷性和創新性,從舊型態的視角向前直線展望是看不到新型態的。

我軍目前尚處在機械化進程中,機械化的局限性正在快速顯現但尚未完全暴露,而我軍在資訊科技某些領域已逐漸涉足新軍事革命,甚至在某些局部某種程度上並不比許多西方國家軍隊落後。這顯示了一個事實,機械化與資訊化並不完全是直線相接的,在具備一定的條件下,有可能實現跨越式發展。古埃及的農業文明並不是建立在世界最發達的採獵文明基礎上,英國開拓工業文明也不是擁有世界最發達的農業文明。

新戰爭形態的間斷性、轉折性往往會給原本並不先進的軍隊提供一個後來居上的歷史機會。資訊革命為我軍在不擁有充分發展的機械化的基礎上實現跨越式發展提供了機會。

———用資訊化牽引機械化。武器裝備的「斷代性」發展,既是新軍事變革的重要內容,也是它的始因。一個帶根本性的問題是:正在研發或引進的武器系統是為哪一代戰爭做準備?如果用昨天的裝備迎接明天的戰爭,難免會碰壁。試舉一例。現在正在服役的絕大多數預警機,採用的雷達系統是主動式輻射雷達,這在下一代戰爭中將基本沒有生存能力,如果盲目引進此類預警機,是不是一種戰略失算?顯然,超前意識對裝備發展來說尤其重要。

所謂超前意識,對現階段的我軍來說,就是確立「用資訊化牽引機械化」的發展觀。資訊革命為我軍跨越式發展提供了機遇,但機械化階段不可能完全跨越,我軍武器裝備的機械化水準還不高,有些甚至只是半機械化。用資訊化牽引機械化,就是適度發展機械化,但不追求最發達的機械化,不影響資訊化改造的資金投入,不過度完善機械化指揮體系和機制,在維持機械化作戰方式的同時,保證資訊化改造順利進行。把適度發展機械化與資訊化結合起來,在維持前者的同時,重心向後者傾斜。

———在繼承中深化改革。江主席早在1996年就指出:「從當前世界軍事發展的動向看,我軍的編制體制不合理的問題也比較突出,編制體制的調整改革要繼續積極穩妥地進行。」任何軍隊都在沿襲著經過實踐檢驗、體現自身特色的編制傳統,如瑞典幾百年來一直採取了寓兵於民的組織體制,印度陸軍的編制體制仍然保留著英印時期的「聯隊制」傳統……但是,軍事變革的衝擊點往往先瞄準編制體制。編制體制所處的「樞紐」地位,使它成為任何一支有所作為的軍隊所關注的焦點。

隨著軍事革命向縱深發展,武器裝備、人員素質和作戰理論的一系列革新成果,最終都需要物化於一種順暢的體制內,用科學的機制去表現它、反映它,使其最迅速、最有效地釋放能量。我軍的編制體制調整應當衝破積弊,超越傳統,創造足夠的空間促進機構改革,堅定不移地朝著江主席所要求的「規模適度、結構合理、指揮靈便」的方向努力。所謂與時俱進,就應當在這些頂層設計的焦點、難點上大膽改革,而不應為眼前的細節所累。

———以科學技術為推動力。在新軍事變革的過程中,我軍的科學精神、科技意識都在與時俱進,全軍廣泛、深入、持久地開展科技練兵活動,走出了一條以科學技術為推動力的新的訓練發展道路。

歷史上,拒絕科學技術的軍隊均難逃厄運。在二次大戰中,日本關東軍信奉“完成任務的因素,是信念而不是知識”,戰鬥條令一味主張“白刃主義”。到了1938年“張鼓鋒事件”,儘管白刃戰傷亡僅佔總傷亡的千分之二點八,但關東軍1941年的戰鬥條令仍然強調“白刃主義”,缺少對付坦克和飛機的訓練。日軍戰後承認,關東軍「在近代作戰訓練方面幾乎等於零」。而西方軍隊則具有崇尚科學的傳統,他們十分重視根據軍事科技的發展及時修改訓練條例,調整訓練內容。據報道,美空軍已不再進行空中近距格鬥項目的訓練,而把訓練重點放在控制飛彈飛行上。

近年來,全軍按照新時期軍事戰略方針的要求,對教育訓練內容進行了全面改革,取得了階段性成果。但已經進行的改革是初步的,今後的路還很長。教育訓練內容創新,應緊緊圍繞下一代戰爭對人員素質和作戰能力提出的要求,由上至下搞好整體設計。近年來,我軍建成了全軍軍事訓練資訊網和各院校校園網,建立了一大批現代化教學場館和訓練場地,研製配發了一大批與新裝備配套的訓練模擬器材,實現了戰役戰術訓練模擬系統的互連互通……我們將高擎與時俱進這把時代精神的火炬,緊緊依靠科技進步,把教育訓練不斷推向新境界。

http://jczs.sina.com.cn 2002年7月16日 07:51 解放军报

中國原創軍事資源:https://mil.news.sina.com.cn/2002-07-16/7489888.html?from=wap

Where is the Focus of Chinese Military Cognitive Domain Operations?

中國軍事認知域作戰的重點在哪裡?

劉曙光
2022年10月05日 | 資料來源:解放軍報

現代英語:

● Cognitive domain warfare focuses on full-dimensional attacks, including both cognitive penetration in “peacetime” and cognitive coercion in “wartime”.

● Wartime cognitive domain operations are carried out around the achievement of military objectives, and are implemented in coordination with military operations and support each other.

●In cognitive domain warfare, as the sound of gunfire fades away, the clarion call for a new round of cognitive domain warfare may sound again, and there can be no slackness.

Cognitive domain operations are confrontations conducted at the level of consciousness and thinking. Through selective processing and transmission of information, it influences judgments, changes concepts, and competes for people’s hearts, thereby guiding the reality to develop in a direction that is beneficial to oneself. From the perspective of cognitive shaping, cognitive domain operations focus on full-dimensional attacks, including both cognitive penetration in “peacetime” and cognitive coercion in “wartime”. Therefore, cognitive domain operations do not have a clear boundary between peace and war; at the same time, according to the needs of political or military purposes, its targets can be individuals, organizations, and even countries. Therefore, cognitive domain operations should establish the concept of peacetime and wartime integration, military-civilian integration, cross-domain integration, and joint victory, and sort out basic tasks accordingly.

Focus on the layout tasks of ideology

Ideology is “a system of thought that systematically and consciously reflects the social and economic forms and political systems”. Ideology determines the rational foundation of cognition and has distinct camp characteristics. Although ideology covers all aspects of social life, in the confrontation between countries or political groups, the struggle around belief guidance, attitude acquisition, and concept assimilation is particularly fierce, becoming the focus of cognitive domain operations.

Shaping and guiding political cognition, seizing the initiative to break and establish beliefs. The confrontation between countries or political groups is not only a confrontation of national strength, but also a confrontation of national will, and the confrontation of political beliefs bears the brunt. Shaping and guiding political cognition aims to consolidate or destroy political consensus, strengthen or shake political beliefs, and expand or disintegrate political camps. In cognitive domain operations, through the cognitive guidance of various aspects such as the legitimacy of the ruling party, the rationality of political ideas and systems, and the health of the political ecology, cultivate feelings such as recognition or denial, support or hatred of political positions, beliefs, and practices, and lay a political cognitive layout that is beneficial to oneself and detrimental to the enemy. Political cognition is related to the survival foundation of a country or organization, and is the primary focus of cognitive domain operations.

Shape and guide war cognition, seize the leadership of war attitude. A country can live without war but cannot live without war awareness. War cognition is the basis for the formation and development of will, concept, psychology, and thinking of individuals, organizations, and countries in the war cycle. Through the guidance of cognition of the nature, properties, and legal concepts of war, it is a key issue to build a war cognition thinking system, guide the evaluation trend of the rationality, justice, and legitimacy of war, promote the formation of support or opposition to the possible war, and regulate the fluctuation of the willingness to assume war obligations. War cognition affects war attitude, and the struggle for control over it is a task that must be taken seriously in cognitive domain operations.

Shape and guide value cognition, and seize the control of emotional will. Values ​​affect people’s judgment of beauty, ugliness, right and wrong, and social behavior orientation. In terms of identifying things and judging right and wrong, people’s emotions always tend to support propositions with similar values. Value cognition permeates every corner of life. Through the dissemination of ethical and moral concepts, standards of beauty, ugliness, good and evil, and literary and artistic viewpoints, the competition for the right to guide value concepts, the right to guide life patterns, and the right to judge traditional inheritance is frequent and fierce. In real life, different values ​​often penetrate and entangle with each other. The essence of shaping and guiding value cognition is to strive for the recognition of social emotions, which is a regular task of cognitive domain operations.

Focus on the social psychology of the task of creating momentum

Social psychology provides a perceptual and experiential basis for cognition, and it is formed on the basis of daily life, social activities, practical insights, etc. Social psychological guidance often promotes unpredictable changes in the real situation. It is one of the common modes of confrontation between the two sides, especially in non-military conflict periods, and it is also a task that must be taken seriously in cognitive domain operations.

Guide national psychology and regulate national emotions. National psychology is one of the social psychology that is most likely to cause conflict and confrontation. Attacking national self-esteem can breed national inferiority complex and easily split and disperse. Improving national self-esteem can enhance national cohesion, but the expansion of national self-esteem can easily lead to extreme racism, national chauvinism, etc.; the differences in status, interests, culture, customs, and life among different ethnic groups within the country provide opportunities for people with ulterior motives to stir up national confrontation, while the same living space and cooperation process lay the foundation for eliminating prejudice and even cohesion and tolerance among ethnic groups. The result depends on cognitive guidance. National psychological guidance is sensitive and easy to get out of control, which has a direct impact on social stability. It is a task that needs to be focused on in cognitive domain operations.

Guide group psychology and increase or decrease opposition awareness. Groups generally refer to people of the same kind, such as ethnic groups, regions, classes, professional groups, and even civil groups, non-governmental organizations, etc. If groups are subjectively defined based on the standard of “convergence”, then the “differences” between groups exist objectively. This difference may be political or economic status, or it may be cultural ideas, regional concepts, or other. Guiding the cognition of differences to promote the opposition psychology of different groups such as party opposition, regional opposition, professional opposition, and rich-poor opposition will not only damage the internal unity of the country, but also accumulate and increase the dissatisfaction of all sectors of society with the political authorities, laying the groundwork for instigating social unrest and division. In cognitive domain operations, attention needs to be paid to this kind of social psychology.

Guiding individual psychology and influencing social emotions. In cognitive domain operations, individual psychological guidance is divided into two situations. One is the psychological guidance of important figures, such as sensitive professionals, social intellectuals, academic elites, successful business people, etc. The struggle for their political stance, emotional attitude, etc. is an issue that both sides of the confrontation need to focus on. The other is the use of phenomena that easily trigger individual psychological resonance. For example, in public crises, major accidents, natural disasters, and even some criminal incidents and emergencies in life, intentionally guiding certain emotions may cause group polarization due to the individual’s herd effect, thereby causing changes in public opinion and even social unrest. Both aspects are content that cognitive domain operations need to pay attention to.

Targeting the critical task of wartime cognition

Cognitive domain operations precede military operations and end with them. In wartime, cognitive domain operations are carried out around the achievement of military objectives, coordinated with military operations, and mutually supportive, with the characteristics of violent coercion. In this stage of cognitive domain operations, “offensive” and “defensive” actions are carried out simultaneously, with the combined effects of weapons and propaganda, and the emergence of “enticement”, “attack”, “cheating”, and “control”. This is the key stage of cognitive domain operations.

Attack the enemy’s mind and induce cognition. Cognitive attacks in wartime are mainly carried out to weaken the enemy’s will to resist and induce the enemy to make wrong decisions. Targeted attacks are used to shake the enemy’s will to resist and front-line commanders and fighters, and information deception interference is used to induce decision-making; for armed forces, which are mainly military forces, the use of force to deter and deter is dominant, and the use of public opinion warfare and other style actions and emerging technical means are used to shake their belief in participating in the war, cause panic, undermine their military morale, and dominate their action patterns; for social support forces, strong information is delivered through large-scale military exercises, equipment tests, and propaganda on the lethality of weapons to undermine confidence, induce panic through selective target strikes and the dissemination of battle conditions, and seek understanding through publicity of one’s own humanitarian actions in the war and related international comments.

Build a strong defense line, gather hearts and minds to control the situation. The focus of cognitive defense in wartime is to build a strong defense line of “heart”, “will” and “intelligence” to prevent the loss of fighting spirit under the stimulation of drastic changes in the situation or environment. Education and publicity are the basic ways of cognitive defense in wartime. For the participating forces, stimulate enthusiasm for participation through mobilization and incentives, clarify the truth by refuting rumors, establish the belief in victory by publicizing the results of the war, mobilize morale by setting up models, etc.; for the supporting forces, establish a sense of mission, responsibility and obligation for the whole people through education and publicity on the justice, rationality and legality of the war, stimulate the psychology of common hatred of the enemy by exposing the enemy’s brutal behavior, and stimulate enthusiasm for supporting operations by publicizing the deeds of local participation in the war and supporting the front, etc.

Expand the camp and eliminate hidden dangers. Creating a favorable cognitive atmosphere and providing support for the expansion of one’s own camp is an important aspect of cognitive domain operations during wartime that must be done. In particular, although the pursuit of international support forces is mainly based on political and diplomatic activities, the widespread spread of one’s own positions, ideas, attitudes, etc. often leads to changes in international civil attitudes, which in turn affects decision-making at the political level and provides support for the expansion of one’s own camp. In addition, cognitive domain operations during wartime have an important task that runs through the entire war, that is, to eliminate the adverse hidden dangers caused by various accidents in the war. Especially in the later stages of the war, as the destructive effects of the war appear and spread, people’s cognitive systems will inevitably be repeatedly impacted by different information. During this period, ideological guidance, social psychological shaping, and individual psychological counseling are needed to ensure the consolidation of the results of the war. In cognitive domain operations, as the sound of gunfire dissipates, the horn of a new round of cognitive domain operations may sound again, and there must be no slackness.

現代國語:

要點提示

●認知域作戰著重全維度攻擊,既包括「平時」的認知滲透,也包括「戰時」的認知迫誘。

●戰時認知域作戰圍繞著軍事目的的達成而展開,與軍事行動配合實施、相互支持。

●在認知域作戰中,隨著槍砲聲的消散,新一輪認知域作戰的號角可能再次吹響,不能有絲毫懈怠。

認知域作戰是在意識思維層面進行的對抗,透過選擇性加工和傳遞訊息,影響判斷、改變觀念、爭奪人心,進而引導現實態勢向有利於己的方向發展。從認知塑造來看,認知域作戰著重全維度攻擊,既包括「平時」的認知滲透,也包括「戰時」的認知迫誘。因而,認知域作戰沒有明晰的平、戰界線;同時,根據政治或軍事目的需要,其作用對象可以是個人、組織甚至國家。因此,認知域作戰應該樹立平戰一體、軍地一體、跨域融合、連動制勝的觀念,並依此整理基本任務。

聚焦意識形態的佈局任務

意識形態是「系統性、自覺地反映社會經濟形態和政治制度的思想體系」。意識形態決定了認知的理性根基,具有鮮明的陣營特徵。儘管意識形態涵蓋社會生活的各個層面,但在國家或政治團體之間的對抗中,圍繞著信念引導、態度爭取、觀念同化等方面的鬥爭尤為激烈,成為認知域作戰重點關注的任務。

塑造引導政治認知,奪取信念破立主控權。國家或政治集團之間的對抗不僅是舉國之力的對抗,也是舉國之志的對抗,政治信念的對抗首當其衝。塑造引導政治認知旨在凝聚或破壞政治共識、堅定或動搖政治信念、拓展或瓦解政治陣營。認知域作戰中,透過對執政黨的合法性、政治理念和製度的合理性、政治生態的健康性等各方面的認知引導,培植對政治立場、信念、實踐等的認同或否定、擁護或憎恨等感情,舖設有利於己、不利於敵的政治認知佈局。政治認知關係到國家或組織的生存根基,是認知域作戰的首要關注目標。

塑造引導戰爭認知,奪取戰爭態度領導權。國可無戰事但不能無戰識。戰爭認知是個人、組織、國家在戰爭週期中意志、觀念、心理、思考形成和發展的基礎。透過對戰爭的本質、性質、法理觀念等的認知引導,建構戰爭認知思維體系,引導戰爭合理性、正義性、合法性的評價走向,推動對可能發生戰爭支持或反對態度的形成,調控承擔戰爭義務意願的漲落,是戰爭認知引導的關鍵問題。戰爭認知影響戰爭態度,對其主控權的爭奪是認知域作戰必須重視的任務。

塑造引導價值認知,奪取情感意志控領權。價值觀影響人的美醜是非評判和社會行為取向,在認定事物、判定是非方面,人的情感總是傾向於支持價值觀相近的主張。價值認知滲透於生活的各個角落,透過倫理道德觀念、美醜善惡標準、文學藝術觀點等的傳播,圍繞價值觀念導引權、生活模式導向權、傳統傳承評判權等的爭奪頻繁且激烈。現實生活中,不同的價值觀念往往會互相滲透糾纏。塑造引導價值認知的實質是爭取社會情感的認同,是認知領域作戰的經常性任務。

緊盯社會心理的造勢任務

社會心理為認知提供了感性和經驗基礎,它在日常生活、社會活動、實踐感悟等經驗基礎上形成。社會心理引導常會推動現實情勢產生難測變化,是雙方對抗特別是非軍事衝突期的慣用模式之一,也是認知域作戰必須重視的任務。

導引民族心理,調控民族情緒。民族心理是最容易引發衝突對抗的社會心理之一。打擊民族自尊心可滋長民族自卑心理而易分裂澇散,提升民族自尊心可增強民族凝聚力,但民族自尊心的膨脹又易引發極端種族主義、民族沙文主義等的產生;國家內部不同民族間地位、利益、文化、風俗、生活等的差異性,為別有用心之人挑動民族對立情緒提供了可乘之機,而相同的生存空間、合作歷程等又奠定了民族間消除偏見甚至凝聚包容的基礎,結果取決於認知導引。民族心理導引敏感且容易失控,對社會穩定有直接影響,是認知域作戰需要重點關注的任務。

導引群類心理,漲消對立意識。群類泛指同類的人,如民族、地理、階級、職業團體甚至民間團體、非政府組織等等。如果說群類是以「趨同」為標準而主觀劃定的,那麼群類之間的「差異」就是客觀存在的。這種差異性可能是政治、經濟地位,也可能是文化思想、地域觀念抑或其他。導引差異認知推動黨派對立、地區對立、職業對立、貧富對立等不同群體對立心理,不但會對國家內部團結造成破壞,也會累積增加社會各界對政權當局的不滿情緒,為策動社會動盪分裂留下伏筆。認知域作戰中,需要對此類社會心理予以關注。

導引個體心理,影響社會情緒。認知域作戰中,個體心理導引區分為兩種情境。一種是重要人物心理導引,如敏感工作者、社會公知、學術菁英、商業成功人士等,對其政治立場、情感態度等的爭取,是對抗雙方需要重點關注的議題。一種是對易引發個體心理共鳴現象的利用。如公共危機、重大事故、自然災害甚至生活中的一些犯罪事件、突發情況等,有意導引某種情緒則可能因個體的從眾效應而產生群體極化現象,從而引發民意變化甚至社會動盪。這兩個面向都是認知域作戰需重視的內容。

瞄準戰時認知的關鍵性任務

認知域作戰先於軍事行動開展而後於軍事行動結束。戰時認知域作戰圍繞著軍事目的的達成而展開,與軍事行動配合實施、相互支撐,具有暴力脅迫特徵。此階段的認知域作戰,「攻」「防」行動同步開展,武器影響、宣傳影響綜合致效,「誘」「打」「騙」「控」等手段層出不窮,是認知域作戰的關鍵階段。

攻心奪志,迫誘認知。戰時認知攻擊主要圍繞在削弱敵抵抗意志、誘導敵錯誤決策。針對敵方決策層、一線指戰員等,透過靶向攻擊動搖抵抗意志,透過資訊欺騙幹擾誘導決策;針對以軍隊為主的武裝力量,以武力打擊震懾主導,綜合運用輿論戰等樣式行動以及新興技術手段,動搖其參戰信念、引發其恐慌情緒、瓦解其軍心士氣、支配其行動模式;針對社會面支撐力量,透過大型軍事演習、裝備試驗、宣傳武器殺傷效能等傳遞強硬訊息打擊信心,透過選擇性目標打擊、戰況傳播等誘發恐慌情緒,透過宣傳己方戰爭中的人道行為和國際相關評論爭取理解等。

築牢防線,凝心控局。戰時認知防守的重點是築牢「心」「志」「智」防線,防止在局勢或環境劇烈變化的刺激下喪失鬥志。教育和宣傳是戰時認知防禦的基本途徑。針對參戰力量,透過動員激勵激發參戰熱情,透過批駁謠言澄清事實真相,透過宣傳戰果確立必勝信念,透過樹立典型調動士氣等等;針對支撐力量,透過戰爭的正義性、合理性、合法性教育宣傳,建立全民使命感、責任感、義務感,透過揭露敵方的殘暴行為激發同仇敵愾心理,透過宣傳地方參戰支前事蹟激發支援作戰熱情等等。

拓展陣營,消除隱憂。營造有利的認知氛圍,為己方陣營拓展提供支撐,是戰時認知領域作戰必須有所作為的重要面向。特別是國際支持力量的爭取,雖然在途徑上主要以政治、外交等活動為主,但己方立場、理念、態度等的廣泛擴散,常會帶動國際民間態度的轉變,進而影響到政治層面的決策,為己方拓展陣營提供支撐。此外,戰時認知域作戰還有一項貫穿戰爭始終的重要任務,即消除戰爭中各種意外帶來的不利隱患。特別是戰爭後期,隨著戰爭破壞效應的顯現擴散,人的認知體係必將受到不同資訊的反覆衝擊。這段時期,需要意識形​​態引領、社會心理塑造、個體心理疏導等配合致效,方能確保戰果的鞏固。在認知域作戰中,隨著槍砲聲的消散,新一輪認知域作戰的號角可能再次吹響,不能有絲毫懈怠。

(編按:王子鋒、黃子娟)

中國原創軍事資源:https://military.people.com.cn/n1/2022/1005/c1011-32539888.html

Chinese Military’s Embrace of Artificial Intelligence: How to Revolutionize Future Warfare

中國軍隊擁抱人工智慧:如何徹底改變未來戰爭

現代英語:

Source: China National Defense News Author: Chen Hanghui Editor-in-charge: Qiao Nannan 2018-01-02 08:29:25

At present, the world is on the eve of the intelligent revolution, and human society is moving from the “Internet +” era to the “Intelligence +” era. In recent years, driven by big data, new algorithms and supercomputing, artificial intelligence is changing and even subverting every industry it touches, and war is no exception. From underwater submersibles to drone swarms, from predictive maintenance software to intelligent decision-making assistants, artificial intelligence is affecting different areas of war with unprecedented breadth and depth, promoting a new round of military reforms, and the form and appearance of war are quietly changing.

Temple planning comes first, war design becomes more sophisticated

“The Art of War” by Sun Tzu says: “He who plans for victory before the battle has made many calculations; he who plans for defeat before the battle has made few calculations.” Looking at the history of human warfare, “He who plans more wins, and he who plans less loses” is an immutable theorem.

Future wars will increasingly rely on “temple calculations”. Artificial intelligence can enhance the effectiveness of war prediction in at least two ways:

First, it can more accurately calculate and predict the outcome of wars. With the support of advanced algorithms and supercomputing capabilities, the calculation and prediction results of artificial intelligence systems are more accurate than those of the human brain. Second, with the help of war game systems, combat plans can be tested and optimized more effectively. For example, war game systems that incorporate artificial intelligence can engage in man-machine confrontation with humans, which helps people find problems and find weaknesses. In particular, after introducing algorithms such as deep learning into war game systems, the behavior of intelligent systems will become profound and varied, which will help break through the established thinking of humans, enhance the confrontation and authenticity of war game simulations, and achieve the purpose of optimizing solutions. In addition, intelligent war game systems can also be used to conduct machine-machine confrontations to improve the efficiency of simulations.

In February 2015, the U.S. Department of Defense issued a memorandum titled “Wargames and Innovation,” proposing to introduce machine learning into wargames. Currently, Rand Corporation and Raytheon have already begun attempts in this regard. Once mature intelligent software is applied to wargames, it will not only improve the level of optimization plans and prediction of war situations, but also more accurately predict the size of the troops involved in the war, ammunition consumption, duration and support requirements, etc., significantly improving the ability to design wars.

Speed ​​is the key to success. The pace of operations has never been faster.

In the information age, wars follow the principle of “the fast eats the slow”. In the several wars since the Gulf War, the key to the US military’s repeated victories is that it always achieves “the fastest move”.

Nowadays, the reaction speed of artificial intelligence has completely “crushed” the human brain. In 2016, in a simulated air battle, the “Alpha” intelligent software developed by the University of Cincinnati in the United States controlled the F-15 fighter and defeated the F-22 fighter piloted by humans. The reason is that the reaction speed of the intelligent software is 250 times that of the human brain! In October this year, the Geospatial Intelligence Center of the University of Missouri in the United States announced a research result showing that the center has developed an algorithm model based on deep learning technology, which can search and identify missile launch sites within nearly 90,000 square kilometers in the southeastern coastal area of ​​a certain country within 42 minutes, which is 85 times faster than human analysts and has an accuracy rate reaching the level of expert image analysts.

For this reason, in recent years, the US, Russian and other militaries have turned their attention to artificial intelligence, intending to use the speed advantage of artificial intelligence to shorten their decision-making cycle on the battlefield and firmly grasp the operational advantage. In July this year, Russian weapons manufacturer Kalashnikov announced that it had developed a fully automatic combat module based on artificial neural networks, which can achieve destruction upon detection. In addition, the US military is developing intelligent tools such as automated data analysis tools, automatic target recognition software, airborne intelligent decision assistants, and digital air combat planners, intending to reduce the burden of intelligence and combat personnel at all stages of the decision-making cycle and improve decision-making efficiency. In November this year, the head of the US Department of Defense’s algorithmic warfare project called for: Any weapon system purchased by the US military in the future should be integrated with artificial intelligence.

It can be predicted that as more and more intelligent weapon systems are deployed on the battlefield, combat response time on the battlefield will become shorter and shorter, combat actions will become unprecedentedly fierce, and will eventually exceed human understanding and response capabilities.

Autonomous confrontation, the combat mode has changed

Since the 20th century, the development of detection technology and the advancement of perception technology under the wave of informatization have promoted the birth of the man-machine collaborative combat chain of “sensor-shooter-weapon platform”.

With the development of artificial intelligence technology, intelligent weapon systems that can automatically identify, lock and strike targets are gradually emerging, and can replace humans to execute simple decision-making commands. Such as the US military’s ship-borne “Aegis” system, the Israeli military’s “Iron Dome” system, the Russian military’s “Arena” active protection system, the French military’s “Shark” system, etc. However, the intelligence level of these systems is not high at present, and the autonomous combat mode is usually the last option.

In the future, with the advancement of intelligent technology groups such as sensor technology, new algorithms, and big data technology, the autonomous action capabilities of weapon systems will be greatly improved, and the situation of autonomous confrontation of weapon systems will become more and more common. In specific combat fields, such as cyberspace and electromagnetic spectrum, humans can only rely on intelligent weapon systems for autonomous confrontation. At the same time, with the emergence of hypersonic weapons and cluster warfare, wars will enter the era of “instant kills” and “group fights”, and using intelligent systems to autonomously fight is almost the only way out.

In the future, as the autonomous confrontation of intelligent weapon systems becomes the new normal, the combat mode will gradually change from “man in the loop” to “man on the loop”. The main characteristics of the new mode can be summarized as “in command, out of control”, that is, in most cases, human warriors play the role of supervisors, responsible for inputting target characteristics and setting rules of engagement before the war, observing battlefield engagements, etc. It should be pointed out that in the new mode, humans are still the final decision makers, and human warriors will autonomously enter and exit the combat chain as needed and take necessary intervention measures. The biggest advantage of the new mode is that it can free human warriors from complex decisions and focus on major decisions and key tasks. How to ensure that humans can take over control at any time will be the biggest challenge facing the development of human-machine collaboration technology in the future.

Cluster warfare brings new life to the war of attrition

In the era of cold weapons and mechanized warfare, attrition warfare was the basic way of fighting, and “eating more and eating less” was the basic rule for winning on the battlefield.

Since the 1970s, with the emergence of stealth technology, satellite positioning systems, and precision-guided weapons, the “more, less” war principle has been completely broken. In recent years, with the rapid development of sensor technology, bionics, miniaturization technology, and artificial intelligence technology, the concept of swarm warfare has once again attracted the attention of the military of various countries. The so-called swarm warfare refers to the centralized deployment of hundreds or thousands of intelligent weapons to attack targets from multiple directions. Compared with traditional combat methods, swarm warfare has four major advantages:

First, the miniaturization of a single platform greatly improves battlefield survivability; second, it is decentralized, and the loss of an individual does not affect the overall function; third, it is low-cost, large in quantity, and the combat cost-effectiveness is multiplied; fourth, it can implement saturation attacks and paralyze the enemy’s defense system. It is not difficult to see that cluster warfare can achieve the effect of “quantity is quality”, and therefore, it is considered a war of attrition in the intelligent era.

The U.S. military sees swarm warfare as a game-changer in warfare, and believes that swarm warfare is particularly suitable for dealing with anti-access/area denial threats. Currently, the U.S. Department of Defense is simultaneously targeting underwater, surface, and air, and promoting multiple swarm research and development projects, striving to have multi-dimensional space swarm combat capabilities. In addition, the various branches of the U.S. military are competing to develop swarm combat concepts. For example, the Marine Corps envisions using unmanned combat swarms as landing pioneers to perform tasks such as battlefield perception, mine clearance, and obstacle removal, creating conditions for Marines to rush ashore.

From underwater “wolf packs” to ground “ant swarms” to aerial “bee swarms”, swarm warfare will be prevalent in the future intelligent battlefield. “Human wave tactics” will be re-emerged in a new look, and the balance of the war of attrition will be extremely tilted towards the side with swarm warfare capabilities. The following scene may appear in the future: on one side, there are swarms of intelligent machines covering the sky and the sun, and on the other side, there are panicked, lonely human warriors…

現代國語:

當前,世界正處於智慧革命的前夜,人類社會正從「互聯網+」時代邁入「智能+」時代。近年來,在大數據、新型演算法和超級運算的推動下,人工智慧正在改變乃至顛覆所觸及的每個產業,戰爭也不例外。從水下潛航器到無人機集群,從預測性維修軟件到智慧決策助手,人工智慧正以前所未有的廣度與深度影響著戰爭的不同領域,推動著新一輪軍事變革,戰爭形態和麵貌正悄然被改變。

廟算為先,戰爭設計日益精細

《孫子兵法》曰:「夫未戰而廟算勝者,得算多也;未戰而廟算不勝者,得算少也。」縱觀人類戰爭史,「多算勝,少算不勝」是亙古不變的定理。

未來戰爭對「廟算」的依賴度有增無減,人工智慧至少可以從兩方面增強戰爭預判的有效性:

一是更精確地計算並預測戰爭結果。在先進演算法和超算能力的支撐下,人工智慧系統的計算和預測結果比人腦更加準確。二是藉助兵棋系統能更有效檢驗和優化作戰方案。例如,融入人工智慧的兵棋系統能夠和人開展人機對抗,有助於人們發現問題、找出弱項。特別是將深度學習等演算法引入兵棋系統後,智慧系統的行為將變得深邃多變,有助於突破人類的既定思維,增強兵棋推演的對抗性和真實性,達到優化方案的目的。此外,還可利用智慧兵棋系統開展機機對抗,提升推演的效率。

2015年2月,美國國防部推出了《兵棋推演與創新》備忘錄,並提出將機器學習引入兵棋推演。目前,蘭德公司、雷神公司已經開始這方面的嘗試。一旦將研發成熟的智慧軟件應用於兵棋推演,不僅能提高優化方案和預測戰局的水平,還能更精確地預測戰爭涉及的兵力規模、彈藥消耗、持續時間和保障需求等,顯著提升對戰爭設計的能力。

速度製勝,作戰節奏空前加快

在資訊時代,戰爭遵循「快吃慢」制勝法則,海灣戰爭以來的幾場戰爭中,美軍之所以能夠屢戰屢勝,其關鍵在於始終做到了「棋快一招」。

如今,人工智慧的反應速度已經完全「碾壓」人腦。 2016年,在一次模擬空戰中,美國辛辛那提大學研發的「阿爾法」智慧軟體操控F-15戰機,擊敗了由人駕駛的F-22戰機,原因就在於該智慧軟件的反應速度是人類大腦反應速度的250倍!今年10月,美國密蘇里大學地​​理空間情報中心公佈了一份研究成果顯示,該中心基於深度學習技術開發了一種演算法模型,能夠在42分鐘內搜尋並識別出某國東南沿海地區近9萬平方千米內的導彈發射場,速度比人類分析師快85倍,準確率達到專家級影像分析師水準。

正因如此,近年來,美、俄等軍隊將目光投向了人工智慧,意圖利用人工智慧的速度優勢,縮短己方在戰場上的決策週期,牢牢掌握行動優勢。今年7月,俄羅斯武器製造商卡拉什尼科夫公司宣稱,已開發出基於人工神經網絡的全自動戰鬥模塊,能做到發現即摧毀。另外,美軍則在研發自動化數據分析工具、自動目標識別軟件、機載智慧決策助理、數字化空中作戰規劃員等智慧工具,意圖在決策週期各環節上減輕情報和作戰人員的負擔,提高決策效率。而在今年11月,美國國防部演算法戰項目負責人呼籲:今後美軍採購的任何武器系統都應融入人工智慧。

可以預見,今後隨著越來越多的智慧化武器系統投入戰場,戰場上的作戰反應時間將越來越短,交戰行動將空前激烈,並最終超越人類的理解和應對能力。

自主對抗,作戰模式引發變革

20世紀以來,偵測技術的發展和資訊化浪潮下感知技術的進步,推動了「傳感器-射手-武器平台」這一人機協作式作戰鏈誕生。

隨著人工智慧技術的發展,能夠自動識別、鎖定和打擊目標的智慧化武器系統逐漸出現,並能取代人類執行簡單的決策命令。如美軍的艦載「宙斯盾」系統、以軍的「鐵穹」系統、俄軍的「競技場」主動防護系統、法軍的「鯊魚」系統,等等。不過,這些系統的智慧化程度目前還不高,自主交戰模式通常是最後一個選項。

未來,隨著傳感技術、新型演算法、大數據技術等智慧化技術群的進步,武器系統的自主行動能力將大幅提升,武器系統自主對抗的情況也越來越普遍。而在特定作戰領域,如網路空間和電磁頻譜領域,人類只能依托智慧化武器系統進行自主對抗。與此同時,隨著高超音速武器和集群作戰的出現,戰爭將進入「秒殺」和「群架」時代,利用智慧系統自主迎戰幾乎是唯一出路。

未來,隨著智慧化武器系統的自主對抗成為新常態,作戰模式將逐漸從「人在迴路中」轉變為「人在迴路」。新模式的主要特徵可概括為“指揮之中、控制之外”,即在多數情況下,人類戰士扮演監督員的角色,負責在開戰前輸入目標特徵和設定交戰規則,觀察戰場交戰情況等。需要指出的是,在新模式下人依然是最終決策者,人類戰士將根據需要自主進出作戰鏈,採取必要的干預措施。新模式的最大優勢是可以使人類戰士從紛繁複雜的決策中解放出來,聚焦於主要決策和關鍵任務。如何確保人類能夠隨時接管控制權,將是今後一段時期內,人機協同技術發展面臨的最大挑戰。

集群作戰,讓消耗戰重煥生機

在冷兵器和機械化戰爭時代,消耗戰是基本作戰方式,「多吃少」是戰場制勝的基本法則。

自上世紀70年代以來,隨著隱形技術、衛星定位系統、精確制導武器的登場,「多吃少」的戰爭法則被徹底打破。近年來,隨著傳感技術、仿生技術、微型化技術和人工智慧技術取得長足發展,集群式作戰構想再次受到各國軍隊的重視。所謂集群作戰,是指集中部署數百上千個智慧化武器,從多個方向對目標實施攻擊。與傳統作戰方式相比,集群作戰具備四大優勢:

一是單一平台小型化,戰場生存能力大幅提升;二是去中心化,個體的損失不影響整體功能;三是成本低廉,數量龐大,作戰效費比成倍提高;四是可實施飽和攻擊,癱瘓敵防禦體系。不難看出,集群作戰能夠達到「數量即質量」的效果,因此,被認為是智慧時代的消耗戰。

美軍將集群作戰視為戰爭遊戲規則的改變者,認為集群作戰尤其適合應對反介入/區域拒止威脅。當前,美國國防部同時瞄準水下、水面和空中,推進多個集群研發項目,力求具備多維空間集群作戰能力。此外,美軍各軍種正競相開發集群作戰概念,如海軍陸戰隊設想讓無人作戰集群充當登陸先鋒,執行戰場感知、排雷除障等任務,為陸戰隊員搶灘上陸創造條件。

從水下“狼群”到地面“蟻群”再到空中“蜂群”,集群作戰將在未來智慧化戰場上大行其道。 「人海戰術」將改頭換面重新登場,消耗戰的天平將向具備集群作戰能力的一方極度傾斜。未來可能出現這一場景:一邊是遮天蔽日、蜂擁而至的智慧機器,另一邊是驚慌失措、形單影隻的人類戰士…

中國原創軍事資源:http://www.mod.gov.cn/gfbw/jmsd/4801288.html

Chinese Military’s Cognitive Warfare: The Race to Dominate the Intelligent Age

中國軍隊的認知戰:主宰智慧時代的競賽

中國軍網 國防部網 // 2020年3月19日 星期四

現代英語:

The widespread use of artificial intelligence technology in the military field has given rise to a new form of intelligent warfare, cognitive warfare. When the winning mechanism is integrated with the characteristics of the intelligent era, a new way to win cognitive warfare is formed. Optimal decision-making, vision-driven, clustered energy release, and unmanned autonomy based on cognition are typical characteristics of winning wars in the intelligent era, and have become the key to taking the initiative and winning in wars. The fundamental way to win in the intelligent era lies in cognition, and cognitive advantage is the basis for winning. Moreover, when the strength of the two opposing sides is equal, the advantage difference formed by the cognitive gap becomes the main factor for winning.

Winning through optimal decision-making based on intelligent cognition

Decision-making is the key to victory in modern warfare, not only because of its important role, but also because in the OODA (observation, judgment, decision-making, action) loop, decision-making is the bottleneck that restricts the speed of the cycle. Intelligent cognition that integrates knowledge and action is a powerful means to break this bottleneck.

Optimal decision-making based on intelligent cognition means forming a cognitive advantage over the enemy through artificial intelligence algorithms, and then transforming the cognitive advantage into a decision-making advantage, thereby gaining the initiative and winning. In the war of the intelligent era, intelligent means provide the intelligent cognitive capabilities required for war to the greatest extent possible, comprehensively perceive, reason, and judge the strength, time and space position of the physical domain of the two opposing sides on the battlefield, the power system and command system of the information domain, and the plan and possible actions of the cognitive domain, which continuously provide “input” data for the algorithm; the superior algorithm quickly analyzes, judges and compares the results of intelligent cognition, finds out the weak links or fatal points of the enemy, gives full play to our advantages and characteristics, and forms a scientific, reasonable and executable decision-making plan. At the same time, it also combines the combat capabilities and combat characteristics of the two opposing sides to further amplify the cognitive advantage, so as to achieve “second-level advantage becomes a winning advantage” and “a little advantage becomes a winning advantage”.

In this process, intelligent cognition is the foundation. It is the “data” of the superior algorithm, providing the correct source for correct decision-making and guiding the direction of operational decision-making advantage. Without intelligent cognition, algorithms and decisions will face the dilemma of “cooking without rice”, not to mention algorithm advantages and decision-making advantages. Intelligent algorithms are the key. Its input is cognitive thinking and its output is decision-making plans. It is the specific method and intermediate bridge for cognitive advantages to transform into operational decision-making advantages, and plays an increasingly important role in modern warfare. To this end, driven by intelligent technology, all countries have elevated the “algorithm warfare” that supports decision-making effectiveness to the level of “war”. In 2017, the US Department of Defense announced the establishment of a special “algorithm warfare” cross-functional team to unify the leadership of the US military in conducting “algorithm warfare” research and application. Decision-making advantage is the core, the true embodiment of cognitive advantage in the command field, the touchstone for testing the effectiveness of algorithms, and the ultimate display platform for intelligent cognition and intelligent algorithms. The wisdom of a commander is incomparable to that of a machine. It is integrated with profound decision-making experience and matched with unique personal command art. The decision-making strategies formed are ever-changing and difficult to capture. Only when the superb decision-making art is amplified and enhanced by intelligent algorithms can a truly winning decision-making advantage be formed.

Vision-driven success based on goal recognition

The war stage is never a performance of a single force, but a joint effort of multiple forces. How to make the various forces involved in the war work together and the various actions converge into one force is a necessary condition for winning the war. Therefore, before the war, it is necessary to formulate a detailed combat plan, anticipate various possible situations, and repeatedly organize combat coordination and targeted training for various actions. However, during the implementation of the operation, changes in the battlefield situation, changes in the intentions of superiors, changes in core tasks, changes in friendly forces, etc., make it difficult for this traditional coordination method to achieve the expected results, and often become a restrictive factor affecting the progress and outcome of the war.

In fact, every commander and every participating force has a beautiful vision for the combat mission in their hearts, and they may have an action plan to realize the beautiful vision. If these visions can be unified and spontaneously integrated into the overall action, then coordination will no longer be a bottleneck, and the concept of vision-driven will come into being. Vision is the prospect that people yearn for, the picture that people actively strive for and hope to achieve, and a strong expression of will, including future goals, missions and core values. Behavior driven by vision is no longer a compliance behavior constrained by rules and regulations, nor is it an investment behavior agreed upon by obligations and rights. It is more of a spontaneous and conscious dedication behavior. This is a state of mind, not just investment, but a feeling that one must take full responsibility for the realization of the vision. The role of this subjective initiative is unimaginable. The latest research results show that the reason why mental work causes fatigue is because people are subjectively bored with the mental work they are engaged in. Once the subjective initiative is restored and maintained, mental work will remain efficient for a long time. This is not only a source of power for innovation, but also a source of power for vision-driven.

The generation of vision-driven is based on cognitive ability and is determined by the level of intelligent technology. For war, a complex giant system with obvious social characteristics, common cognition supported by intelligent technology makes vision-driven possible. Each participating force, based on the core tasks and basic requirements clearly defined by the commander, develops its own combat operations, clarifies the relationship with other forces, and clarifies the specific list of support or support, thereby forming an individual action plan. The commander collects the individual action plans of each participating force, conducts comprehensive analysis and comparison, examines whether the core tasks can be completed, retains the reasonable content of the individual vision as much as possible, forms a flexible group vision implementation plan, and leaves each participating force with a large space to complete the combat mission independently. Driven by individual visions, all commanders and combat forces in combat give full play to their individual enthusiasm and initiative, and creatively play their personalized characteristics and roles; driven by common visions, they actively coordinate and cooperate with other forces to jointly complete combat missions.

Winning through cluster release based on group cognition

Intelligent swarm warfare is a popular topic at present. In fact, swarm is not a new concept. The inspiration comes from nature. Swarm behavior is a kind of collective behavior of organisms. Insects, birds, fish, etc. in the biological world all show swarm behavior. In particular, this swarm behavior can resist enemies that are several times larger than themselves and obtain more food sources, which is even more amazing. It is difficult for people to explore the activity patterns of the brains and nerves of these organisms, and it is difficult to directly grasp the root cause of swarm behavior. However, we can continuously dig out the organizational principles and operation methods of swarm actions from their performance patterns, and use artificial intelligence technology and modern network technology to apply them to human social life and the military field, and become the way to win the war in the intelligent era.

Cluster energy release based on group cognition means integrating a certain number of low-cost, miniaturized, unmanned combat platforms into a unified combat cluster, and achieving common combat goals through targeted and precise energy release. It is a comprehensive embodiment of the philosophical principle that quantitative change leads to qualitative change, and group cognition is the fundamental motivation for qualitative change. Without group cognition, the cluster can only be a quantitative change, and it is difficult to produce substantial changes in combat effectiveness. The reason why cluster energy release can win is that it has a multi-dimensional saturation attack capability that wins by quantity, distributed detection and attack capabilities, high anti-destruction and continuous strike capabilities, and system precision and intensive energy release capabilities, thus forming a subversive winning advantage.

Swarm combat is based on group cognition, which requires that in rapid action, each individual should accurately and comprehensively recognize his or her position and status in the group, and provide cognitive capabilities for the group or subgroup to which he or she belongs; the group or subgroup should accurately and comprehensively recognize the status of its internal members, accurately and comprehensively recognize its own status, and provide cognitive capabilities for the group to which it belongs. Group cognition in the intelligent era allows combat to simulate the collaborative behavior and information interaction methods of swarming organisms, showing the cluster characteristics of decentralization, autonomy, cluster recovery, and function amplification, and releasing combat effectiveness and completing combat tasks in an autonomous and intelligent overall collaborative manner.

Unmanned autonomous victory based on active cognition

In the war of the intelligent era, intelligent unmanned systems will fill the entire intelligent battlefield, and people will be less and less on the battlefield. Intelligent unmanned combat systems will become the new force of the intelligent battlefield. They have capabilities that humans cannot achieve, such as stronger battlefield adaptability, stronger weapon control ability, stronger reaction speed, stronger continuous combat capability, stronger self-protection ability, and stronger self-regeneration ability. In addition, they do not have the psychological pressure, physiological reaction to bloody scenes, sentimental human emotions, and fear of war-weariness and cowardice formed by humans in the face of fierce battlefield confrontations. All these indicate that the future battlefield of confrontation will be the stage for intelligent unmanned combat systems. Therefore, under the overall leadership of humans, actively and creatively understanding the battlefield, allowing intelligent unmanned combat systems to freely and fully exert their advantages and effectiveness, has become an important method to win the war.

Unmanned autonomous victory based on active cognition is to give full play to the active role of intelligent unmanned combat systems in the cognitive field. Machines and humans have different ways of thinking and different behavioral characteristics. Just like Alpha Zero can open up a new era of Go, machines can often create new spaces that are difficult for humans to explore. Therefore, wars in the intelligent era, under the overall leadership of humans, must fully provide a broad space for intelligent unmanned combat systems to display their talents, give full play to their active and creative abilities, and quickly absorb and focus on the huge energy brought by active cognition.

Intelligent unmanned combat systems show themselves. Human domination and machine passivity will make it difficult to bring into play the comprehensive advantages of intelligent unmanned combat systems. It is necessary to break the shackles of intelligent unmanned combat systems driven by the concept of autonomy. Only by keeping the basic bottom line and allowing machines to fight freely on the battlefield can the precise and rapid combat effectiveness of intelligent unmanned combat systems be demonstrated, and only then can they be fully and autonomously exerted in war, truly releasing the huge energy of intelligent unmanned combat systems in all aspects.

國語中文:

閱讀提示

人工智慧技術在軍事領域的廣泛運用,催生出認知戰這種全新的智慧化戰爭形態。當制勝機制融入了智慧時代的特點,就形成了全新的認知戰制勝之道。建立在認知基礎上的優算決策、願景驅動、集群釋能、無人自主就是具有智慧時代戰爭制勝的典型特徵,成為戰爭中贏得主動、爭取勝利的關鍵。智慧時代製勝之道的根本在於認知,認知優勢是製勝的根本,而且當對抗雙方實力相當時,認知差距形成的優勢差就成為獲勝的主要因素。

基於智慧認知的優算決策制勝

決策成為現代戰爭制勝的關鍵,不僅是因為決策的重要作用,更是因為在OODA(觀察、判斷、決策、行動)環路中,決策是限制循環速度的瓶頸。知行合一的智能認知正是破解這個瓶頸的強大手段。

基於智慧認知的優算決策制勝,是指透過人工智慧演算法形成對敵的認知優勢,進而將認知優勢轉化為決策優勢,進而贏得先機、贏得主動、贏得勝勢。智慧時代的戰爭,智慧手段最大可能提供戰爭所需的智慧認知能力,全面感知、推理、判斷戰場對抗雙方物理域的力量大小、時空位置,資訊域的力量體系、指揮體系,認知域的方案計畫、可能行動,源源不斷地為演算法提供「輸入」資料;優勢演算法迅速對智慧認知結果分析判斷比較,找出敵方薄弱環節或致命點,充分發揮我方優勢特點,形成科學合理、可執行的決策方案,同時也結合對抗雙方的作戰能力、作戰特點等因素,將認知優勢進一步放大,從而達成「秒級優勢成為制勝優勢」「一點優勢成為製勝優勢」。

在這個過程中,智慧認知是基礎,它是優勢演算法的“數據”,為正確決策提供正確的來源,指導作戰決策優勢的方向,沒有智慧認知,演算法和決策將面臨“無米之炊”的困境,更不要談演算法優勢和決策優勢。智慧演算法是關鍵,它的輸入是認知思維,輸出是決策方案,是認知優勢轉化生成作戰決策優勢的具體方法和中間橋樑,在現代戰爭中扮演著愈來愈重要的角色。為此,在智慧科技推動下,各國都將支撐決策效能的「演算法戰」提升到「戰」的高度。 2017年美國國防部就宣布成立專門的「演算法戰」跨職能小組,統一領導美軍展開「演算法戰」研究運用。決策優勢是核心,是認知優勢在指揮領域的真實體現,是檢驗演算法效能優劣的試金石,是智慧認知和智慧演算法的最終展示平台。指揮的智慧是機器無法比擬的,它與深厚的決策經驗相融合、與獨特的個性指揮藝術相匹配,形成的決策謀略千變萬化、難以捕捉,高超的決策藝術通過智能算法的放大與增強,才能形成真正能夠制勝的決策優勢。

基於目標認知的願景驅動制勝

戰爭舞台上從來都不是一支力量單打獨鬥的表演,而是多種力量的共同努力。如何使參與戰爭的各種力量能夠扭成一股繩,各種行動能夠匯成一股勁,是戰爭獲勝的必要條件。因此,戰前需制定詳細的作戰計畫、預想各種可能情況,不斷反覆組織各種行動的作戰協同和針對性訓練。但在作戰實施中,戰場態勢的變化、上級意圖的變化、核心任務的變化、友鄰部隊的變化等,使得這種傳統的協同方式難以達到預期效果,往往成為影響戰爭進程和勝負的限制因素。

其實,每個指揮人員、每支參戰力量,內心中對作戰任務都有一個美好願景,都可能構想有實現美好願景的行動方案,如果能將這些願景統一起來,自發地融入到整體行動中,那麼協同將不再是限制的瓶頸,願景驅動的理念應運而生。願景,是所嚮往的前景,是人們主動為之奮鬥希望達到的圖景,是一種意願的強烈表達,包括了未來目標、使命及核心價值。願景驅動下的行為,不再是規則、規定來約束的遵從行為,不再是以義務、權利來約定的投入行為,更多的是自發與自覺的奉獻行為,這是一種境界,不僅只是投入,而是心中覺得必須為願景的實現負完全責任。這種主觀能動的作用是難以想像的,最新研究成果表明,腦力勞動之所以會有疲勞感,是因為主觀上對所從事的腦力工作產生了厭煩,一旦恢復和保持主觀能動,腦力勞動將會長期保持高效狀態,這不僅是創新的動力來源,更是願景驅動的動力來源。

願景驅動的產生是以認知能力為基礎的,是受智慧技術水準決定的。針對戰爭這個社會特性明顯的複雜巨系統而言,智慧科技支撐下的共同認知使願景驅動成為可能。每支參戰力量圍繞著指揮明確的核心任務與基本要求,展開各自作戰行動的構設,釐清與其他力量的相互關係,明確能夠支援配合或需要支援配合的具體清單,從而形成個體行動方案。指揮者匯集各參戰力量的個體行動方案,綜合分析比較,審查能否完成核心任務,盡可能地保留個體願景中合理的內容,形成彈性的群體願景實施方案,給各參戰力量留有較大的自主完成作戰任務的空間。作戰中所有的指揮人員、作戰力量在個體願景的驅動下,充分發揮個體的積極性、主動性,創造性地發揮個性化特點和作用;在共同願景的驅動下,主動積極地協調配合其他力量行動,從而共同完成作戰任務。

基於群體認知的群聚釋能製勝

智慧集群作戰是目前比較熱門的一個方向,其實集群不是一個新的概念,這個靈感源自於自然界,集群行為是一種生物的集體行為,生物界中的昆蟲、鳥類、魚類等都會出現集群行為,特別是這種集群行為能夠抵禦體形數倍於己的敵人,獲得更加多源的食物,更是讓人們瞠目。人們難以探究這些生物頭腦與神經的活動規律,難以直接掌握集群行為的根本原因,但從其表現規律不斷挖掘出集群行動的組織原則和運作方式,借助人工智能技術與現代網絡技術,使之能夠運用到人類社會生活中,運用到軍事領域中,並成為智慧時代戰爭的勝利之道。

基於群體認知的集群釋能製勝,是指將一定數量的低成本、小型化、無人化作戰平台集成為一個統一的作戰集群,透過定向精準釋能,以達成共同的作戰目標。它是量變引起質變的哲學道理的全面體現,而群體認知是產生質變的根本動因。失去群體認知,集群只能是數量上的變化,難以產生作戰效果的實質變化。集群釋能之所以能夠制勝,在於它具有以量取勝的多維飽和攻擊能力、分佈式的探測與攻擊能力、高抗毀性和連續打擊能力,以及體系精準集約釋能能力,從而形成了顛覆性的致勝優勢。

集群作戰是以群體認知為基礎的,要求在快速的行動中,每一個個體應準確全面地認知自己在群體中的地位作用、位置狀態,並為所在群體或子群體提供認知能力;群體或次群體應準確且全面地認知自己內部成員的狀態,準確且全面地認知自身的狀態,並為所在群體提供認知能力。智慧時代的群體認知,讓作戰能夠模擬群聚生物的協作行為與資訊互動方式,展現出去中心化、自主化、集群復原、功能放大的集群特徵,以自主化和智能化的整體協同方式釋放作戰效能、完成作戰任務。

基於能動認知的無人自主制勝

智慧時代的戰爭,智慧無人系統將充斥著整個智慧化作戰戰場,人在戰場上的身影將越來越少,智慧無人作戰系統成為智慧化戰場的生力軍,它有著人類無法企及的能力,更強的戰場適應力、更強的武器操控能力、更強的反應速度、更強的持續作戰能力、更強的自我保護能力、更強的自我再生能力,而且沒有人類面對戰場激烈對抗所形成的心理承受壓力、血腥場景的生理反應、多愁善感的人類情感、厭戰怯戰的恐懼心理,這些都預示著未來的對抗戰場將是智慧無人作戰系統的舞台。從而,在人類整體主導下,能動地、創造性地認知戰場,使智慧無人作戰系統自由充分發揮優長與效能,成為獲取戰爭勝利的重要方法。

基於能動認知的無人自主制勝,就是要充分發揮智慧無人作戰系統在認知領域的能動作用。機器與人有著不同的思考方式、不同的行為特點,就像阿爾法零能夠開闢圍棋新紀元一樣,機器往往能夠開創人類難以探及的新空間。因此智慧時代的戰爭,在人類整體主導下,必須充分地為智慧無人作戰系統提供施展才能的廣闊天地,充分發揮其能動能力、創造能力,快速地吸取、聚焦能動認知帶來的巨大能量。

智慧無人作戰系統展現的是自我。人類的支配、機器的被動,將難以發揮智慧無人作戰系統的綜合優勢,必須在自主理念的驅動下打破智慧無人作戰系統的束縛。只要守住基本底線,讓機器在戰場上自由地搏殺,才能展現出智慧無人作戰系統精準、快速的作戰效能,才能使其在戰爭中充分發揮、自主發揮,真正全方面地釋放出智能無人作戰系統的巨大能量。

中國軍事資源:https://www.81.cn/jfjbmap/content/2020-03/19/content_256988.htm

Understanding Chinese Military Information Support Force

了解中國軍事資訊保障部隊

現代英語翻譯:

On April 19, 2024, the founding ceremony of the Chinese People’s Liberation Army Information Support Force was grandly held in the Beijing Bayi Building. Xi Jinping, General Secretary of the CPC Central Committee, President of the State, and Chairman of the Central Military Commission, awarded the military flag to the Information Support Force and delivered a speech. What kind of force is the information support force? What is the structure and layout of the new military service? What tasks does it perform? In response to these issues, the editor has compiled some official information, let’s study together.

What kind of force is the Information Support Force? The adjustment and establishment of the information support force is a major decision made by the CPC Central Committee and the Central Military Commission based on the overall cause of strengthening the military . It is a strategic measure to build a new type of military structure and layout and improve the modern military force system with Chinese characteristics. It has important and far-reaching significance for accelerating the modernization of national defense and the army and effectively fulfilling the mission and tasks of the people’s army in the new era.The information support force is a newly created strategic branch of the military. It is the key support for the overall construction and use of network information systems . It plays an important role and has heavy responsibilities in promoting the high-quality development of our military and winning modern wars.

What is the structural layout of the new military services?After this reform, the Chinese People’s Liberation Army has generally formed a new military structure layout, including the army, navy, air force, rocket force and other services under the leadership and command of the Central Military Commission , as well as military aerospace forces, cyberspace forces, information support forces, and joint logistics support forces .

The main responsibilities of the four independent arms

Military aerospace forces: responsible for space strategic support missions, improving our military’s space situational awareness, space target monitoring and space information transmission capabilities.

Cyberspace Forces: Responsible for cyberspace strategic support tasks, improving our military’s cyberspace situational awareness, cyber attack defense and cyberspace combat capabilities.

Information support forces: Coordinate the construction and use of network information systems to improve our military’s ability to obtain, transmit, process and utilize information. Enhance situational awareness, command and control, and coordinated combat capabilities, so that our military has informationized combat advantages. Strengthen information protection, ensure information security, and improve our military’s ability to resist network attacks.

Joint Logistics Support Force: Responsible for logistics support tasks, improving our military’s logistics support capabilities and wartime logistics support capabilities. Strengthen capabilities in material supply, medical rescue, engineering support, etc. to ensure that our military can win the battle.

What are the significance and requirements of building a modern information support force?In his speech, Xi Jinping emphasized that the information support force is a newly created strategic branch of the military. It is a key support for the overall construction and use of network information systems. It plays an important role and has heavy responsibilities in promoting the high-quality development of our military and winning modern wars. The following picture will help you understand the role and requirements of modern information support forces.

現代國語:

中國軍事資源:https//www.81it.com/2024/0520/14988.html

Chinese Military’s Dissipative warfare: a Typical Form of Intelligent Warfare

中國軍隊的耗散戰:智慧戰爭的典型形式

英文翻譯:

With the rapid development of intelligent technology and its widespread application in the military, intelligent warfare is becoming a new form of warfare after information warfare, and dissipative warfare has become a typical form of intelligent warfare. The so-called dissipative warfare refers to the combat method in which the intelligent warfare system achieves comprehensive combat power by integrating material consumption, energy release and information diffusion through internal enrichment and integration and external mutation emergence. Strengthening the research on dissipative warfare will help us to deeply reveal the winning mechanism of intelligent warfare and win the initiative in future war games.

Dissipative warfare is the inevitable result of the development of the times

Dissipative warfare is manifested in the comprehensive confrontation of the physical, information and cognitive domains in the intelligent era. It is embodied in the highly unified forms of political contest, economic competition, military offense and defense, cultural conflict and diplomatic checks and balances, reflecting the openness, complexity and emergence of the intelligent warfare system.

Adapt to the security situation requirements of the intelligent era. Entering the intelligent era, technologies such as broadband networks, big data, big models, cloud computing, and deep learning are developing rapidly, and the connections between political groups, countries, and nations are becoming more extensive. Under the influence of multiple factors such as political pluralism, economic integration, social openness, and technological revolution, non-traditional security has emerged and intertwined with traditional threats. The subjects and scope of intelligent warfare are constantly expanding, the time and space of war are constantly extending, and war and peace are inseparable and intertwined. The war system will further transcend local regional restrictions, from relative closure to greater openness, forming a higher level and larger range of confrontation. Dissipative warfare emphasizes the comprehensive efforts of the intelligent warfare system in the physical domain, information domain, and cognitive domain, and highly unifies the forms of political competition, economic competition, military offense and defense, cultural conflict, and diplomatic checks and balances and incorporates them into the category of enemy-us confrontation, adapting to the requirements of the times for the development of the world security situation.

This is in line with the objective law of the evolution of war forms. The dissipation phenomenon of the war system has always existed since the emergence of war. However, before the emergence of intelligent war forms, due to technological constraints, it has always been in a relatively low-level and simple state. War confrontation can only be manifested in one of the forms of material consumption, energy dissipation and information diffusion. In the agricultural era, the form of war was mainly manifested as a cold weapon war dominated by material elements and centered on the human body. In the industrial era, the form of war was mainly manifested as thermonuclear weapons and mechanized war dominated by energy elements and centered on platforms. In the information age, the form of war is mainly manifested as an information war dominated by information elements and centered on the network security system. Entering the intelligent era, intelligent technology highly unifies the cognitive advantages, decision-making advantages and action advantages in the confrontation between the enemy and us. In essence, it highly unifies the three elements of matter, energy and information. Through empowering, gathering and releasing energy with intelligence, an intelligent war form dominated by intelligent elements and centered on intelligent algorithms has been formed. The main form of expression is the dissipative war that reflects the confrontation of the complex system of intelligent warfare.

It has a solid philosophical theoretical foundation. The social form is the mother of the war form. To explore and understand intelligent warfare, we must base ourselves on the basic principles of historical materialism and dialectical materialism, comprehensively examine the evolution of the war form and the social form in which intelligent warfare is located, and construct a new war concept and context system. From a philosophical perspective, matter, energy and information are the three major elements that constitute the world. Matter embodies the existence of the origin, energy embodies the existence of movement, and information embodies the existence of connection. The three progressively and alternately dominate the evolution and operation of social and war forms. According to the principle of negation of negation of dialectical materialism, in the intelligent age after the information age, the dominant element of society will be matter again after matter, energy and information. However, this material is a new type of material formed after a spiral rise after high informatization, and its main feature is that it has intelligent technology attributes. Therefore, in essence, dissipative warfare is the intelligent element that highly unifies the characteristics and advantages of matter, energy and information in the previous low-level war form, and highly unifies the forms of material consumption, energy release and information diffusion that are prevalent in war, reflecting the typical characteristics of intelligent warfare.

Deeply grasp the inherent meaning of dissipative warfare

Dissipative warfare is based on the real world and covers the virtual world. It adapts to the rapid development of intelligent technology, the rise of non-traditional security threats, and the continuous expansion of the subjects and scope of war, and presents many new characteristics.

Comprehensive game of confrontation. As the intelligent war form accelerates to a higher depth and breadth, the interconnection and influence of political, economic, cultural, diplomatic and other fields are more extensive, and the focus of war begins to shift from the military system to the social system. The confrontation of war stakeholders will be reflected in various forms of comprehensive games such as political competition, economic competition, military offense and defense, cultural conflict and diplomatic checks and balances. The war advantage pursued is no longer limited to the field of military confrontation. The winner of the war must adapt to the openness, complexity and emergence requirements of the war system, and transform from the extensive consumption and use of single materials, energy and information to the dissipation of the war system dominated by intelligent advantages, and strive to gain initiative and advantage in the comprehensive game in multiple fields.

The subjects are cross-domain and diversified. The subjects of intelligent warfare are becoming more and more generalized, and the potential forces of war that need to be mobilized in traditional warfare will be in a state of normalized confrontation. Political forces, various institutions and personnel, together with the troops and soldiers fighting on the battlefield in the traditional sense, constitute the subjects of war. Diversified war subjects will cross the real domain and the virtual domain, appear in multiple spatial domains such as land, sea, air, space, electricity, and psychology, covering the physical domain, information domain, cognitive domain, etc., covering multiple social domains such as politics, economy, culture, and diplomacy. For example, civilians can use smartphones to collect information on the military battlefield and pass it on to war stakeholders, resulting in the spread of key information about the war, which in turn affects war decisions or the victory or defeat of a campaign or battle.

Forces are integrated and enriched. Virtual forces are integrated. Focusing on the purpose of war, all possible real forces and virtual forces will be integrated with the support of intelligent technology, and perform their duties and act according to regulations on parallel battlefields; unmanned forces are integrated. After going through the stages of manual operation, manual authorization, and manual supervision, unmanned combat forces will achieve a high degree of autonomy, and can be deployed and combined with various manned forces on demand, and effectively coordinate and coexist in parallel under the constraints of common war rules; multiple forces are integrated. Based on the extensive connections in various fields and the common purpose of the war system, the forces of the party, government, military, police, and civilians will closely coordinate military operations with political, economic, diplomatic, public opinion, and legal struggles, and unify their actions to form comprehensive combat power. In short, under the integrated planning of the country or political group, although the multiple participating forces of intelligent warfare are physically dispersed, they can achieve logical concentration, immediate enrichment, complementary advantages, and integrated excellence around the common purpose of war.

Effectiveness accumulates and emerges. While the high-level war form has new technical characteristics, it still includes the characteristic advantages of the low-level war form. Dissipative warfare emphasizes continuous comprehensive confrontation in multiple domains, which includes the consumption of ammunition, supplies, equipment and even combatants at the material level, as well as the continuous collection and release of energy, and the diffusion and integration of data, knowledge, algorithms, etc. at the information level, which has an unlimited impact on people’s thinking cognition, value pursuit, moral concepts, emotional will, and behavior patterns. Under the normal deterrence of nuclear weapons, intelligent warfare shows a decrease in bloodiness, but political isolation, economic blockade, cultural conflict, diplomatic strangulation, etc. will become more severe and intense. When the military, political, economic, cultural, diplomatic and other systems continue to play their roles and the effectiveness accumulation reaches a certain level, the war system will increase negative entropy, thereby achieving a sudden change in combat power and the emergence of system effectiveness, thereby gaining a war advantage.

Fighting a Dissipative War by Choosing the Right Combat Focus

The intelligent warfare system achieves maximum system combat effectiveness through internal enrichment and integration, external mutation, cross-domain efficiency enhancement, and intelligent dissipation, which is the winning mechanism contained in dissipative warfare. To win in intelligent warfare, it is necessary to clarify the operational focus of dissipative warfare, target the shortcomings and weaknesses of the opponent’s system, and find the focus of war preparation.

Focus on the openness of the system and isolate the opponent’s war system. Cut off the material, energy and information exchange between the opponent’s war system and the external battlefield environment, so that it lacks material, energy and information sources, and gradually moves towards an isolated, closed and weak state. For example, at the strategic level, political isolation is used to isolate the opponent’s war system, causing the system’s entropy to increase. At the campaign level, methods such as cutting off data sources, destroying data backups, falsifying data, and tampering with information can be used to force its war system to transform into a closed state, thereby reducing the effectiveness of the opponent’s system.

Focusing on the complexity of the system, the opponent’s war system is destroyed in different domains. The more connections and the closer the degree of connection between the elements of the intelligent war system, the lower the reliability of the system structure. By using the principle of relative independence of each layer in a complex system, we can formulate strategic overall, local and tactical action strategies to achieve layered and domain-based destruction of the enemy’s war system. For example, at the strategic level, the economic blockade is adopted to greatly weaken the opponent’s war strength and development potential. At the campaign level, the vulnerability of the combat system communication network is utilized, and the network-electric composite attack is used as the basic path and means. The methods of “destroying the end, attacking the element, isolating the group, disconnecting the network, and breaking the cloud” are adopted to destroy the opponent’s combat system structure and cause the opponent’s war system to “collapse”.

Focus on system emergence and dismantle and disperse the opponent’s war system. Only when the intelligent war system has mutation and emergence effects can it quickly form and exert system effectiveness and gain dissipative warfare advantages. If only a single component or element plays a role, it is impossible to form an advantage. It can be foreseen that the currently emerging technologies such as ChatGPT and more advanced intelligent technologies in the future will provide a new way of thinking to understand and discover the operating behavior, state and laws of complex war systems, as well as new means to explore objective laws and transform nature and society. The party with the advantage in war confrontation will reduce the coupling degree of the opponent’s war system through a combination of virtual and real, parallel and integrated confrontation methods, and achieve the purpose of dismantling and dismantling the enemy’s war system.

現代國語:

隨著智慧化技術快速發展及在軍事上的廣泛應用,智慧化戰爭正成為資訊化戰爭後的新戰爭形態,而耗散戰則成為智慧化戰爭的典型方式。所謂耗散戰,是指智慧化戰爭體系透過對內富聚融合,對外突變湧現,達成集物質消耗、能量釋散和資訊擴散於一體的綜合戰力的作戰方式。加強耗散戰研究,有利於我們深入揭示智慧化戰爭制勝機理,贏得未來戰爭賽局主動權。


耗散戰是時代發展的必然結果


耗散戰表現在智慧化時代中物理域、資訊域和認知域的綜合對抗,體現為政治較量、經濟比拼、軍事攻防、文化衝突和外交制衡等形式的高度統一,反映了智慧化戰爭體系所具有的開放性、複雜性和湧現性。
適應智慧化時代的安全情勢要求。進入智慧化時代,寬網路、大數據、大模型、雲端運算、深度學習等技術快速發展,各政治集團、國家、民族之間的聯繫更加廣泛。在政治多元、經濟交融、社會開放、科技革命等多重因素作用下,非傳統安全興起並與傳統威脅交織,智慧化戰爭主體與範疇不斷拓展,戰爭時間與空間不斷外延,戰爭與和平如影相隨並交織一體,戰爭體系將進一步超越局部地域限制,從相對封閉走向更開放,形成更高層次和更大範圍的對抗。耗散戰強調智慧化戰爭體系在物理域、資訊域和認知域的綜合發力,把政治較量、經濟比拼、軍事攻防、文化衝突和外交制衡等形式高度統一併納入敵我對抗範疇,適應了世界安全情勢發展的時代要求。
符合戰爭形態演變的客觀法則。戰爭體系的耗散現象自戰爭產生以來便始終存在,只不過在智能化戰爭形態出現之前,由於技術的製約,一直處於較為低級的、簡單的狀態,戰爭對抗僅能表現為物質消耗、能量釋散和訊息擴散中的某一種形式。農業時代,戰爭形態主要表現為以物質要素為主導的、以人體為中心的冷兵器戰爭。工業化時代,戰爭形態主要表現為以能量要素為主導的、以平台為中心的熱核兵器和機械化戰爭。在資訊化時代,戰爭形態主要表現為以資訊要素為主導的、以網信體系為中心的資訊化戰爭。進入智慧化時代,智慧化科技將敵我對抗中的認知優勢、決策優勢和行動優勢高度統一起來,實質是將物質、能量和資訊三者高度統一,透過以智賦能、以智聚能、以智釋能,形成了以智慧要素為主導的、以智慧演算法為中心的智慧化戰爭形態,主要表現形式即為反映智慧化戰爭複雜體系對抗的耗散戰。
具有堅實的哲學理論基礎支撐。社會形態是戰爭形態的母體,探索和認識智能化戰爭,必須基於歷史唯物主義和辯證唯物主義的基本原理,綜合考察戰爭形態的演進和智能化戰爭所處的社會形態,構建新的戰爭概念和語境體系。從哲學角度看,物質、能量和資訊是構成世界的三大要素,物質體現本源的存在,能量體現運動的存在,訊息則體現聯繫的存在,三者遞進交替主導著社會形態和戰爭形態的演進和運行。依照辯證唯物論的否定之否定原理,在資訊時代之後的智慧時代,主導社會的要素將繼物質、能量、資訊後再次輪到物質,只不過這個物質是高度資訊化後螺旋式上升後形成的新型物質,其主要特徵就是具有了智慧化技術屬性。因此,從本質上講,耗散戰是智慧要素將以前低階戰爭形態中物質、能量和資訊的特性優勢高度統一起來,將戰爭中普遍存在的物質消耗、能量釋散和資訊擴散等形式高度統一起來,反映了智慧化戰爭的典型特徵。
深刻把握耗散戰的內在要義
耗散戰基於現實世界、涵蓋虛擬世界,適應了智慧化技術快速發展、非傳統安全威脅興起、戰爭主體和範疇不斷拓展的趨勢,呈現出許多新特性。
對抗綜合博弈。隨著智慧化戰爭形態加速向更高深度和廣度發展,政治、經濟、文化、外交等領域相互聯繫和影響更具廣泛性,戰爭重心開始從軍事系統向社會系統偏移,戰爭利益攸關方的對抗將體現為政治較量、經濟比拼、軍事攻防、文化衝突和外交制衡等多種形式的綜合博弈,追求的戰爭優勢不再只限於軍事對抗領域。戰爭制勝方必須適應戰爭體系的開放性、複雜性和湧現性要求,從單一物質、能量和資訊的粗放式消耗和運用轉變到以智慧優勢主導戰爭體系的耗散,力爭在多領域的綜合博弈中贏得主動和優勢。
主體跨域多元。智慧化戰爭的主體日益泛化,傳統戰爭需要動員的戰爭潛在力量將處於常態化對抗狀態。政治力量、各類機構和人員與傳統意義上在戰場廝殺的部隊和軍人一起構成戰爭的主體。多元化戰爭主體將跨越現實域和虛擬域,出現在陸、海、空、天、電、心理等多個空間域,涵蓋物理域、資訊域、認知域等,涵蓋政治、經濟、文化、外交等多類社會域。如社會平民可以用智慧型手機收集軍事戰場上的信息並傳遞給戰爭利益攸關方,造成對戰爭關鍵訊息的擴散,進而影響戰爭決策或一場戰役和戰鬥的勝敗。
力量一體富聚。虛實力量一體。圍繞著戰爭目的,一切可能運用的現實力量和虛擬力量將在智能化技術支撐下實現一體化,在平行戰場上按職履責、按規行動;有無力量一體。無人作戰力量將在經歷人工操作、人工授權、人為監督階段後,實現高度的自主性,並可與各類有人力量按需部署、按需組合,在共同的戰爭規則約束下有效協同、並行共生;多方力量一體。基於各領域的廣泛聯繫和戰爭體系的共同目的,黨政軍警民等各方力量將軍事行動與政治、經濟、外交、輿論、法理鬥爭密切配合、統一行動,形成綜合戰力。總之,在國家或政治集團的一體籌劃下,智慧化戰爭的多元參戰力量雖然物理分散,但能夠圍繞共同的戰爭目的,實現邏輯集中、即時富聚,優勢互補、一體聚優。
效能累積湧現。高階戰爭形態在具有新質技術特徵的同時,仍涵括低階戰爭形態的特徵優勢。耗散戰強調在多域持續進行綜合對抗,這既包括物質層面的彈藥、物資、器材甚至作戰人員的消耗,也包括能量層面的不斷匯集和釋放,更包括透過資訊層面的數據、知識、演算法等的擴散與融合,對人的思考認知、價值追求、道德觀念、情感意志、行為模式等產生不可限制的影響。在核武的常態嚇阻下,智慧化戰爭呈現出血腥味下降,但政治孤立、經濟封鎖、文化衝突、外交扼殺等將更加嚴峻激烈的局面。當軍事、政治、經濟、文化、外交等各系統角色持續發揮,效能累積達到某一程度,戰爭體係就會增加負熵,進而實現戰力突變和體系效能湧現,從而獲得戰爭優勢。
在選準作戰重心中打好耗散戰
智慧化戰爭體系透過對內富聚融合,對外突變湧現,跨域增效、以智耗散,達成體係作戰效能最大化,這是耗散戰蘊含的製勝機理。要在智慧化戰爭中贏得勝勢,必須明確耗散戰的作戰重心,針對對手體系短板弱點,找準戰爭準備的發力點。
著眼體系開放性,封閉孤立對手戰爭體系。截斷對手戰爭體系與外在戰場環境的物質、能量和資訊交流,使之缺乏物質、能量和資訊來源管道,逐漸走向孤立、封閉和虛弱狀態。如在戰略層面,採取政治孤立的方式,使對手戰爭體系處於孤立狀態,造成體系熵增。在戰役層面,可利用切斷資料來源、毀滅資料備份、資料作假、竄改資訊等方法,綜合採用軟硬手段,迫其戰爭體係向封閉狀態轉化,進而降低對方體系效能。
著眼體系複雜性,分域破擊對手戰爭體系。智慧化戰爭體係要素間連結越多、連結程度越緊密,體系結構可靠性就越低。運用複雜系統中各分層相對獨立的原理,可製訂戰略全局、戰役局部和戰術行動策略,實現對敵戰爭體系的分層分域破擊。如在戰略層面,採用經濟封鎖的方式,大大削弱對手的戰爭實力和發展潛力。在戰役層面,利用作戰系統通訊網路的脆弱性,以網電複合攻擊為基本路徑與手段,採用「毀端、擊元、孤群、斷網、破雲」等方式,破擊對方作戰系統結構,促使對方戰爭體系「坍塌」。
著眼體系湧現性,拆解疏散對手戰爭體系。智慧化戰爭體系只有出現突變和湧現效應,才能快速形成發揮體系效能,獲得耗散戰優勢。如果只是單一組分或要素發揮作用,不可能形成優勢湧現。可以預見,當前興起的ChatGPT等技術以及未來更高級的智慧化技術,將提供理解和發現戰爭複雜體系運作行為、狀態和規律的全新思維方式,以及探知客觀規律、改造自然和社會的新手段,戰爭對抗優勢方將透過虛實結合、平行一體的對抗方式,降低對手戰爭體系的耦合度,達成拆解疏散敵戰爭體系的目的。

中文原創資訊科技來源:https//www.81it.com/2023/0509/14288.html

Chinese Military Guidelines for Analyzing Fundamental Mechanism of Winning Wars

中國軍事勝利基本機制分析指導方針

來源:解放軍報 作者:張佔軍 責任編輯:喬楠楠 2018-07-24 

英文翻譯:

There are universal and special mechanisms for winning wars. Special winning mechanisms are conditional, while universal and fundamental winning mechanisms are relatively stable. Anyone and any era’s war guidance that violates these mechanisms will lose the war. Revealing the fundamental winning mechanism of wars can not only help us more deeply understand the scientific correctness of classical war theories and enhance theoretical confidence in war guidance, but also help us continuously innovate war and combat guidance that adapts to the conditions of the times according to changes in the war environment and conditions, and firmly grasp the strategic initiative.

To understand, prepare for, and direct war, the first thing is to uncover the fundamental mechanism of victory

Studying the fundamental mechanisms for winning wars is the logical starting point for understanding wars and the fundamental basis for preparing for and waging wars.

Studying the fundamental mechanism of winning a war is to reveal the necessary and sufficient conditions for winning. In essence, the mechanism of winning is the reason and condition for winning a war. Studying the fundamental mechanism of winning a war is to answer the fundamental question of “when and only when what conditions are met can we win a war”, aiming to make us realize that if this condition is met, we will definitely win, if this condition is not met, we will definitely fail; if we win, it must be because we have this fundamental condition. Philosophically speaking, this condition definitely exists, but it is just a matter of whether we can recognize it and reveal it. Otherwise, there will be no way to know the laws of winning so many battles in history.

“Winning with immediate advantage” is the fundamental winning mechanism of war. The advantage in immediate advantage is not a simple comparison of resources, but the comprehensive ability and favorable situation to defeat the enemy at the moment of exerting force on the enemy and in the confrontation at the decisive point of the war. “Winning with immediate advantage” means that with immediate advantage, victory will be achieved at the moment of confrontation with the enemy at the decisive point. If this advantage is maintained for only one moment, then this round can be won; if this advantage can be maintained at every moment and every round of confrontation, then the war will inevitably be won. The author believes that the winning mechanism of “winning with immediate advantage” is the “law behind the law” and the fundamental basis for war guidance, and it is also the fundamental winning mechanism of war and combat.

“Instant superiority wins” is the fundamental basis of the classical war guidance theory. All the classical war guidance theories are based on the mechanism of “instant superiority wins”. From the first Chinese civil war to the War of Resistance Against Japanese Aggression and the War of Liberation, Mao Zedong always adhered to the guidance of using superior forces and favorable weather, terrain and people to launch a devastating attack on the enemy’s one point, and achieved victory, which proved that “instant superiority wins” is the fundamental law for achieving victory. In history, Sun Tzu’s ideas of “attacking the enemy when they are least prepared and taking them by surprise” and “attacking where they are least prepared”; the Thirty-Six Stratagems of “Deceiving the Heavens and Crossing the Sea”, “Besieging Wei to Save Zhao”, “Taking Advantage of the Troubled Times”, “Taking Advantage of the Fire to Loot”, “Attack the East and West by Making a Feint” and other strategies; Napoleon’s idea that “the secret of military art is to make your own military force surpass the enemy at the necessary place and time”; the “blitzkrieg” used by the German army in World War II etc., all focus on gathering immediate advantages and suddenly defeating the opponent when the opponent has no precautions; the U.S. military proposed the “air-ground integrated battle” 30 years ago, and in recent years proposed the “air-sea integrated battle”, which was later renamed the “global commons access and mobility” concept. In 2016, the U.S. Army proposed the “multi-domain battle”, which, in essence, is also through the operation of factors such as force and space to form immediate advantages over the opponent.

Understand and grasp the rich connotation of “instant advantage wins”

Regarding the mechanism of winning by immediate advantage, we can summarize its connotation into the following main aspects.

Immediate advantage is the unity of object, time and resources. Immediate advantage wins, including the three elements of object, instant and advantage. Object refers to the selected decision point, which may be a physical target with certain resistance of the opponent, or a unit with certain capabilities; instant refers to the moment of exerting force on the enemy in the war; advantage refers to the comprehensive capabilities and postures composed of various available war resources and elements (including spatial elements) that are superior to the opponent (object), and is the product of objective conditions and subjective efforts. Whether or not there is an immediate advantage is not necessarily related to the overall military strength of the army. When the overall military strength does not have an advantage, it can also win by gathering an advantage over the enemy at the moment of confrontation at the decisive point. Time advantage is an important decisive factor. Mastering time advantage means that the opponent will be suddenly attacked in the “gap” when he is not fully prepared. However, on the battlefield, the unity of target, time and advantage must be achieved. If we only emphasize the speed of time, but it is not good, then speed is meaningless; if we only emphasize the quality of resources, but it is not timely, then it will not play a role at the moment of confrontation, and the actual ability is equal to zero. This is the reason why many powerful armies in history were defeated.

Immediate advantage is the system advantage at the moment of confrontation. In wars of different eras, immediate advantage has different manifestations. Modern warfare is a confrontation between systems. The elements in the system are divided into primary and secondary. The dominant factors of the system are naturally important to the system advantage, but the secondary factors will also eliminate and destroy the immediate advantage, and then turn victory into defeat. Strength advantage is the basis of immediate advantage, but it is only one of the many conditions for the formation of immediate advantage. In modern warfare, the more complex the technology and force structure, the stronger the complementarity of different resources and the variability of the structure, and the more complex the mechanism for forming immediate advantage. For example, in an integrated joint operation based on a network information system, if the traditionally unappreciated network backend operation and maintenance personnel cannot keep the system running normally, the advantages of this system may be greatly eliminated.

Immediate advantage is the unity of static and dynamic. The process of winning wars and operations is a process of constantly gathering and exerting immediate advantages at decisive points, gradually consuming the enemy, and expanding immediate advantages. Once it is impossible to form an advantage at a decisive point at a certain moment, this moment will become a turning point in the operational process. This is the inherent principle of emphasizing the ability to fight in one go and continuous operations. During the Korean War, our military’s support could only support about 7 days of continuous operations. At this turning point, we took the initiative to withdraw our troops and switch to defense because if we continued to fight, we would not have immediate advantages.

Real-time advantage only exists in a certain time window. On the battlefield, enemies and friends are opponents, fighting for life and death, and real-time advantage only exists in a certain period of time. In modern warfare, information transmission has reached the millisecond level, and the detection-judgment-decision-strike process is measured in seconds. The responsiveness of many long-range strike means no longer needs to take into account the platform’s spatial movement time. In particular, with the advancement of the intelligentization of combat systems, the time window for maintaining advantage will become shorter, which puts forward new requirements for gathering and exerting the effectiveness of real-time advantage.

Continuously optimize war and combat guidance based on the “instant advantage wins” mechanism

The winning mechanism is the “law behind” combat guidance and combat methods. We should continuously optimize war and combat guidance based on the mechanism of “winning by immediate advantage.”

Strive to seek distinctive advantages. Distinctive advantages are the special advantages of an army. For our army, it means that we must always seek distinctive advantages such as what the enemy does not have and what we are strong and the enemy is weak. We insist on you fight yours and I fight mine, implement asymmetric warfare, and strive to find the moment when the enemy is weakest, and give full play to our advantages to form our immediate advantages. In the future, we need to continue to give full play to our political advantages, and at the same time, we should gather and cultivate new distinctive advantages from the new system, new system, and new equipment. We must firmly believe that the side with weaker weapons and equipment always has the possibility of winning locally and gradually achieving overall victory. Based on this possibility, we should strive to design and guide operations around whether it is conducive to creating superior fighters and whether we can defeat the enemy before the fighters disappear.

We are committed to gathering the power of the system to form an immediate advantage. The information age is a system war, and what matters is the system capability. It is necessary to study how a single factor can win, but in actual combat, the real way to win is the comprehensive application of all factors. The concept of “multi-domain warfare” proposed by the US military in recent years is centered on the ability to form a multi-domain fusion and release energy at a decisive point. If we cannot gather the power of the system to form an immediate advantage, we will have to respond to the enemy with the shortcomings of the system, and defeat will naturally be inherent in it.

Form an immediate advantage around the enemy. Adapting to the enemy is an important manifestation of the art of war command. The key is not to change, but to constantly create new immediate advantages in the change. This needs to be achieved through correct command and scientific tactics. Future wars are increasingly showing an intelligent trend, but in essence, they are still about measuring the enemy’s strength and taking measures according to the enemy’s situation. It’s just that the pace of this change is faster and the situation is more confusing. If the speed of gathering capabilities cannot keep up with the changes in the battlefield situation, it is impossible to achieve “instant” by adapting to the enemy. It can be said that, under certain conditions of combat resources, the entire connotation of the art of command is to create and find the enemy’s weaknesses, and to plan and create immediate advantages over the enemy. This is the soul of war command and tactics.

Weakening the opponent’s advantage is an important way to form and maintain immediate advantage. Immediate advantage is compared with the opponent. In terms of resource comparison, this advantage can be obtained by aggregating one’s own advantages and weakening the enemy’s advantages, from technology to tactics, from strategy to battles and battles. Technically weakening the opponent is the most fundamental weakening; in terms of strategy and tactics, through deception, containment, and disruption at non-decisive points, dispersing and weakening the opponent to influence the opponent’s advantage concentration at the decisive point is an important way to transform the advantage and disadvantage comparison at the decisive point and win the victory.

Firmly grasp the principles of reconnaissance, concealment, initiative, offense, and quick decision. Reconnaissance, concealment, initiative, offense, and quick decision are ancient principles, but they have new connotations and new requirements in modern warfare. Fighting a battle for immediate advantage is even more indispensable. Accurately grasping the enemy’s ability and situation at the “predetermined strike point” is a prerequisite for forming an immediate advantage; in order to maintain an immediate advantage for a longer period of time, it is necessary to delay the time of being discovered by the enemy as much as possible by concealing intentions and actions; although we have an advantage in strength and deployment, once the enemy makes the first move, our immediate advantage may be eliminated. The US military even asserts that “whoever launches first will be saturated and hit first.” “You can win if you strike first, and whether you can effectively conceal yourself”; facing a strong enemy, simple defense becomes increasingly difficult. Whether it is a big war or a small war, offense can maximize the effectiveness of advantages and is the best defense; the battlefield situation changes very quickly, and the time window for immediate advantage is short. A quick battle and a quick decision may be the best choice to make full use of this time window.

Design and prepare for war with the core of “fighting a war for immediate advantage”

The key to judging whether an army has the combat capability to defeat the enemy is whether it can gain an immediate advantage over the enemy at the moment of exerting its strength in the confrontation with the enemy. The development of new operational concepts, design and preparation for future wars all require a firm grasp of the core of “fighting a war of immediate advantage.”

Design wars around the core concept of “fighting a war of immediate advantage”. In the future, if our army wants to defeat opponents with strong overall strength, it should always focus on forming and using the key of immediate advantage. Instead of confronting the enemy in all dimensions, it should seize the enemy’s most critical pain points and decision points, aggregate multi-dimensional capabilities at a moment and concentrate its efforts, and accordingly plan tactics to defeat the enemy with immediate advantage. The top priority is to design the decision points for striking and the methods and ways to gather immediate advantages. At all levels of strategy, campaign, tactics and even individual combat, operational guidance and tactics should be designed according to this idea, and this should be used as the fundamental test standard.

Military capabilities should be built based on whether or not they can form an immediate advantage. We should focus on the core concept of “fighting a war of immediate advantage” and systematically design strategic capabilities, weapons and equipment, force structure, combat methods and specific tactics, as well as everything needed for combat, in accordance with the idea of ​​using our capabilities to defeat the enemy’s inability at the decisive moment of the war. We should pay special attention to the prominent role of new technologies and new means in forming an immediate advantage, and continue to inject contemporary vitality and scientific and technological determination into forming an immediate advantage and fighting a war of immediate advantage.

(Author’s unit: Institute of War Studies, Academy of Military Science)

國語中文翻譯:

戰爭制勝機理有普遍與特殊之分。特殊制勝機理是有條件的,而帶普遍性、根本性的製勝機理則是相對穩定的,任何人、任何時代的戰爭指導違背了這些機理就要打敗仗。揭示戰爭根本製勝機理,不僅可以更深刻地認識經典戰爭理論的科學性正確性,增強戰爭指導的理論自信,還可根據戰爭環境與條件的變化,不斷創新適應時代條件的戰爭與作戰指導,牢牢掌握戰略主動權。

認識、準備和指導戰爭,首要的是揭示根本製勝機理

研究戰爭根本製勝機理,是認識戰爭的邏輯起點,是準備和實施戰爭的根本依據。

研究戰爭根本製勝機理,就是揭示制勝的充分必要條件。本質上講,制勝機理是打勝仗的原因和條件。研究戰爭根本製勝機理,就是要對「當且僅當具備怎樣的條件才能打勝仗」這個根本性問題作出回答,旨在使我們認識到:如果有了這個條件,必然能夠取勝,如果沒有這個條件,則必然失敗;如果是勝利了,一定是因為具備這個根本條件。從哲學上講,這個條件肯定存在,只是能不能去認識它、揭示它,否則,歷史上那麼多打勝仗的規律就無以認知。

「即時優勢制勝」是戰爭的根本製勝機理。即時優勢中的優勢,不是簡單的資源對比,而是在向敵方發力的那一時刻,在戰爭決定點的對抗上,具有能戰勝對方的綜合能力和有利態勢。 「即時優勢制勝」是指,有了即時優勢,在決定點與敵對抗的那一時刻就一定能勝利。如果只有一個時刻保持這種優勢,則這一個回合能取勝;如果每一個時刻、每一個對抗回合都能保持這種優勢,則戰爭必然勝利。筆者認為,「即時優勢制勝」這個制勝機理,就是「規律背後的規律」和戰爭指導的根本依據,也是戰爭和作戰的根本製勝機理。

「即時優勢制勝」是經典戰爭指導理論的根本依據。統攬經典的戰爭指導理論,都是基於「即時優勢制勝」這個機理提出的。從中國第一次國內革命戰爭,到抗日戰爭、解放戰爭,毛澤東始終扭住利用優勢兵力和天時、地利、人和,對敵之一點實施殲滅性打擊這個指導,都取得了勝利,雄辯證明了「即時優勢制勝」是取得勝利的根本規律。歷史上,孫子提出的「攻其無備,出其不意」「由不虞之道,攻其所不戒」的思想,三十六計中的瞞天過海、圍魏救趙、以逸待勞、趁火打劫、聲東擊西等戰計,拿破侖關於「軍事藝術的秘密在於,在必要的地方和必要的時間,使自己的軍力超過敵人」的思想,二戰時德軍運用過的「閃擊戰」等,著眼點都是在對手沒有建立防範的時刻集聚即時優勢突然擊敗對手;美軍30年前提出“空地一體戰”,近年來又提出“空海一體戰”,之後又更名為“全球公域進入與機動”概念,2016年美陸軍提出“多域戰”,究其本質,也都是透過力量和空間等要素的運籌,形成對對手的即時優勢。

認識並掌握「即時優勢制勝」的豐富內涵

對即時優勢制勝這一機理,我們可以將其內涵歸結為以下主要面向。

即時優勢是對象、時間、資源的統一。即時優勢制勝,包括物件、即時、優勢三要素。對象,即選定的決定點,這個決定點可能是對方具有一定抗擊力的物理目標,或是具有一定能力的部隊;即時,是戰爭中向敵發力的那一時刻;優勢,是由各種可用的戰爭資源、要素(包括空間要素)所構成的綜合能力和態勢優於對手(對象),是客觀條件與主觀努力的產物。是否具有即時優勢,與軍隊整體軍力優劣不是必然關系,軍力整體不佔優勢時,在決定點對抗的時刻凝聚起對敵優勢,同樣能取勝。時間優勢是重要的決定因素,掌握了時間優勢,意味著對手在沒有充分準備的「空檔」中突然遭到打擊。但在戰場上,必須實現對象、即時、優勢的統一。只強調時間之快,若快而不優,快速則無意義;只強調資源之優,若優不逢時,在對抗那一時刻發揮不了作用,實際能力等於零。這就是歷史上許多強勢之軍吃敗仗的原因。

即時優勢是對抗發力時刻的體系優勢。不同時代的戰爭,即時優勢有不同體現。現代戰爭是體係與體系的對抗,體系中的要素有主次之分,體系的主導因素對體系優勢自然重要,但次要因素也會消解和破壞即時優勢,進而使勝勢淪為敗勢。力量優勢是即時優勢的基礎,但它只是形成即時優勢多個條件中的一個。在現代戰爭中,技術和力量結構越復雜,不同資源的互補性和結構的可變性就越強,形成即時優勢的機制就越復雜。例如,在基於網絡資訊體系的一體化聯合作戰中,傳統上並不受重視的網絡後台運維人員如果不能保持系統正常運行,這個體系優勢就可能被極大消解。

即時優勢是靜態與動態的統一。戰爭和作戰制勝過程,是一個不斷在決定點聚集和發揮即時優勢、逐步消耗敵人、擴大即時優勢的過程。一旦某一時刻無法形成決定點上的優勢,這個時刻將成為作戰進程的轉折點,這就是強調一鼓作氣和連續作戰能力的內在原理。在朝鮮戰爭中,我軍的保障只能支持7天左右的連續作戰,到了這個轉​​折點,我們主動收兵轉入防禦,原因是再繼續作戰,我們將不會有即時優勢。

即時優勢只存在於一定時間窗口。戰場上,敵我互為對手、生死相爭,即時優勢只會存在於一定的時段。現代戰爭,訊息傳輸已達毫秒級,偵察—判斷—決策—打擊流程時以秒計,許多遠程打擊手段的反應力已經不需要再計入平台空間移動的時間,特別是隨著作戰體系智能化的推進,保持優勢的時間窗口會變得更短,這對聚集和發揮即時優勢效力提出了新要求。

基於「即時優勢制勝」機理不斷優化戰爭與作戰指導

制勝機理是作戰指導和作戰方法“背後的規律”,我們應依據“即時優勢制勝”的機理不斷優化戰爭和作戰指導。

努力謀求特色優勢。特色優勢即一支軍隊的特殊優長。對我軍來說,就是要在任何時候都謀求我有敵無、我強敵弱等特色優長,堅持你打你的、我打我的,實施不對稱作戰,致力尋找敵最薄弱的那個時刻,發揮我之優長形成我們的即時優勢。未來,我們需要繼續發揮我們的政治優勢,同時應從新體制、新體系、新裝備中凝聚和培育新的特色優勢。要堅信武器裝備弱的一方始終擁有局部取勝而逐步實現全局勝利的可能性,基於這種可能性,應致力圍繞是否能有利於營造優勢戰機、是否能在戰機消失前戰勝敵人設計與指導作戰。

致力凝聚體系力量形成即時優勢。資訊時代是體係作戰,拼的是體系能力。研究單一要素如何制勝固然必要,但實戰中,真正的製勝之道是諸要素的綜合運用。美軍近年提出的「多域戰」概念,核心在於在一個決定點形成多域融合聚能釋放的能力。不能聚體系之力形成即時優勢,就不得不以體系短板應敵,敗戰自然寓於其中。

圍繞形成即時優勢因敵而變。因敵而變是戰爭指導藝術的重要體現,其中的根本不在於變,而是在變化中不斷塑造新的即時優勢,這需要通過正確的指揮和科學的戰法來實現。未來戰爭越來越呈現智慧化趨勢,但本質上依然是量敵用力、因敵施法,只是這種變化節奏更快、態勢更加撲朔迷離,如果集聚能力的速度跟不上戰場形勢的變化,因敵而變就不可能達到「即時」。可以說,在作戰資源一定的情況下,指揮藝術的全部內涵,就是製造和尋找敵人的軟肋,運籌和營造對敵的即時優勢,這是戰爭指導和戰法的靈魂。

削弱對手優勢是形成和維持即時優勢的重要途徑。即時優勢是與對手比較而言的。在資源對比上,這種優勢可以透過聚集己方優勢和削弱敵方優勢兩個途徑獲得,從技術到戰術、從戰略到戰役戰鬥各層面展開。在技​​術上削弱對手是最具根本性的削弱;在戰略戰術上,通過在非決定點的欺騙、牽制、擾亂,分散削弱對手,以影響對方在決定點上的優勢聚集,則是轉化在決定點上的優劣對比、贏得勝勢的重要途徑。

堅定把握偵察、隱蔽、先機、攻勢和速決原則。偵察、隱蔽、先機、攻勢、速決,是古老原則,但現代作戰有新內涵、新要求,打即時優勢之戰,更具不可或缺性。準確掌握「預定打擊點」之敵的能力態勢,是形成即時優勢的前提;為保持更長時間的即時優勢,需要通過隱蔽意圖和行動,盡可能推遲被敵發現的時間;力量、部署雖然佔優,而一旦敵方首先發力,我之即時優勢將可能被消解,美軍甚至斷言,「誰先發動飽和打擊誰就能夠獲得勝利,能否率先打擊取決於是否能有效隱蔽自己」;面對強敵,單純防守越來越困難,無論大戰、小戰,攻勢才能最大限度發揮優勢效力,才是最好的防禦;戰場態勢變化極快,即時優勢的時間窗口短暫,速戰速決可能是充分利用這一時間視窗的最佳選擇。

以「打即時優勢之戰」為核心設計與準備戰​​爭

看一支軍隊是否具有克敵制勝的戰鬥力,核心是看這支軍隊能不能在與敵對抗的發力時刻,先敵形成即時優勢。開發新的作戰概念、設計和準備未來戰爭,都需要緊緊把握住「打即時優勢之戰」這個核心。

圍繞「打即時優勢之戰」這個核心概念設計戰爭。未來一個時期,我軍要戰勝整體實力強大的對手,應當始終著眼形成和運用即時優勢這個關鍵,不與敵全維全面對陣,而是抓住敵最要害的痛點和決定點,在一個時刻聚合多維能力集中發力,照此運籌以即時優勢敗敵的戰法。其中的重中之重,是設計好打擊的決定點和聚集即時優勢的方法途徑。在戰略、戰役、戰術甚至單兵作戰各層次,都應依此思想設計作戰指導與戰法,並以此作為根本的檢驗標準。

以是否能形成即時優勢為標準建設軍事能力。應圍繞「打即時優勢之戰」這個核心概念,按照在戰爭的決定點上打擊敵人的那一時刻以我之能擊敵之不能的思路,系統設計戰略能力、武器裝備、力量結構、作戰方式和具體戰法,以及作戰所需的一切。特別應關注新技術新手段在形成即時優勢中的突出作用,持續為形成即時優勢、打即時優勢之戰注入時代活力和科技定力。

(作者單位:軍事科學院戰爭研究院)

中國原創軍事資源:http://www.mod.gov.cn/gfbw/jmsd/4820888.html?