How Can Chinese Military Research Institutes Achieve “accelerated” Innovation in National Defense Science and Technology?

中國軍事科學研究院所如何實現國防科技創新「加速」?

現代英語:

At present, a new round of scientific and technological revolution, industrial revolution and military revolution is accelerating, and emerging fields such as space and the Internet will become the focus of future competition. The rapid development of science and technology, the ever-changing weapons and equipment and combat methods have put forward new requirements for military research institutes to conduct full-domain battlefield research.

Standing at the forefront of the times, how can military research institutes promote the implementation of the national defense science and technology innovation strategy and transform scientific research results into real combat effectiveness? How can we achieve the transition from “squatting to running” to “jumping” in scientific and technological innovation and achieve “acceleration” in scientific and technological innovation? Please read the news investigation brought by the PLA Daily reporter from the National Defense Engineering Research Institute of the Academy of Military Sciences.

Defense Science and Technology Innovation: Forging a Powerful Engine to Enhance National Defense Strength

■China National Defense News reporter Pan Di and special correspondent Zhao Jie

At present, a new round of scientific and technological revolution, industrial revolution and military revolution is accelerating, and emerging fields such as space and the Internet will become the focus of future competition. The rapid development of science and technology, the ever-changing weapons and equipment and combat methods have put forward new requirements for military research institutes to conduct full-domain battlefield research.

President Xi Jinping stressed the need to strengthen national defense science and technology innovation and vigorously improve the ability of independent innovation in national defense science and technology when attending the plenary meeting of the PLA and armed police delegation at the first session of the 13th National People’s Congress. Standing at the forefront of the times, how can military research institutes promote the implementation of national defense science and technology innovation strategies and transform scientific research results into real combat effectiveness? How can we achieve the transition from “squatting to running” to “jumping” in scientific and technological innovation and achieve “acceleration” in scientific and technological innovation? Please see the news investigation brought by reporters from the National Defense Engineering Research Institute of the Academy of Military Sciences.

Research direction——

We must work hard to study and strive for the future, and never lose our ambition

In late March, at a research institute of the National Defense Engineering Research Institute, researchers who had completed the experimental content of a project were busy collecting, organizing and analyzing data, which also meant that a forward-looking topic they had been studying had entered the finalization stage.

A few years ago, when the concept of a certain type of weapon was just proposed, researchers were keenly aware that with the continuous development of science and technology, once this type of weapon breaks through the technical barriers and is successfully developed, it will bring new challenges to the construction of national defense projects. Time waits for no one, and they have planned in detail the research direction of the subject and the key issues that need to be solved in combination with the current status of my country’s national defense projects. Today, the project team has basically mastered the damage effect of a certain new type of weapon on the target, and has proposed a new protection concept accordingly.

The successful completion of the project stems from the accurate aiming of the scientific research target, and the establishment of the scientific research direction is due to the keen insight and foresight of the scientific research team. This kind of forward-looking research is not an isolated case in the institute.

Engineer Han Yu recalled that as early as the 1980s, the research staff of the institute proposed the research direction of information warfare in the future war based on the development trend of warfare. After extensive data collection, investigation and understanding of the situation, and analysis of research rules, they outlined a forward-looking development blueprint for this research direction.

Thanks to the long-term research accumulation on informationized combat styles, after the institute formally established the relevant protection research laboratory last year, the laboratory’s researchers have been advancing related scientific research topics in an orderly and intensive manner.

The application and research cycle of a project is long, ranging from a few years to more than ten years, or even longer. If the research topic lacks foresight, the scientific research direction is not closely connected to the battlefield, and the results are difficult to help improve the combat effectiveness of the troops, it will inevitably cause a waste of manpower and material resources. In response to this situation, the institute clearly requires: “For research topics related to national defense projects, if they are not practical and forward-looking, they will not be allowed to be established.”

“Our research results usually have to be tested in the training ground, and the opinions and suggestions from the troops are summarized and collected on the feedback form, which provides an important reference basis for the next step of scientific research.” Wang Mingzhe, an engineer who is about to visit a certain test site, told reporters that in order to make the research topics stand the test of future wars, the researchers of the institute often go to plateaus and islands, and travel all over the country to investigate, inspect and demonstrate.

A few years ago, when conducting research in the army, researchers discovered that the camouflage cloth used by a brigade during a live-fire exercise was not conducive to camouflage and cover in special terrain. In response to the problem, researchers quickly organized a research project and designed a new information-based shielding system and cloth, making battlefield laying more convenient, faster, more confusing and concealed.

“When attending the plenary meeting of the People’s Liberation Army and the Armed Police Force delegation at the first session of the 13th National People’s Congress, President Xi stressed the need to pay close attention to the development trends of world military technology and weaponry. Indeed, conducting scientific research is like fighting a war. Only with a forward-looking vision can we win the commanding heights in overcoming difficult problems and seize the initiative for victory.” Speaking of the institute’s project approval standards, researcher Liu Ruichao said with emotion that scientific research in the field of national defense engineering must conform to the latest trends in combat styles and weapon development, and take one step ahead while being down-to-earth.

Scientific research talents——

How can the water be so clear? Because it comes from a source of fresh water.

“Look, these are the cracks that appeared after treatment…” On the afternoon of March 13, a laboratory of the institute was occasionally filled with the sound of machines roaring and explanations of experimental content.

In the laboratory, the reporter saw a soldier with gray hair in military uniform. Researcher Chen Anmin told the reporter that the old man was Gu Jincai, an academician of the Chinese Academy of Engineering, and the voice just heard outside the door was Academician Gu explaining the experiment content to the young backbone.

As an academician, the scientific research tasks are already very busy and there is no need for him to always be on the front line. However, Academician Gu, who is already 80 years old, still insists on patiently and meticulously teaching his apprentices and leading the team.

“Academician Gu and his group of veteran comrades have been working on the front line since the establishment of the unit, providing hands-on training and guidance to scientific researchers. I am especially grateful to the predecessors for their guidance and support in getting to where I am today.” Engineer Ma Dongliang is deeply impressed by the good atmosphere of the institute.

In 2009, Ma Dongliang was assigned to a research institute in the Central Plains. As a new employee, Ma Dongliang, who had not yet understood the content of his job, thought he would be assigned to do some “odd jobs” such as organizing documents. What he did not expect was that he was entrusted with an important task as soon as he arrived at the unit and participated in a major protection research project throughout the process.

“The project team is full of teachers with many books, and I, a ‘rookie’, can complete the project tasks?” Ma Dongliang recalled that he was both excited and terrified at the time. After working in the institute for a long time, he learned that the institute would formulate a capacity improvement plan for each key talent, formulate a targeted training plan for those with development potential, and cultivate a team of key talents through job training, sending students to study, cooperation and exchange, etc.

At the 2017 National Science and Technology Awards Commendation Conference, the project in which Ma Dongliang participated won the second prize of the National Science and Technology Progress Award. What surprised him was that the project leader put him in the position of the seventh author after considering everyone’s contribution, which is not only an honor but also a spur and encouragement for young researchers.

“My contribution to scientific research has not been ignored just because I am young. This is also an important reason why our young backbones stay here to concentrate on scientific research. The evaluation of awards focuses on professional ability and contribution. When evaluating and adjusting positions, it is not based on awards or achievements, but on comprehensive evaluation.” Ma Dongliang told reporters that he is currently working on four projects at the same time, working more than 10 hours a day, and working overtime on weekends is the norm. As he said, this fair competition method and evaluation mechanism make them “excited” and “energized” to do scientific research here.

Like Ma Dongliang, there are many young backbones born in the 1980s who like the talent training atmosphere of the institute and engage in scientific research and have achieved success and development. Some have become senior engineers, and some have served as laboratory leaders. A large number of scientific research backbones have grown rapidly here.

Research conditions——

The phoenix will come to roost when the phoenix tree is lush and leafy.

If information technology is the “multiplier” of combat effectiveness, then scientific research conditions are the “incubator” that gives birth to innovative results.

During the interview at the research institute, the reporter found that the place where the researchers spent the longest time was the test site.

At a test site of the institute, the reporter met Associate Researcher Xu Xiangyun who was preparing the test content. He told the reporter that each research room has several laboratories or test sites built according to the needs of scientific research projects. In addition to purchasing local mature technology products, most of the equipment is independently developed. A new type of test equipment next to him was developed and put into use last year.

At the end of 2012, a new type of weapon was released abroad. According to information obtained by scientific and technological personnel, its attack performance and its destructiveness to protective projects are astonishing, and it is likely to cause many protective projects to lose their due effectiveness.

As it concerns the safety of national defense projects, researchers need to find out the relevant performance of this type of weapon as soon as possible, and to obtain the most accurate information, they need to conduct relevant tests. Because it is a new type of weapon, there is no alternative test method in China, and it often takes 3 years or even longer to apply for the development of test equipment. This practical problem made the researchers of the institute frown. What should they do?

“A special research team composed of academicians and experts will be established to work together to overcome difficulties.” After the researchers reported the situation, the institute also invited experts in related fields from all over the country to discuss the matter. After multiple scientific discussions, they immediately decided to start the development of the test equipment as soon as possible.

In 2015, the Institute developed a certain type of test equipment when most similar test equipment in China could only be used in a fixed manner. With the test equipment, the research team quickly began to apply for a certain evaluation test project. Today, the research team has successfully conducted tests such as weapon power research and target damage, and has proposed new protection concepts and structures accordingly.

“Today, a big challenge facing military research institutions is how to fully mobilize the enthusiasm, initiative and innovation of researchers. We must try our best to provide researchers with advanced research conditions in a timely manner to ensure innovative research.” said the leader of the institute. In recent years, they have successively built an engineering comprehensive demonstration environment laboratory with an area of ​​more than 1,000 square meters and more than 200 sets of equipment and software, as well as dynamic and static load test platforms.

If you want to do your work well, you must first sharpen your tools. At present, while continuing to implement the tasks of scientific research conditions construction, the institute focuses on the current situation at home and abroad and the development trend of related majors, actively plans new scientific research conditions construction projects, and promotes the application of the “Major Underground Engineering Safety” National Key Laboratory. A project aimed at the protection technology research of the world’s cutting-edge weapons will be carried out in the newly built simulation test center…

Accelerate national defense science and technology innovation

■Weidong

At the plenary meeting of the PLA and Armed Police Force delegation at the first session of the 13th National People’s Congress, President Xi Jinping stressed the need to strengthen national defense science and technology innovation, accelerate the construction of a military-civilian integration innovation system, and vigorously improve the independent innovation capabilities of national defense science and technology. This important thought profoundly reveals the objective laws of national defense science and technology development and points out the direction for the prosperity and development of modern military science.

In recent years, as the strategic commanding heights of science and technology have accelerated their development to the deep earth, deep sea and deep space, the forms of war and combat styles have undergone profound changes, and the process of transforming combat theories into battlefield actions and technology into equipment has continued to accelerate, and the cycle has been further shortened. Many military powers have seen the dawn of intelligent military transformation and have launched a new round of military technology innovation.

In the face of the ever-changing technological development, military research institutes must take the lead in the national defense science and technology game, take the opportunity of reshaping the military research system, stand at the overall height of ensuring victory in the informationized war, step up the strategic transformation, and firmly grasp the “bull’s nose” of independent innovation, so as to take the initiative in the grand journey of becoming world-class.

Qian Xuesen once said that national defense science and technology innovation must not be satisfied with “chasing tail” or “looking in the mirror”. Military research institutes should be bold in their ideas, have the courage to emancipate their minds, break the mindset, make macro plans for their long-term development, and optimize the top-level design. At the same time, they should also carry out forward-looking demonstrations of the needs for the development of national defense science and technology innovation, independently and proactively carry out basic, leading, and disruptive innovative technology research, keenly discover new directions and new fields for the generation of new quality combat effectiveness, and strive to stand at the forefront and be at the forefront of the world’s military science and technology competition.

It is the duty of the general to not forget to fight while defending; it is the duty of the soldiers to be well-prepared for training. Focusing on actual combat is both a goal and a guide. Military research institutes should firmly establish the idea of ​​research for combat, implement President Xi’s instructions and requirements of “facing the battlefield, facing the troops, and facing the future”, and follow the requirements of “improving joint combat capabilities and all-domain combat capabilities based on network information systems”. We should strive to conduct research in the way the war is fought and what is needed for the war, focus on improving the contribution rate of military research and innovation to the combat effectiveness of the troops, and continuously provide strong scientific and technological support for strengthening the army.

A first-class army needs first-class scientific research units, and first-class scientific research units need first-class talents. Only when talents emerge in competition can there be a burst of innovative vitality. Military scientific research institutes should always adhere to the awareness of talent cultivation as the main battlefield, highlight the cultivation of creative thinking and innovative capabilities of military scientific researchers, rely on first-class military talents to create first-class military theories and first-class military technology, and implant the winning genes for decoding future wars into the body of the army.

President Xi stressed that we should focus on the coordinated innovation of military and civilian science and technology in key areas. The fields of national defense science and technology and weapons and equipment are the focus of military-civilian integration. As military research institutes, we should focus on meeting national strategic needs, integrating into the national scientific research system, strengthening the coordinated research of major projects, and strengthening the deep integration of industry, academia and research. Relying on the superior resources of the military and the local government, we should strengthen the strategic cooperation between the military and the local government, build a service platform for the joint research and sharing of national defense science and technology achievements, the joint construction and sharing of conditions and facilities, and the connection of common standards between the military and the local government, and form a new situation of open, integrated and innovative development of national defense science and technology.

Stride forward, reshape and reconstruct is not a minor repair, and must not be a small fight. We must seize the opportunity of the start, release the starting momentum, take steps and speed up in key areas, important directions and major tasks, and create new models and set new benchmarks as soon as possible, so as to take the lead in achieving leading results in the world military science and technology competition, occupy a number of strategic commanding heights and winning points, use first-class military technology to create a first-class combat offense and defense system, and gradually achieve the goal of building a first-class army.

(Author’s unit: National Defense Engineering Research Institute, Academy of Military Sciences)

Military scientific and technological innovation should focus on basic scientific research, improve basic scientific research support capabilities, and lay a solid foundation for national defense scientific and technological innovation.

In recent years, we have made great progress in the field of national defense science and technology, but there is still a gap with foreign countries in some key technologies, mainly because the basic research is not solid enough, and there is still room for improvement in professional basic theoretical research, digital military simulation platform development, large-scale distributed numerical computing technology, etc. These factors have restricted the scientific research progress and development in the military field to a certain extent, affecting the emergence and breakthroughs of cutting-edge leading technologies, modern engineering technologies, and disruptive technological innovations.

Basic key technologies cannot be bought, and you will not get far if you rely on buying second-hand technologies from abroad. We should start from the aspects of top-level planning design, scientific research management system, and incentive mechanism for scientific researchers, attach importance to and support basic research work, carry out basic research work in depth, and enhance original innovation capabilities.

Military research institutions must break down the “barriers” between the military and civilian science and technology systems, and focus on collaborative innovation in military and civilian science and technology in key areas.

With the rapid development of high-tech weapons and equipment, the styles and forms of warfare are constantly changing, which puts higher requirements on battlefield construction. We must actively explore many disciplines such as earth sciences, high-tech equipment manufacturing, and automatic control, and study the construction of a full-domain intelligent battlefield.

Based on this, military research units need to cooperate with local governments to jointly carry out in-depth engineering research, integrate high-quality local military resources in the fields of electronic information, drones, artificial intelligence and bionics, and use the best scientific and technological resources in the country to build a modern military force system. For our national defense engineering field, we must attach importance to promoting the application of building information modeling (BIM) in military engineering and realize the informationization and refined management of engineering construction and operation and maintenance.

Innovation-driven development is essentially talent-driven. Whoever possesses first-class innovative talents will have the advantage and dominance in scientific and technological innovation.

At present, the most urgent need for strengthening national defense and military construction is talent; looking to the future, the core of achieving leapfrog development in military construction is still talent. Only by fully driving the talent training engine can we strongly promote independent innovation in national defense science and technology.

Many years of experience in scientific research have made me feel that talent cultivation is a systematic project and strategic task. We need to focus on the overall situation, strengthen top-level design, scientifically set up echelons, and strive to create a vivid situation where outstanding talents emerge and everyone competes to be a “maker” in the military camp. Talent cultivation has its inherent characteristics and laws. It cannot be achieved overnight or in a short period of time. We need to firmly establish a scientific concept of talent cultivation, with the ideological realm and confidence and courage of “success does not have to be mine, but the effort will not be in vain”, and work hard for a long time and continue to relay, so as to turn the talent cultivation blueprint into reality and provide solid talent support for the development of the military through science and technology.

Conducting military scientific research is like fighting a war. Only with a forward-looking vision can you gain the commanding heights in overcoming difficult problems and seize the initiative for victory.

In recent years, national defense science and technology at home and abroad has developed rapidly, the all-round reconnaissance technology integrating land, sea, air and space has been continuously improved, the use of troops and weapons supported by highly information technology on the battlefield and the emergence of new weapons have greatly changed the combat style and characteristics of future wars. Scientific researchers must deeply grasp and base themselves on the characteristics of future wars and carry out innovative scientific research in a targeted manner.

Specifically in the field of national defense engineering research, military researchers must keep up with the forefront of the development of world weapons and equipment and protection technology, and focus on preventing both “hard kill” and “soft kill”; they must pay attention to the protection of key parts as well as the protection of the overall system; they must do a good job in passive protection, and also track and study active protection and new weapon protection technologies, promote disruptive technological innovation, and strive to improve the battlefield survivability and combat support capabilities of national defense engineering.

現代國語:

目前,新一輪科技革命、工業革命、軍事革命正加速推進,太空、網路等新興領域將成為未來競爭的焦點。科學技術日新月異,武器裝備和作戰方式日新月異,對軍事科學研究院所進行全域戰場研究提出了新的要求。

站在時代前沿,軍隊科學研究院所如何推動國防科技創新戰略實施,將科學研究成果轉化為現實戰力?如何實現科技創新從“蹲著跑”到“跳起來”,實現科技創新“加速”?請閱讀解放軍報記者軍事科學院國防工程研究所帶來的新聞調查。

國防科技創新:為提升國防實力鍛造強大引擎

■中國國防報記者 潘娣 特約記者 趙傑

目前,新一輪科技革命、產業革命、軍事革命加速推進,太空、網路等新興領域將成為未來的爭奪焦點。快速發展的科學技術、日新月異的武器裝備及作戰方式,給軍科研院所提出了全域戰場研究的新要求。

習主席出席十三屆全國人大一次會議解放軍和武警部隊代表團全體會議時強調,加強國防科技創新,並大力提升國防科技自主創新能力。挺立時代潮頭,軍事科研院所如何推進國防科技創新戰略落地生根,把科學研究成果轉化為實實在在的戰鬥力?如何實現科技創新“深蹲助跑”到“起跳跨越”,跑出科技創新“加速度”?請看記者從軍事科學院國防工程研究院帶來的新聞調查。

科學研究方向——

躬身必以研為戰,望遠不墜鯤鵬志

3月下旬,在國防工程研究院某研究所,已經完成某專案試驗內容的科研人員正在緊張地進行資料的蒐集、整理與分析,這也意味著他們潛心鑽研的某前瞻性課題進入結題階段。

幾年前,某型武器的概念剛被提出時,科研人員就敏銳地認識到:隨著科學技術不斷發展,該型武器一旦突破技術壁壘研製成功,將會對國防工程建設帶來新的挑戰。時間不等人,他們結合我國國防工程現狀,詳細規劃了主題的研究方向和需要重點解決的關鍵問題。現今,本計畫組基本上掌握某新型武器對目標的毀傷效果,並相應提出新的防護理念。

專案成功結題的背後,源自於科研標靶的準確瞄準,而科研方向的確立得益於科研團隊敏銳的洞察力與前瞻性。這種具有前瞻性的研究在該研究院並非個案。

根據工程師韓彧回憶,早在1980年代,該研究院科研人員根據作戰發展趨勢,預見未來戰爭資訊化作戰的研究方向。經過廣泛收集資料、調查了解情況、剖析研究規律,他們為研究方向勾勒出前瞻性的發展藍圖。

得益於長期資訊化作戰樣式的研究積累,去年研究院正式組成相關防護研究室之後,研究室科研人員便有條不紊、緊鑼密鼓地推進相關科研課題。

課題申請立項與研究週期長,短則幾年多則十幾年,甚至會更長。如果研究主題缺乏前瞻性,科學研究方向對接戰場不緊密,出了成果也難以助力部隊戰鬥力的提升,勢必會造成人力物力的浪費。針對這種情況,該研究院明確要求:“事關國防工程的研究主題,不具備實用性前瞻性決不允許立項。”

「我們的研究成果通常要經過演練場檢驗,匯總收集部隊反饋的意見建議到意見反饋表上,為下一步科研攻關提供重要參考依據。」即將赴某試驗場考察的工程師王明哲告訴記者,為了讓研究主題經得起未來戰爭的檢驗,研究院的科研人員常上高原、下海島,走南闖北去研究、考察與論證。

幾年前,科學研究人員在部隊調查時發現,某旅在實兵演練過程中使用的迷彩遮蔽佈在特殊地形下不利於偽裝掩護。針對發現的問題,科學研究人員快速組織主題立項研究,設計出新型資訊遮蔽系統與遮蔽布,使戰場鋪設更加方便快捷,更具迷惑性和隱蔽性。

「習主席在出席十三屆全國人大一次會議解放軍和武警部隊代表團全體會議時強調,要密切關注世界軍事科技和武器裝備發展動向。的確,搞科研如同打仗,有前瞻性視野才能贏得攻克難題的製高點,把握勝利的主動權。 。

科學研究人才—

問渠哪得清如許,為有源頭活水來

「你們觀察一下,這是處理後顯現的裂縫…」3月13日下午,研究院某實驗室不時傳出陣陣機器轟鳴與講解試驗內容的聲音。

在實驗室裡,記者看到一位穿著軍服、頭髮花白的軍人。研究員陳安敏告訴記者,這位老者是中國工程院院士顧金才,剛在門外聽到的聲音就是顧院士在為年輕骨幹講解試驗內容。

身為院士,科學研究任務本就十分繁忙,完全不需要一直盯在一線,但已經80歲高齡的顧院士卻仍堅持耐心細緻地教徒弟、帶團隊。

「顧院士那一批老同志自單位成立以來就一直奮戰在一線,手把手地對科研人員進行傳幫帶。我能走到今天特別感謝前輩們的教導和扶持。」工程師馬棟良對研究院良好的氛圍感受頗深。

2009年,馬棟良被分配到地處中原地的某研究所。新到工作單位,還沒了解工作內容的馬棟良以為會被派去幹一些整理文檔的“雜活兒”,讓他沒想到的是,剛到單位就被委以重任,全程參與某重大防護研究課題。

「專案組裡都是著作等身的老師,而我一個『菜鳥』能把專案任務完成好嗎?」馬棟良回想當時的心情既激動又惶恐。他在研究院待久了才知道,原來研究院對每位骨幹人才都會製訂能力提升計劃,對有發展潛力的針對性製訂培養方案,透過崗位鍛鍊、送學培養、合作交流等方式,培養骨幹人才方隊。

在2017年度國家科學技術獎勵表揚大會上,馬棟良參與的這個計畫獲得國家科學技術進步獎二等獎。讓他既驚訝又意外的是,專案組組長綜合考慮每個人的貢獻後,將他放在了第七作者的位置,這對年輕科研人員來說既是榮譽,更是鞭策和激勵。

「並沒有因為年輕就忽略我在科研中的貢獻,這也是我們年輕骨幹留在這裡潛心搞科研的重要原因。評獎看重專業能力與所作所為,在評職調級時不唯獎不唯成果,而是依據綜合性評估。如他所說,這種公平的競爭方式與評價機制,讓他們在這裡搞科研「得勁兒」「有勁兒」。

而和馬棟良一樣,喜歡研究院人才培養氛圍而深耕科研,並取得成就與發展的「80後」年輕骨幹不在少數,有的成為了高級工程師,有的擔任了研究室領導,一大批科研骨幹在這裡快速成長起來。

科學研究條件——

梧桐枝繁葉茂,自有鳳凰來棲

如果資訊科技是戰鬥力的“倍增器”,那麼科研條件就是催生創新成果的“孵化器”。

在研究院採訪的日子裡,記者發現科學研究人員待得最久的地方就是試驗場。

在研究院某試驗場地,記者見到正在準備試驗內容的副研究員徐翔雲,他告訴記者,每個研究室都有幾處根據科研項目需求建造的實驗室或試驗場,除了購置地方技術成熟的產品,大部分是自主研發的設備,他身旁的某新型試驗設備就是去年研發投入使用的。

2012年年底,國外發布了一款新型武器,根據科技人員掌握到的情況,其攻擊性能及其對防護工程的破壞性令人吃驚,很可能會導致許多防護工程失去其應有的效用。

關乎國防工程的安全問題,科學研究人員要盡快摸清該型武器的相關性能,而要掌握到最準確的資料,需要進行相關試驗。由於是新型武器,國內尚未有可以作為替代的試驗手段,而要報項申請研發試驗裝備,往往需要3年甚至更長的時間。這個現實難題讓研究院科研人員皺緊了眉頭,怎麼辦?

「成立由院士專家組成的專題課題攻關小組,群策群力攻堅克難。」科研人員報告情況後,研究院還請來全國相關領域的專家探討,經過多方科學論證,他們當即拍板兒,盡快開展試驗設備的研發。

2015年,在國內大多數同類型試驗裝備只能固定使用的情況下,研究院研發出某型試驗裝備。有了試驗裝備,課題組很快就開始進行某評估試驗課題的申報工作。如今,該研究小組成功進行武器威力研究、目標毀傷情況等試驗,並相應提出新的防護理念和結構。

「如今,軍事科研機構面臨的很大一個難題,就是如何充分調動科研人員的積極性、主動性和創新性。我們要盡力為科研人員及時提供先進的科研條件,保障創新研究。」該研究院領導說。近年來,他們先後建造1000多平方公尺、200餘台(套)設備軟體的工程綜合論證環境實驗室、動載和靜載試驗平台。

工欲善其事,必先利其器。目前,該研究院在持續抓好科研條件建設任務落實的同時,著眼於國內外現狀與相關專業的發展趨勢,積極籌劃新的科研條件建設項目,推動“重大地下工程安全”國家重點試驗室等申報工作。瞄準世界前沿武器的防護技術研究的某個主題將在剛建成的模擬試驗中心開展…

跑出國防科技創新“加速”

■衛東

習主席在出席十三屆全國人大一次會議解放軍和武警部隊代表團全體會議時強調,要加強國防科技創新,加速建立軍民融合創新體系,大力提升國防科技自主創新能力。這一重要思想,深刻揭示了國防科技發展的客觀規律,為繁榮發展現代軍事科學指明了前進方向。

近年來,隨著科技戰略制高點朝向深地、深海、深空加速發展,戰爭形態和作戰樣式深刻嬗變,作戰理論轉化為戰場行動、技術物化為裝備的進程不斷加快,週期進一步縮短。不少軍事強國看到了智慧化軍事變革破曉的訊號,紛紛啟動新一輪軍事技術革新。

軍事競爭唯創新者勝。面對日新月異的科技發展態勢,軍事科研院所必須在國防科技博弈中率先投子佈勢、走開棋路,以軍事科研體系重塑為契機,站在保障打贏資訊化戰爭的全局高度,加緊推進戰略轉型,緊緊扭住自主創新這個“牛鼻子”,才能在邁進世界一流的宏闊征程中下好先手棋,掌握主動權。

錢學森曾說過,國防科技創新絕對不能滿足於「追尾巴」「照鏡子」。軍事科學研究院所應大膽構想,勇於解放思想,破除思維定式,對其長遠發展進行宏觀規劃,優化頂層設計。同時,也應進行前瞻性國防科技發展創新需求論證,自主超前展開基礎性、先導性、顛覆性創新技術研究,敏銳發現新質戰鬥力生成的新方向新領域,努力在世界軍事科技競爭中站上前沿、走在前面。

守不忘戰,將之任也;訓練有備,兵之事也。聚焦實戰是目標,也是牽引。軍事科研院所應牢固樹立研為戰思想,貫徹習主席「面向戰場、面向部隊、面向未來」的指示要求,按照「提高基於網路資訊體系的聯合作戰能力、全域作戰能力」的要求,努力做到仗怎麼打科學研究就怎麼搞,打仗需要什麼科學研究就搞什麼,著力提升軍事科學研究創新對部隊戰鬥力的貢獻率,不斷為強軍興軍提供強而有力的科技支撐。

一流的軍隊需要一流的科學研究單位,一流的科學研究單位需要一流的人才。只有人才競相湧現,才有創新活力迸發。軍事科研院所應始終堅持人才培養的主陣地意識,突顯對軍事科研工作者創造性思維、創新型能力的培養,靠一流軍事人才創造一流軍事理論和一流軍事科技,為軍隊的肌體植入解碼未來戰爭的致勝基因。

習主席強調,要突顯抓好重點領域軍民科技協同創新。國防科技與武器裝備領域是軍民融合的重點,作為軍事科研院所,應注重對接國家戰略需求,融入國家科研體系,加強重大項目協同攻關,強化產研深度融合。依托軍地優勢資源,強化軍地戰略協作,建構國防科技成果共研共享、條件設施共建共用、通用標準軍地銜接的服務平台,形成國防科技開放融合創新發展新局面。

闊步前進,重塑重構不是小修小補,絕不能小打小鬧。必須抓住開局契機,釋放起跑動能,在重點領域、重要方向和重大任務上把步子邁起來、速度提上去,盡快打造新樣板,樹起新標桿,從而在世界軍事科技競爭中率先取得引領性成果,佔據若干戰略制高點、致勝點,以一流軍事科技打造一流作戰攻防體系,逐步實現一流軍隊的建設目標。

(作者單位:軍事科學學院國防工程研究院)

軍事科技創新要聚焦基礎科學研究,提升基礎研究支撐能力,築牢國防科技創新的根基。

近年來,我們在國防科技領域取得非常大的進展,但在一些關鍵技術上和國外仍存在差距,主要是因為基礎性研究不夠紮實,在專業基礎理論研究、數位化軍事模擬平台研發、大型分散式數值計算技術等方面仍有待提升。這些因素都在一定程度上限制了軍事領域的科研進步與發展,影響著前沿引領技術、現代工程技術、顛覆性技術創新等方面的產生與突破。

基礎性關鍵技術絕對買不來,靠從國外買二手技術是走不遠的。若要從規劃頂層設計、研究管理制度、研究人員激勵機制等面向入手,實際重視與扶持基礎研究工作,深入進行基礎研究工作,提升原始創新能力。

軍事科研機構必須破除軍民科技體系之間的“藩籬”,突顯抓好重點領域軍民科技協同創新。

隨著當前高新技術武器裝備迅速發展,戰爭樣式和形態推陳出新,對戰場建設提出了更高要求,要積極探索地球科學、高新技術裝備製造、自動控制等眾多學科,研究全局智能戰場建設。

基於此,軍事科研單位需要和地方協同合作,共同做好深部工程研究,在電子資訊、無人機、人工智慧和仿生技術等高新科技研究方向,整合軍隊地方優質資源,用全國最優質的科技資源建構現代軍事力量體系。對我們國防工程領域而言,要重視推進建築資訊模型(BIM)在軍事工程的應用,實現工程建設與運作維護的資訊化、精細化管理。

創新驅動實質上是人才驅動,誰擁有了一流的創新人才,誰就擁有了科技創新的優勢和主導權。

著眼當下,加強國防和軍隊建設最緊張的就是人才;放眼未來,實現軍隊建設跨越式發展最核心的還是人才。全力驅動人才培養引擎,才能強勢助推國防科技自主創新。

多年的科學研究工作經驗使我感到,人才培育工作是一項系統工程和策略任務,需要著眼全局,加強頂層設計,科學設置梯次,著力形成優秀人才競相湧現、人人爭當軍營「創客」的生動局面。人才培育有其固有的特點和規律,不可能一蹴而就、短期速成,需要牢固樹立科學的人才培養觀,以「功成不必在我,而功力必不唐捐」的思想境界和信心勇氣,久久為功、持續接力,才能把人才培養藍圖變成現實,為科技興軍提供堅實的人才支撐。

搞軍事科研如同打仗,有前瞻性視野才能贏得攻克難題的製高點,把握勝利的主動權。

近年來,國內外國防科技快速發展,陸海空天一體的全方位偵察技術不斷提升,戰場中以高度資訊化技術為支撐的兵力武器運用以及新式武器的問世,大大改變了未來戰爭的作戰樣式和特徵,科學研究人員要深刻掌握並立足未來戰爭特點,有針對性地進行創新性科學研究工作。

具體到國防工程研究領域,軍事科研人員要緊跟世界武器裝備和防護技術發展的前沿,既要注重防“硬殺傷”,也要注重防“軟殺傷”;既要注重對要害部位的防護,也要注重整體系統防護;既要搞好被動防護,也要追蹤研究主動防護和新型武器防護技術,推動顛覆性技術創新,努力提升國防工程戰場生存能力和作戰保障能力。

来源:中国军网综合

作者:潘娣 赵杰等责任编辑:柳晨

2018-05-02 

中國原創軍事資源:https://www.81.cn/2018zt/2018-05/02/content_8020899.htm

Accelerate Innovation & Development of Chinese National Defence Science and Technology Support Modernization of China’s Military

加速國防科技創新發展支撐軍隊現代化

2023年11月26日07:00

現代英語:

President Xi Jinping emphasized that military scientific research has a strong exploratory nature, and innovation must be placed in a more prominent position, strategic planning and top-level design must be done well, innovation in military theory, innovation in national defense science and technology, and innovation in organizational models of military scientific research must be strengthened, and The engine of military scientific research and innovation is running at full speed. This important statement by President Xi profoundly reveals the importance of national defense scientific and technological innovation and is the fundamental guideline for promoting the development of national defense scientific and technological innovation under the new situation. We must launch the engine of innovation and development of national defense science and technology at full speed, promote the high-quality development of national defense science and technology, and provide strong material and technical support to achieve the centenary goal of the founding of the army and comprehensively build a world-class army.

Strengthen basic research towards the development frontier

At present, a new round of scientific and technological revolution and industrial transformation are taking place, and the world’s new military revolution is accelerating, ushering in the era of moving from informatization to intelligence, which will inevitably bring about major evolutions in the form of war, major adjustments in military strategies, The combat methods have undergone major changes and the combat forces have undergone a major transformation. To promote the innovative development of national defense science and technology, we must adhere to the forefront of the world’s military science and technology development, the major needs of building a strong military, and the future battlefield, conscientiously explore the winning mechanism of future wars, continuously increase the contribution rate of national defense science and technology to war preparation, deterrence and victory, and seize the future military Injecting strong momentum into the commanding heights of competitive strategy.

Aim at the forefront of the world’s military science and technology, keep up with the world’s new military revolution, especially the development direction of military science and technology, seize the opportunities arising from the new round of scientific and technological revolution and industrial revolution, strive to narrow the gap in key areas, and measure innovation by obtaining comparative advantages. The fundamental standards for development are to select the breakthrough points and focus points of scientific and technological innovation, strengthen forward-looking planning and design, allocate limited resources to major technological research, concentrate superior forces, vigorously conquer key technologies in the military field, and master a number of independent intellectual property rights. core technology. From structural design to force ratio to scientific research projects, we should seize the main research areas, reflect the development frontier, form overall advantages, and actively seek strategic initiative and military advantages.

With the continuous development of science and technology, the characteristics of multi-disciplinary professional cross-clustering and multi-field technology integration have become increasingly prominent. Big crossover, big integration, and big breakthroughs have become the basic laws of the development of modern military science. To promote the innovative development of national defense science and technology, we must strive to improve technological cognition, dare to explore new paths in construction ideas and technological paths, open up channels for transforming technological chains into industrial chains, and enhance national strategic capabilities and weapons and equipment development capabilities. It is necessary to follow the essential requirements and inherent laws of national defense science and technology, stand in the context of the national innovation system and military-civilian integrated collaborative innovation, accelerate the establishment of a strategic, basic, cutting-edge, and open scientific research and innovation platform, and promote the direction of national defense science and technology. Military theory and military technology are closely integrated, basic research and applied research promote each other, and independent innovation and absorption and reference are emphasized simultaneously. Adapt to the requirements of national defense science and technology innovation and development, do a good job in basic management, and establish a basic supporting management mechanism to ensure the development of national defense science and technology innovation; strengthen project management, and strive to form a classified, efficient, flexible, adaptive, and sustainable management mechanism and work process; Broaden technology transformation channels, establish and improve policy systems and mechanisms for the transformation and application of national defense scientific and technological achievements, and promote the rapid transformation and application of national defense scientific and technological innovation achievements.

Practice has proved that basic research is the key to how high and how far national defense science and technology innovation can “jump” and “run”. Therefore, we must focus on innovative basic and applied basic research, build a rich scientific reserve, correctly grasp the relationship between basic research and technology application, and provide strong support for promoting the innovative development of national defense science and technology. First, basic research should be regarded as the leading project to promote the innovation and development of national defense science and technology, and be placed in a strategic position of priority development. Sufficient and stable funding investment should be maintained, advance layout and priority support should be provided in several major areas, and new concepts, new principles, and New methods, striving to achieve major breakthroughs in basic, cutting-edge and strategic fields. Second, we must adhere to the use of systems engineering thinking and methods, correctly understand and scientifically guide basic research and technology application practices, not only promote the transformation and application of scientific and technological achievements, but also cultivate new technological growth points to form “basic research, development and application, and achievement transformation”. , a closed link to integrated application and re-innovation. Third, we must open up channels for the transformation of national defense scientific and technological achievements as soon as possible, and promote scientific research achievements to take root in building a world-class army and serving in war preparations. Actively explore scientific research collaboration in the form of technology groups, project groups, etc., strengthen military-civilian communication and collaboration, smooth channels for technical needs, and promote the transformation of scientific and technological achievements as soon as possible.

Establish scientific research as a battle orientation and win the future through innovation

Focusing on actual combat is the core goal of military construction. We must regard the fundamental traction of adhering to combat needs as an important guiding principle for the innovative development of national defense science and technology. We must always aim at the innovative development of military theory and military science and technology for tomorrow’s war, and explore the formation of military theories that keep pace with the development of the times and the country. A national defense science and technology innovation system that is adapted to security needs and meets future combat requirements.

To promote the innovative development of national defense science and technology, we must firmly establish the fundamental orientation of scientific research for warfare, conduct in-depth research on the characteristics, combat styles, operational focus and winning mechanisms under informationized conditions, persist in guiding basic research and exploration of strategic frontier technologies based on operational needs, and further improve Scientific research projects focus on systems and mechanisms such as preparation for war. At the same time, we must keep a close eye on future combat opponents, accurately grasp the evolution of war forms and the development trends of world military science and technology, constantly update ideas and concepts, and scientifically plan today’s preparations, design tomorrow’s wars, and win on future battlefields. .

Combat effectiveness has always been the decisive factor in the success or failure of the army, and combat effectiveness standards are the only fundamental standards for military construction. The rapid development of high-tech with information technology as the core has resulted in unprecedented profound changes in the complexity of offensive and defensive warfare mechanisms, and has had an unprecedented profound impact on the generation and improvement of combat effectiveness. Therefore, we must regard independent innovation as an important factor, component and way of realizing the transformation of the combat effectiveness generation model, be good at discovering the potential driving force of new technologies for the development of combat effectiveness, and promote the development of national defense science and technology innovation in the great practice of comprehensively realizing the goal of strengthening the military.

In order to adapt to the requirements of winning informationized and intelligent wars and focus on effectively fulfilling missions and tasks, it is necessary to adhere to the strategic basis of independent innovation, improve the scientific research collaborative innovation mechanism, create an integrated innovation platform, and comprehensively promote the development of national defense science and technology innovation. First, we should regard the weak links of national defense science and technology as the main direction of promoting independent innovation, and at the same time increase the intensity of original innovation, focus on mastering key core technologies in some important fields and technological frontiers, and strive to build a system that can continuously increase national defense science and technology reserves and A national defense science and technology innovation system that can enable rapid transformation. Correctly handle the relationship between key technologies and general technologies, general technologies and special technologies, traditional technologies and high and new technologies, achieve overall consideration and rational layout, and achieve mutual support and coordinated development of various technologies and disciplines. Second, we must grasp the needs for the development of national defense science and technology innovation, focus on solving problems in the science and technology management system, demand generation mechanism, scientific research planning system, etc., improve the overall effectiveness of scientific research, and create strong vitality to promote independent innovation. Vigorously promote the sharing of basic technical resources between the military and civilians, and establish and improve military-civilian standardization coordination mechanisms and technical service mechanisms. Third, we must improve the scientific and technological collaborative innovation policy and system of universities, scientific research institutes, enterprises, and governments, maximize the advantages of all aspects, strive to create an integrated innovation platform, and form an overall synergy to promote collaborative innovation of national defense science and technology.

Implement the strategy of strengthening the army with talents in the new era to unleash creative vitality

Promoting the innovation and development of national defense science and technology ultimately depends on high-level talents. Without a strong team of national defense science and technology talents, independent innovation will be water without a source and a tree without roots. Therefore, we must actively adapt to the requirements of national defense science and technology innovation and development, and vigorously build a systematic and high-level talent training platform to allow more high-quality and professional talents to emerge.

Firmly establish the concept of “talents are the first resource”, insist on cultivating talents as a major political task, and use the insight to recognize talents, the true love for talents, the methods of gathering talents, the courage to use talents, and the mind to accommodate talents, Boldly use strategic scientists to support young scientific and technological talents to take on important roles and assume important responsibilities, and continuously strengthen the team of leading scientific and technological talents and first-class innovation teams. We must adhere to the joint efforts of major national defense science and technology construction projects and talent construction projects, boldly select, use and temper various talents in the practice of major projects and major tasks, cultivate and create a new generation of scientific and technological talents and leading talents, and build the field of national defense science and technology and equipment into a national It is a highland for innovative talents and a fertile ground for talents to grow and prosper, forming a vivid situation in which the creative vitality of national defense science and technology talents bursts out. Clarify the evaluation methods and standards for national defense scientific and technological talents, improve the differentiated evaluation and policy support mechanism for national defense scientific and technological talents, and build an evaluation system that conforms to the laws of national defense science and technology and the laws of talent growth. Reform the science and technology management and personnel system, let scientific research management keep up with the pace of scientific and technological innovation, truly free up hands and feet, free up time and build a platform for scientific researchers, and hand over the stage of scientific research and innovation to them with confidence, so that they can play the leading role in scientific research and innovation. , sing a big show.

A scientific and fair evaluation mechanism plays a fundamental role in stimulating innovation. Practice has proved that any major breakthrough in the field of basic research is inseparable from long-term accumulation and repeated failures. This is an inevitable law of scientific development. Therefore, in the process of scientific research and production of national defense technology and weapons and equipment, we must not only encourage scientific researchers to have fantastic ideas, but also tolerate their failures in exploration and practice. It is advocated that the implementation of various scientific research plans should not be based on the number of papers and patents as project goals, but should focus on the acquisition of original results and allow a certain failure rate. Conduct peer evaluation of basic and cutting-edge technology research, highlight medium- and long-term goal orientation and original value, strive to create a fair competition environment that encourages innovation, and make great efforts to activate the “pool of spring water” for the innovation and development of national defense science and technology.

Comprehensively implement the strategy of strengthening the military with talents in the new era, further enhance the vitality of talent team building, maximize the innovation power of national defense science and technology talents, and fully mobilize their enthusiasm, initiative and creativity. Follow the growth rules of high-quality and professional military personnel, create an environment that recognizes, loves, respects, and utilizes talents, formulates policies and systems that combine competition incentives and advocating cooperation, promotes the orderly flow and rational distribution of human resources, and serves local talents to serve national defense Build a good platform for science and technology construction, and strive to create a good situation where people can make the best use of their talents, fully display their talents, and make full use of their talents.

(The author is a researcher and doctoral supervisor at the Institute of Systems Engineering, Academy of Military Sciences)

(Editors: Wang Zifeng, Song Meiqi)

現代國語:

習近平主席強調指出,軍事科學研究具有很強的探索性,要把創新擺在更加突出的位置,做好戰略謀劃和頂層設計,加強軍事理論創新、國防科技創新、軍事科研工作組織模式創新,把軍事科研創新的引擎全速發動。習主席的這一重要論述,深刻揭示了國防科技創新的重要性,是新形勢下推動國防科技創新發展的根本遵循。我們要全速發動國防科技創新發展的引擎,促進國防科技高品質發展,為實現建軍一百年奮鬥目標、全面建成世界一流軍隊提供強而有力的物質技術支撐。

面向發展前沿 加強基礎研究

當前,新一輪科技革命和產業變革正孕育興起,世界新軍事革命加速推進,拉開了從資訊化向智慧化邁進的時代大幕,必將帶來戰爭形態大演進、軍事戰略大調整、作戰方式大嬗變、作戰力量大轉型。推進國防科技創新發展,必須堅持面向世界軍事科技發展前沿,面向強軍實踐重大需求,面向未來戰場,認真探索未來戰爭制勝機理,不斷提高國防科技對備戰懾戰勝戰的貢獻率,為搶佔未來軍事競爭戰略制高點注入強勁動能。

瞄準世界軍事科技前沿,緊跟世界新軍事革命特別是軍事科技發展方向,緊緊抓住新一輪科技革命和產業革命正在興起的機遇,努力縮小關鍵領域的差距,以取得比較優勢作為衡量創新發展的根本標準,選準科技創新的突破口和著力點,加強前瞻謀劃設計,把有限的資源配置到重大技術攻關上,集中優勢力量,大力攻克軍事領域的關鍵技術,掌握一批擁有自主知識產權的核心技術。從結構設計到力量配比再到科研項目,都應抓住主要研究領域,體現發展前沿,形成整體優勢,積極謀求戰略主動和軍事優勢。

隨著科學技術不斷發展,多學科專業交叉群集、多領域技術融合整合的特徵日益凸顯,大交叉、大融合、大突破已成為現代軍事科學發展的基本規律。推進國防科技創新發展,要努力提陞技術認知能力,在建設思路、技術路徑上敢於蹚新路,打通技術鏈轉化為產業鏈的通道,提升國家戰略能力和武器裝備發展實力。要遵循國防科技的本質要求與內在規律,站在國家創新大體系、軍民一體化協同創新的大背景下,加速建立戰略性、基礎性、前沿性、開放性的科學研究創新平台,推動國防科技向軍事理論與軍事技術緊密結合、基礎研究與應用研究相互促進、自主創新與吸收借鑒並重舉轉變。適應國防科技創新發展要求,搞好基礎管理,配套建立確保國防科技創新發展的基礎支撐性管理機制﹔加強項目管理,努力形成分類分級、高效靈活、自適應、可持續的管理機制和工作流程﹔拓寬技術轉化管道,建立並改善國防科技成果轉化應用政策制度機制,推動國防科技創新成果快速轉化應用。

實踐証明,國防科技創新能「跳」多高、「跑」多遠,基礎研究是關鍵。因此,要著力抓好創新性基礎與應用基礎研究,搞好豐厚的科學儲備,正確掌握基礎研究與技術應用的關系,為推動國防科技創新發展提供強力支撐。一要把基礎研究作為推動國防科技創新發展的先導工程,放在優先發展的戰略位置來抓,保持足夠、穩定的經費投入,在若干重大領域提前佈局與優先支持,探索新概念、新原理、新方法,力爭在基礎性、前衛性、戰略性領域取得重大突破。二要堅持運用系統工程的思維與方法,正確認識與科學指導基礎研究與技術應用實踐,既要促進科技成果轉化運用,又要培育新的技術成長點,形成「基礎研究、開發應用、成果轉化,到整合應用再創新」的閉合鏈路。三要盡快打通國防科技成果轉化的管道,促進科學研究成果在建設世界一流軍隊和服務備戰打仗中落地生根。積極探索以技術群、項目群等形式開展科研協作攻關,加強軍地溝通協作,暢通技術需求通道,促進科技成果盡快實現轉型。

樹立科研為戰導向 以創新制勝未來

聚焦實戰是軍隊建設的核心目標,必須把堅持作戰需求的根本牽引作為國防科技創新發展的重要指導原則,始終瞄準明天的戰爭創新發展軍事理論和軍事科技,探索形成與時代發展同步伐、與國家安全需求相適應、滿足未來作戰要求的國防科技創新體系。

推進國防科技創新發展,必須穩固確立科研為戰的根本導向,深入研究資訊化條件下的作戰特點、作戰樣式、作戰重心和製勝機理,堅持以作戰需求牽引基礎研究和戰略前沿技術探索,進一步完善科學研究項目聚焦於備戰打仗等製度機制,同時要緊盯未來作戰對手,準確掌握戰爭形態演變趨勢、世界軍事科技發展趨勢,不斷更新思想觀念,科學籌劃今天的備戰、設計明天的戰爭、制勝未來的戰場。

戰鬥力始終是軍隊興衰成敗的決定性因素,戰鬥力標準是軍隊建設唯一的根本的標準。以資訊科技為核心的高新技術迅猛發展,戰爭攻防作戰機理的複雜程度發生了前所未有的深刻變化,對於戰鬥力的生成和提高產生了前所未有的深刻影響。因此,必須把自主創新作為戰鬥力生成模式轉變的重要因素、構成要素和實現途徑,善於發現新技術對戰鬥力發展的潛在推動力,在全面實現強軍目標的偉大實踐中促進國防科技創新發展。

為適應打贏資訊化與智慧化戰爭要求,著眼有效履行使命任務,就要堅持自主創新的戰略基點,完善科研協同創新機制,打造融合創新平台,全面推進國防科技創新發展。一要把國防科技的薄弱環節作為推進自主創新的主攻方向,同時加大原始性創新力度,著力在一些重要領域和科技前沿掌握關鍵核心技術,努力構建既能使國防科學技術儲備不斷增加、又能使之快速轉化的國防科技創新體系。正確處理重點技術與一般技術、一般技術與專用技術、傳統技術與高新技術的關系,做到統籌兼顧、合理佈局,實現各類技術、各類學科相互支撐、協調發展。二要掌握國防科技創新發展的需求,重點解決科技管理體制、需求生成機制、科學研究計畫體係等面向問題,提昇科研整體效益,形成推動自主創新的強大活力。大力推動技術基礎資源軍民共用分享,建立完善軍民標準化協調機制與技術服務機制。三要健全大學、科研院所、企業、政府的科技協同創新政策制度,最大限度發揮各方面的優勢,著力打造融合創新平台,形成推動國防科技協同創新的整體合力。

實施新時代人才強軍戰略 讓創造活力競相迸發

推進國防科技創新發展,歸根結底要靠高水準人才,如果沒有強大的國防科技人才隊伍,自主創新就是無源之水、無本之木。因此,必須積極適應國防科技創新發展要求,大力打造體系化、高層次的人才培養平台,讓更多高素質、專業化人才競相湧現。

穩固樹立「人才是第一資源」的觀念,堅持把培養人才作為一項重大的政治任務,以識才的慧眼、愛才的真情、聚才的方法、用才的膽略、容才的胸懷,大膽運用策略科學家,支持青年科技人才挑起大樑、擔重任,不斷壯大科技領軍人才隊伍和一流創新團隊。堅持國防科技重大建設工程和人才建設工程一起抓,在重大工程和重大任務實踐中大膽選拔、使用、錘煉各種人才,培養造就新一代科技帥才和領軍人才,把國防科技和裝備領域打造成國家創新人才的高地、人才成長興業的沃土,形成國防科技人才創造活力競相迸發的生動局面。明確國防科技人才的評價方式與標準,完善國防科技人才差異化評價與政策支援機制,建構符合國防科技規律和人才成長規律的評價體系。改革科技管理與人事制度,讓科學研究管理跟上科技創新的步伐,真正為科研人員放開手腳、騰出時間、搭建平台,把科研創新的舞台放心交給他們,讓他們在科研創新中當主角、唱大戲。

科學公平的評價機制對於激勵創新具有根本性的作用。實踐証明,任何一個基礎研究領域的重大突破都離不開長期的積累和多次的失敗,這是科學發展的必然規律。因此,在國防科技和武器裝備科學研究生產過程中,既要鼓勵科學研究人員有奇思妙想,又要寬容其在探索實踐中的失敗。提倡各類科學研究計劃的實施不以論文、專利數量為項目目標,注重原創成果的取得,允許一定的失敗比例。對基礎和前沿技術研究實行同行評價,突顯中長期目標導向和原創價值,著力營造激勵創新的公平競爭環境,下大力氣激活國防科技創新發展的「一池春水」。

全面貫徹實施新時代人才強軍戰略,進一步增強人才隊伍建設活力,最大限度激發國防科技人才的創新動力、充分調動他們的積極性、主動性和創造性。遵循高素質、專業化軍事人才成長規律,營造識才愛才敬才用才的環境,制定競爭激勵和崇尚合作相結合的政策制度,促進人才資源有序流動、合理佈局,為地方人才服務國防科技建設搭建好平台,著力形成人盡其才、盡展其才、才盡其用的良好局面。

(作者係軍事科學院系統工程研究院研究員、博士生導師)

(責編:王之鋒、宋美琪)

中國原創軍事資源:https://military.people.com.cn/BIG5/n1/2023/1126/c1011-40125888.html

China to Accelerate Improvement of Military Force Structure

中國將加速改善軍隊結構

現代英語:

In his report to the 20th CPC National Congress, President Xi Jinping pointed out that we should comprehensively strengthen military governance, consolidate and expand the achievements of national defense and military reform, improve the military force structure, and systematically optimize military policies and systems. Improving the military force structure is an important part of comprehensively strengthening military governance and an inevitable requirement for promoting the modernization of the military’s organizational form in the new era and new journey. At present, the form of war is accelerating its evolution towards information-based and intelligent warfare. To improve the ability to win, it is necessary to further accelerate the improvement of the military force structure and provide strong support for winning military competitive advantages.

Prospective development trend of military force structure

The vigorous development of high-tech groups represented by artificial intelligence is accelerating the development of intelligent warfare. To adapt to the changes in the form of war, the military force structure is accelerating its transformation to an automatic empowerment, dynamic adaptation, and autonomous organization structure.

Transform from a control structure to an automatic empowerment structure. The battlefield environment in the future will be more complex and changeable, and the OODA cycle will be greatly compressed. Striving for time advantage and speed of action, and agile conversion of offensive and defensive situations will become an inevitable requirement for seizing the initiative in combat. In the traditional form of warfare, the military mainly exerts influence internally through management activities such as planning, organization, command, coordination, and control. Practice has proved that the layer-by-layer transmission organizational structure is not only slow in response, but also relatively conservative and rigid, and cannot adapt to the rapidly changing new environment. The future military force structure will accelerate its development in the direction of empowerment, and achieve the purpose of empowering capabilities and energy through more authorization. Compared with the traditional military force structure, it pays more attention to stimulating people’s autonomous capabilities and strives to maximize the talents and potential of individuals within the organization.

Transform from a solidified structure to a dynamic adaptive structure. In the traditional military force structure, the boundaries are fixed and clear, and the organization is stable and orderly. In the form of intelligent warfare, in order to adapt to the complex and changing external environment, the boundaries of the military force structure will gradually open up, and the internal subsystems will support rapid interaction of information, resources, creativity, vitality, etc. without destroying the existing structure, so as to run more smoothly. Compared with the traditional military force structure, the future military force structure must maintain a relatively stable appearance and architecture, and realize the free flow of information and resources within the organization. Through process reengineering, system integration and information openness, the timeliness, flexibility and innovation of the army will be enhanced.

Transformation from manual organization to autonomous organization. In the form of intelligent warfare, the types of combat forces have greatly increased, including multi-domain diversified combat forces from space to deep sea, from aircraft carriers to micro-robots, etc. The complexity of the system has put forward higher requirements on the depth and breadth of decision-makers’ thinking. It is difficult for commanders and staff groups to complete the most reasonable combat organization in a short period of time. Using intelligent command and control systems to organize combat organizations has become the best choice. Thanks to the powerful computing and analysis capabilities of artificial intelligence, the intelligent command and control system can comprehensively evaluate the type characteristics, combat readiness, and scope of application of combat forces according to combat missions and battlefield environment changes, and even combine the ability, quality, personality characteristics, personal experience and other factors of commanders. Through network calculation, it can be deduced that the combat organization with complementary advantages, balanced strength, and optimal efficiency is obtained.

Deeply understand the operation mechanism of military force structure

In the process of integrated development of mechanization, informatization and intelligence, artificial intelligence will be deeply involved in the entire process of military operations, which will have a profound impact on the operating mechanism of the military force structure and give birth to new mechanisms that are very different from traditional operating models.

The “complementary cooperation” operation of human-machine integration. Compared with humans, machines have obvious advantages in storage, computing and other capabilities, and have the characteristics of accuracy, speed, repeatability, and limited intelligence. In the era of intelligence, people’s positioning has gradually shifted to macro-control and indirect participation in combat, focusing on controlling strategic key content and nodes such as the timing of launching a war, scale level, style intensity, process development, and ending time. With the support of big data, network information systems and various algorithms, machines mainly complete activities such as data analysis, quantitative judgment, and trend prediction, quickly generate, optimize and evaluate combat plans, and provide humans with faster, more comprehensive and accurate decision-making assistance. Under normal circumstances, people have the final decision-making power in combat command, but in the near future, it may become a reality for machines to have the final decision-making power.

Intelligent embedded “process specification” operation. It is generally believed that “process specification” refers to the process of standardizing and standardizing the combat command and control process. In the “process specification” model, the subject responsible for specific execution is more likely to carry out activities in accordance with existing specifications and pre-settings. The real role is played by the designer of the process. Algorithms, models and other preset elements are the key to command and control activities. Compared with the traditional structural operation mode, the “process specification” model can enable command and control actions to run in an orderly manner under the established process by internalizing people’s target requirements, work specifications, combat plans, etc. into algorithms, models, and systems in advance. For example, in the intelligent situational awareness system, various tasks such as target search, tracking and positioning, and data collection can be carried out one by one according to the pre-set procedures. Although the relevant subjects involve various fields or departments, the operation of the entire system will be orderly under the unified algorithm specification.

Highly autonomous “results first” operation. “Results first” means that the output results of combat command and control activities are regulated and standardized, but no requirements are made for the process of the activities, that is, “only results, no process”. When the combat mission is too complex and the command and control process is not easy to standardize, it is necessary to formulate detailed and clear institutional norms to fully and accurately describe the final goal. The executors can take the initiative to decide the implementation method by themselves, and the structure will operate faster and more efficiently. Under the conditions of future information and intelligent warfare, the independent operation of unmanned systems, the adaptive organization of military organizations, and the task-based command method based on big data, cloud computing and network information systems have put forward higher requirements for the command and control mode. The “results first” mode is the best choice. In particular, some intelligent weapon platforms in the future will have autonomous decision-making power, and will be able to independently formulate tactical strategies, implement target detection, determine the order of target strikes, and perform a series of combat operations under the guidance of combat objectives set by humans.

Exploring practical paths for innovation in military force structure

Improving the military force structure is a dynamic development process with its own laws and implementation paths, and requires multi-domain advancement and in-depth development.

The size of the army remains stable and the composition of its forces continues to be optimized. Comrade Mao Zedong once pointed out that “any quality is expressed in a certain quantity, and without quantity there is no quality.” In today’s world, the size of the army is still an important indicator for measuring the strength of military power. It is a common practice for military powers to optimize their military forces on the basis of maintaining a certain scale. In recent years, major countries in the world have adjusted the organizational form of their armies, taking the development of new combat forces as an important support for leading the construction of the force system of their troops, adjusting and optimizing the military force system, and seeking new military breakthroughs. With an eye on future wars, military forces should continue to optimize and improve on the basis of maintaining a certain scale, increase the proportion of combat forces in new domains and new qualities, accelerate the development of unmanned intelligent combat forces, further highlight eliteness, strengthen the construction of intelligent logistics support forces, and build a lean, versatile, and efficient combat force structure.

The structure of the military services is cross-domain coordinated and integrated across all domains. As the combat space expands to network, electromagnetic, cognitive and other spaces, the structure of the military services is gradually integrated into an organic whole. In future wars, combat troops will not only need to perform combat missions in the physical space, but also need to deal with threats from network, cognitive and other spaces. The boundaries of operations between the military services will gradually blur. To adapt to this trend, the pace of innovation in the structure of the military services must be accelerated. Foreign militaries believe that the future innovation and development of the military services structure will be promoted in two ways: physical integration and virtual integration. First, a cross-domain combat force covering land, sea, air, space, power grid, and cognitive fields will be established, running through the structural boundaries of different fields, concentrating multi-domain combat capabilities based on a single domain, and generating deep joint combat capabilities. Second, the virtualization of the organization of each military service and the integration of capabilities. A single military service can aggregate the combat capabilities of multiple military services at any time, and achieve cross-domain integration of combat effectiveness while the combat forces are widely dispersed.

The combat force system takes into account specialization and synthesis. The development of future combat forces not only focuses on the subdivision of specialized combat force types, but also emphasizes the deep integration of multiple combat forces. With the expansion of war space and the continuous application of cutting-edge technologies, many new combat forces that adapt to unique combat styles will inevitably appear in various combat domains. The future integrated joint operations require the integration of various combat forces and close coordination between various professions. Therefore, the adjustment of the combat force system needs to start with cross-domain integration, accelerate the integration of combat forces, focus on promoting the integration of combat forces at the strategic, campaign, and tactical levels, the integration of horizontal functional fields, and the integration of combat and non-combat fields, so as to make the combat force system more scientific.

The new and old combat forces are organized into a multi-functional integrated system that enhances each other’s effectiveness. From the perspective of the development trend of world military transformation, although the status and role of new combat forces are constantly strengthening, traditional combat forces still play an important role. In the future, the innovation of military force structure should maximize the system synergy of new and old combat forces by adjusting the structure and optimizing the organization, extending the level of new combat forces downward, accelerating the integration of combat forces in the fields of network, space, cognition, and other fields with traditional combat forces such as land, sea, and air at the campaign and tactical levels, and deploying new combat force units at the campaign level, and dispersing them downward as appropriate, and connecting to the organizational sequence of various military forces at any time according to combat needs. (Tong Yunhe and Yan Xiaofeng)

(Editors: Chen Yu, Tang Song)

現代國語:

習近平主席在黨的二十大報告中指出,要全面加強治軍,鞏固拓展國防和軍事改革成果,完善軍隊結構,系統優化軍事政策和製度。完善軍隊結構,是全面加強軍事治理的重要內容,是新時代新征程推進軍隊組織形態現代化的必然要求。目前,戰爭形態正在加速向資訊化、智慧化戰爭演變。提升打贏能力,要進一步加速軍隊結構完善,為贏得軍事競爭優勢提供強力支撐。

前瞻軍事力量結構編成發展趨勢

以人工智慧為代表的高技術群的蓬勃發展,正推動智慧化戰爭加速走來。適應戰爭形態變化,軍事力量結構正加速轉向自動賦能型、動態適應型、自主編成型結構。

由控制型結構轉換成自動賦能型結構。未來戰場環境更加複雜多變,OODA循環週期大為壓縮,爭取時間優勢與行動速度、靈敏轉換攻防態勢成為奪取作戰主動權的必然要求。傳統戰爭形態下,軍隊主要透過計畫、組織、指揮、協調、控制等管理活動對內施加影響。實務證明,逐層傳遞式組織結構不僅反應速度緩慢,而且相對保守固化,無法適應快速變化的新環境。未來軍事力量結構將加速朝向賦能方向發展,透過更多授權達成賦予能力和能量的目的。其與傳統軍事力量結構相比,更重視激發人的自主能力,力求最大化組織內部個體的才智與潛能。

由固化型結構轉變為動態適應型結構。傳統軍事力量結構中,邊界固定清晰,組織穩定性秩序性強。智慧化戰爭形態下,為適應複雜多變的外部環境,軍事力量結構邊界將逐漸開放,內部各子系統之間在不破壞現有結構的情況下,支持資訊、資源、創意、活力等快速交互,以便運作更加流暢。相較於傳統軍事力量結構,未來軍事力量結構既保持相對穩定的外形和架構,又須實現資訊和資源在組織內部的自由流動,透過流程再造、體系整合和資訊開放,軍隊的時敏性、靈活性和創新性將得到加強。

由人工編成向自主編成轉變。智慧化戰爭形態下,作戰力量種類極大增多,包括從太空到深海、從航空母艦到微型機器人等多域多元化作戰力量,其體系複雜性對決策者思維深度和廣度提出了更高的要求,指揮和參謀群體很難在短時間內完成最合理的作戰編組,借助智慧指揮控制系統來進行作戰編組便成了最優選擇。由於人工智慧的強大運算和分析能力,智慧指揮控制系統能夠根據作戰任務和戰場環境變化,綜合評估作戰力量的類型特徵、戰備狀況、適用範圍,甚至結合指揮人員的能力素質、性格特徵、個人經驗等因素,可透過網算推演得出優勢互補、力量平衡、效能最優的作戰編組。

深度掌握軍事力量結構運作機理

在機械化資訊化智慧化融合發展過程中,人工智慧深度介入軍隊運作全流程,對軍事力量結構運作機制將產生深刻影響,並催生出與傳統運作模式迥異的新機制。

人機融合的「互補合作」式運作。相較於人類,機器的儲存、運算等能力優勢明顯,具有精準性、快速性、重複性、有限智能等特徵。在智慧化時代,人的定位逐漸轉向宏觀控制和間接參與作戰,聚焦戰爭發動時機、規模層次、樣式強度、進程發展、結束時機等戰略性關鍵內容和節點。而機器在大數據、網路資訊系統和各類演算法支撐下,主要完成數據分析、定量判斷、趨勢預測等活動,快速生成、優化和評估作戰計劃,為人類提供更快捷、全面、準確的決策輔助。通常情況下,人具有作戰指揮的最終決策權,但在不遠的將來,機器擁有最終決策權或將成為現實。

智慧內嵌的「流程規範」式運作。一般認為,「流程規範」是指對作戰指揮控制過程進行規範和標準化的過程。在「流程規範」模式中,負責具體執行的主體更多是按照既有規範標準和預先設定展開活動,真正發揮作用的是流程的設計者,算法、模型等預置要素是指揮控制活動的關鍵。相較於傳統結構運作模式,「流程規範」模式透過預先將人的目標要求、工作規範、作戰計畫等內化為演算法、模型、制度,能夠使指揮控制行動在既定流程下有序運作。例如,在智慧化態勢感知系統中,目標搜尋、追蹤定位、資料收集等各項任務可以根據預先設定的程序逐次展開,相關主體雖然涉及各個領域或部門,但在統一演算法規範下整個體系運行將井然有序。

高度自主的「結果優先」式運作。 「結果優先」是指對作戰指揮控制活動的輸出結果進行規範和標準化,但對活動過程不作要求,即「只求結果、不問過程」。當作戰任務過於複雜、指揮控制過程不易進行標準化時,需要透過制定詳盡明確的製度規範以全面準確描述最終目標,執行者可以發揮能動性自行決定實現方式,結構運作更加快捷高效。在未來資訊化智慧化戰爭條件下,無人系統獨立運作、軍隊組織自適應編組以及基於大數據、雲端運算和網路資訊系統的任務式指揮方式等,對指揮控制模式提出了更高的要求,「結果優先」模式便是最佳選擇。特別是未來部分智慧武器平台將具有自主決策權,能夠在人類設定的作戰目標指引下,自主制定戰術策略、實施目標探測、確定目標打擊順序,執行一系列作戰行動。

探索軍事力量結構創新實踐路徑

完善軍事力量結構編成是一個動態的發展過程,有自身的規律與實現路徑,需要多域推進、縱深發展。

軍隊規模保持穩定、力量組成持續優化。毛澤東同誌曾經指出,「任何品質都表現為一定的數量,沒有數量也就沒有質量。」當今世界,軍隊規模仍是衡量軍事力量強弱的重要指標,軍事力量在維持一定規模的基礎上進行優化是軍事強國的通行做法。近年來,世界各主要國家紛紛調整軍隊組織形態,把發展新型作戰力量作為引領部隊力量體系建設的重要支撐,調整優化軍事力量體系,尋求新的軍事突破。著眼於未來戰爭,軍事力量應在保持一定規模基礎上不斷優化完善,增加新域新質作戰力量比重,加快無人智能作戰力量發展,更加突出精銳化,加強智能化後勤保障力量建設,構建精幹、多能、高效的作戰力量結構。

軍兵種結構跨域協同、全域融合。隨著作戰空間向網路、電磁、認知等空間拓展,軍兵種結構也逐漸融為一體有機的整體。未來戰爭,作戰部隊既需要執行物理空間的作戰任務,也需要應對來自網路、認知等空間的威脅,軍兵種之間作戰的界線將逐漸模糊。適應這種趨勢,軍兵種結構創新必須加快腳步。外軍認為,未來的軍兵種結構創新發展將採取實體融合與虛擬整合兩種方式來推進。一是組成覆蓋陸海空天電網以及認知等領域的跨域作戰部隊,貫穿不同領域結構邊界,以單域為基礎集中多域作戰能力,生成深度聯合作戰能力。二是各軍兵種編制虛擬化、能力一體化,單一軍兵種能夠隨時聚合多軍兵種作戰能力,在作戰力量廣域分散的同時實現作戰效能跨域融合。

作戰力量體系兼顧專業化、合成化。未來作戰力量的發展既注重專業化的作戰力量類型細分,也強調多種作戰力量的深度融合。隨著戰爭空間的拓展和前沿技術的不斷應用,在各作戰域內必將出現許多適應獨特作戰樣式的新型作戰力量。而未來的一體化聯合作戰,需要各種作戰力量一體融合,各專業之間密切協同。因此,調整作戰力量體系需要從跨域融合方面入手,加快推進作戰力量一體化,重點推動作戰力量在戰略、戰役、戰術層級的融合,橫向職能領域的融合,作戰與非作戰領域的融合等,使作戰力量體系更科學。

新舊作戰力量編成多能一體、相互增效。從世界軍事變革發展趨勢來看,新型作戰力量的地位作用雖然不斷強化,但傳統作戰力量仍扮演重要角色。未來軍事力量結構創新,要透過調整結構和優化編組等方式最大限度發揮新舊作戰力量的體系合力,向下延伸新型作戰力量層級,加速網絡、太空、認知等領域作戰力量與陸海空等傳統作戰力量在戰役戰術層面的結合,編製戰役級新型作戰力量單元,並視情向下分散​​配屬,根據作戰需要隨時接入各軍種部隊編制序列。 (童蘊河 閔曉峰)

(編按:陳羽、唐宋)

2022年12月15日09:28 |

中國原創軍事資源:https://military.people.com.cn/n1/2022/1215/c1011-32587690888.html

Majority of Chinese Military Officers & Soldiers Firmly Emphasize: Seize Historical Opportunity to Build a Strong Network Warfare Capability

廣大官兵堅定強調:把握歷史機會建構強大網路戰能力

現代英語:

In recent days, the entire army and armed police forces have organized officers and soldiers in various forms to seriously study and discuss the important speech delivered by President Xi at the National Conference on Cybersecurity and Informatization. The officers and soldiers firmly expressed that they must earnestly study and implement the spirit of President Xi’s important speech, keenly seize the historical opportunity of informatization development, strengthen military-civilian integration in the field of cybersecurity and informatization, independently innovate and promote the construction of a cyber power, and make new contributions to winning the decisive battle to build a moderately prosperous society in all respects, winning the great victory of socialism with Chinese characteristics in the new era, and realizing the Chinese dream of the great rejuvenation of the Chinese nation.

From April 20 to 21, the National Cybersecurity and Informatization Work Conference was held in Beijing. Xi Jinping, General Secretary of the CPC Central Committee, President of the State, Chairman of the Central Military Commission, and Director of the Central Cybersecurity and Informatization Commission, attended the meeting and delivered an important speech. Photo by Xinhua News Agency reporter Li Tao

Seize the historical opportunity to build a strong cyber power

——Officers and soldiers of the entire army and armed police force earnestly studied and implemented President Xi’s important speech at the National Conference on Cybersecurity and Informatization

Beijing, April 23 (People’s Liberation Army Daily) – In recent days, the entire army and armed police forces have organized officers and soldiers in various forms to seriously study and discuss the important speech delivered by President Xi at the National Conference on Cybersecurity and Informatization. The officers and soldiers firmly expressed that they must earnestly study and implement the spirit of President Xi’s important speech, keenly seize the historical opportunity of informatization development, strengthen military-civilian integration in the field of cybersecurity and informatization, independently innovate and promote the construction of a cyber power, and make new contributions to winning the decisive battle to build a moderately prosperous society in all respects, winning the great victory of socialism with Chinese characteristics in the new era, and realizing the Chinese dream of the great rejuvenation of the Chinese nation.

“Informatization has brought a golden opportunity to the Chinese nation.” After studying President Xi’s important speech, the cadres of various departments of the CMC and the theater of operations were full of confidence. Many cadres mentioned in the discussion that President Xi’s important speech, starting from the overall situation of the party and the country, systematically explained the rich connotation of the strategic thinking of building a cyber power, scientifically answered a series of directional, overall, fundamental and strategic issues related to the long-term development of the cyber and information industry, pointed out the direction for grasping the historical opportunities of the information revolution, strengthening network security and informatization, and accelerating the construction of a cyber power, and provided a fundamental guideline, which is of great and far-reaching significance.

On December 25, 2015, when President Xi inspected the PLA Daily, he typed on the Weibo and WeChat publishing platforms of the PLA Daily and sent a Weibo to congratulate all officers and soldiers on the New Year; on the eve of the 2017 Spring Festival, when President Xi inspected the “Great Merit Third Company” of a certain army unit, he stopped in front of an electronic screen and listened to the officers and soldiers’ report on their study and education through the “Learning Barracks” mobile phone APP… President Xi’s concern for the military’s cybersecurity work has inspired the officers and soldiers. Everyone said that the Party Central Committee and President Xi attach great importance to the Internet, the development of the Internet, and the governance of the Internet, and have coordinated major issues involving informatization and cybersecurity in the political, economic, cultural, social, and military fields, made a series of major decisions, and put forward a series of major measures to promote the historic achievements of the cybersecurity cause. Officers and soldiers of a certain brigade of the Rocket Force said that the achievements made in the network construction of our country and the army fully demonstrate that the decisions of the Party Central Committee on strengthening the centralized and unified leadership of the Party over cybersecurity work and the series of strategic deployments made for cybersecurity work since the 18th National Congress of the Communist Party of China are completely correct.

In recent years, a certain brigade of the 74th Group Army has closely followed the characteristics of young officers and soldiers and actively explored new models of online political work, which has been welcomed by young officers and soldiers. During the discussion, Luo Yingli, an officer of the Propaganda Section of the brigade, said that we must actively promote innovations in online propaganda concepts, content, forms, methods, and means, grasp the timing and effectiveness, and unite and gather the officers and soldiers with Xi Jinping Thought on Socialism with Chinese Characteristics for a New Era and the spirit of the 19th National Congress of the Communist Party of China, and work tirelessly to achieve the goal of strengthening the army.

During the study and discussion, Li Kangjun, instructor of the second missile company of the air defense battalion of a brigade of the 75th Group Army, said with deep feeling that the newly revised “Internal Affairs Regulations (Trial)” revised the regulations on the use of mobile phones and the Internet, and added new behavioral norms for military personnel such as online shopping and the use of new media. As soldiers, we must firmly establish a correct view of network security and strictly abide by the relevant regulations of the state and the military. Fan Jianli, political commissar of a brigade of the 80th Group Army, said that we must strengthen the network security protection of information infrastructure, strengthen the construction of network security information coordination mechanisms, means, and platforms, strengthen the construction of emergency command capabilities for network security incidents, and actively develop the network security industry to move the checkpoints forward and prevent problems before they occur.

Whoever masters the Internet will seize the initiative of the times; whoever occupies the commanding heights in informatization will be able to seize the initiative, gain advantages, win security, and win the future. Experts from the Academy of Military Sciences, the National Defense University, and the National University of Defense Technology believe that the integration of military and civilian networks is a key and frontier area of ​​military and civilian integration, and is also the most dynamic and potential area of ​​military and civilian integration. We must seize the historical opportunities of the current information technology revolution and the new military revolution, deeply understand the inherent relationship between productivity and combat effectiveness, the market and the battlefield, grasp the working mechanism and laws of the integration of military and civilian networks, and promote the formation of a pattern of deep integration and development of military and civilian networks with full factors, multiple fields, and high efficiency.

Studying President Xi’s important speech has given leaders at all levels a strong sense of mission and urgency. Leaders of a certain air force brigade of the Eastern Theater Command, a certain armed police unit, and the Shenyang Joint Logistics Support Center said that they should actively adapt to the requirements of informatization, strengthen Internet thinking, and continuously improve their ability to grasp the laws of the Internet, guide online public opinion, control the development of informatization, and ensure network security. The Party Committee of a Red Army Corps of the Xinjiang Military Region has decided to include Internet information work in the Party Committee’s key work plan and important agenda, and use the Internet to solve the problems of “difficult, slow, and complicated work” that officers and soldiers strongly reflect.

Talent is the key to promoting the construction of a cyber power. A scientific and technological personnel of a unit of the Strategic Support Force said that in today’s world, network information technology is developing rapidly and has become a competitive highland for global technological innovation. We must continuously improve our own capabilities and qualities, focus on cutting-edge technologies and key core technologies, and work hard to overcome difficulties. A group of people from the Party Committee of a combat support ship detachment of the South China Sea Fleet said that it is necessary to study and formulate an overall plan for the development of talents in the field of cyber security, promote the reform of the talent development system and mechanism, and let the creative vitality of talents compete and burst out, and their wisdom and talents fully flow.

Informatization brings new opportunities for strengthening the military in the new era. During the study and discussion, the officers and soldiers said that they should firmly establish the idea of ​​information-led and system construction, take positive and proactive actions, unswervingly take informatization as the development direction of the modernization of the military, take the network information system as a starting point, promote the leapfrog development of our military’s informatization construction, and comprehensively improve our military’s system combat capabilities.

(Reporter Zhang Kejin of the PLA Daily, special correspondent Wang Xuechao, correspondents Zheng Guangbin, Li Hengjian, Chen Hongjia, Wan Yongkang, Zhang Qiang, Yu Wenbin, Li Yunfeng, Meng Zhuolin, Li Jiahao, Tan Wenwei, Wang Yuting, Cao Zhiguo, Xu Fengfang, Hou Wei, Chen Zhi, Luo Kunkang, Li Guolin, Ma Yixun, Zhao Lei, Yang Guiliang)

現代國語:

來源:中國軍網綜合作者:張科進 等責任編輯:杜汶紋
2018-04-24

連日來,全軍和武警部隊以各種形式組織官兵認真學習討論習主席在全國網路安全和資訊化工作會議上發表的重要講話。廣大官兵堅定表示,要認真學習貫徹落實習主席的重要講話精神,敏銳抓住資訊化發展的歷史機遇,加強網信領域軍民融合,自主創新推進網絡強國建設,為決勝全面建成小康社會、奪取新時代中國特色社會主義偉大勝利、實現中華民族偉大復興的中國夢作出新的貢獻。

4月20日至21日,全國網路安全與資訊化工作會議在北京召開。中共中央總書記、國家主席、中央軍委主席、中央網路安全和資訊化委員會主任習近平出席會議並發表重要演講。新華社記者 李濤 攝

抓住歷史機會 建設網絡強國

——全軍和武警部隊官兵認真學習貫徹習主席在全國網路安全和資訊化工作會議上的重要講話

解放軍報北京4月23日電 連日來,全軍和武警部隊以各種形式組織官兵認真學習討論習主席在全國網路安全和資訊化工作會議上發表的重要講話。廣大官兵堅定表示,要認真學習貫徹落實習主席的重要講話精神,敏銳抓住資訊化發展的歷史機遇,加強網信領域軍民融合,自主創新推進網絡強國建設,為決勝全面建成小康社會、奪取新時代中國特色社會主義偉大勝利、實現中華民族偉大復興的中國夢作出新的貢獻。

「資訊化為中華民族帶來了千載難逢的機會。」學習習主席的重要講話,軍委機關各部門和各戰區機關幹部信心滿懷。許多幹部在討論中談到,習主席的重要講話,從黨和國家事業全局出發,系統闡釋了網絡強國戰略思想的豐富內涵,科學回答了事關信事業長遠發展的一系列方向性、全局性、根本性、戰略性問題,為把握資訊革命歷史機會、加強網路安全和資訊化工作、加速推進網路強國建設指明了前進方向,提供了根本遵循,具有重大而深遠的意義。

2015年12月25日,習主席視察解放軍報社時,在軍報微博微信發布平台敲擊鍵盤,發出一條微博向全軍官兵祝賀新年;2017年春節前夕,習主席視察陸軍某部「大功三連」時,駐足一塊電子螢幕前,聽取官兵透過「學習軍營」手機APP開展學習教育的報告……習主席對軍隊網信工作的關心讓廣大官兵振奮不已。大家表示,黨中央、習主席高度重視互聯網、發展互聯網、治理互聯網,統籌協調涉及政治、經濟、文化、社會、軍事等領域資訊化和網路安全重大議題,做出一系列重大決策、提出一系列重大舉措,推動網信事業取得歷史性成就。火箭軍某旅官兵說,我們國家和軍隊網絡建設取得的成就充分錶明,黨的十八大以來黨中央關於加強黨對網信工作集中統一領導的決策和對網信工作作出的一系列戰略部署是完全正確的。

近年來,第74集團軍某旅緊貼青年官兵特點,積極探索網路政治工作新模式,受到青年官兵歡迎。討論中,該旅宣傳科幹事羅映力說,我們要積極推進網上宣傳理念、內容、形式、方法、手段等創新,把握好時度效,用習近平新時代中國特色社會主義思想和黨的十九大精神團結、凝聚廣大官兵,為實現強軍目標不懈奮鬥。

學習討論中,第75集團軍某旅防空營導彈二連指導員李康君深有感觸地談到,新修訂的《內務條令(試行)》修改了移動電話和互聯網使用管理等方面規定,新增了軍人網絡購物、新媒體使用等行為規範。身為軍人,我們要牢固樹立正確的網路安全觀,嚴格遵守國家和軍隊的相關規定。第80集團軍某旅政委範建立說,我們要加強資訊基礎設施網路安全防護,加強網路安全資訊統籌機制、手段、平台建設,加強網路安全事件緊急指揮能力建設,積極發展網路安全產業,做到關口前移,防患於未然。

誰掌握了互聯網,誰就把握住了時代主動權;誰在資訊化上佔據制高點,誰就能夠掌握先機、贏得優勢、贏得安全、贏得未來。軍事科學院、國防大學、國防科技大學的專家認為,網信軍民融合是軍民融合的重點領域與前沿領域,也是軍民融合最具活力與潛力的領域。我們要抓住當前資訊科技變革和新軍事變革的歷史機遇,深刻理解生產力和戰鬥力、市場和戰場的內在關係,把握網信軍民融合的工作機理和規律,推動形成全要素、多領域、高效益的軍民深度融合發展的模式。

學習習主席重要講話,讓各級領導幹部產生了強烈的使命感和緊迫感。東部戰區空軍某旅、武警某部、瀋陽聯勤保障中心等部隊領導表示,要主動適應資訊化要求、強化網路思維,不斷提升對網路規律的掌握能力、對網路輿論的引導能力、對資訊化發展的駕馭能力、對網路安全的保障能力。新疆軍區某紅軍團黨委研究決定,將網信工作納入黨委重點工作計畫和重要議程,用網路解決官兵反映強烈的「辦事難、辦事慢、辦事繁」等議題。

推動網路強國建設,人才是關鍵。戰略支援部隊某部科技人員表示,當今世界,網路資訊科技發展日新月異,成為全球科技創新的競爭高地。我們要不斷提升自身能力素質,瞄準前緣技術和關鍵核心技術集中力量、刻苦攻關。南海艦隊某作戰支援艦支隊黨委一班人表示,要研究制定網信領域人才發展整體規劃,推動人才發展體制機制改革,讓人才的創造活力競相迸發、聰明才智充分湧流。

資訊化為新時代強軍事業帶來新機會。學習討論中,廣大官兵表示,要牢固確立資訊主導、體系建設的思想,積極主動作為,堅定不移把信息化作為軍隊現代化建設發展方向,以網絡信息體系為抓手,推動我軍信息化建設實現跨越式發展,全面提升我軍體係作戰能力。

(解放軍報記者張科進,特約記者汪學潮,通訊員鄭廣斌、李恆劍、陳洪佳、萬永康、張強、餘文彬、李雲峰、蒙卓霖、李佳豪、譚文偉、王雨婷、曹志國、徐風芳、侯偉、陳陟、羅坤康、李果霖、馬藝訓、趙磊、楊貴良)

中國原創軍事資源:https://www.81.cn/2018qgwlaq/2018-04/24/content_8014888.htm

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

China to Vigorously Strengthen National Defense Technology Innovation

中國將大力加強國防科技創新

現代英語:

President Xi Jinping stressed the need to strengthen national defense science and technology innovation, accelerate the construction of a military-civilian integrated innovation system, and vigorously improve the national defense science and technology independent innovation capabilities. This profoundly reveals the objective laws of national defense science and technology development, and points out the direction for comprehensively implementing the strategy of developing the military through science and technology in the new era, creating a new situation for strengthening the military, and promoting the modernization of national defense and the military.

In his important speech at the plenary meeting of the People’s Liberation Army and Armed Police Force delegation at the first session of the 13th National People’s Congress, President Xi Jinping pointed out that we should strengthen national defense science and technology innovation, accelerate the construction of a military-civilian integrated innovation system, and vigorously improve the independent innovation capabilities of national defense science and technology. This important thought profoundly reveals the objective laws of national defense science and technology development, points out the direction for comprehensively implementing the strategy of rejuvenating the military through science and technology in the new era, creating a new situation for strengthening and rejuvenating the military, and promoting the modernization of national defense and the military. It has great historical significance and far-reaching practical significance.

Vigorously improve the independent innovation capabilities of national defense science and technology

Only innovators can win in international military competition. We must place innovation in an important position in the overall development of our military, firmly grasp the strategic basis of independent innovation in national defense science and technology, and significantly improve our independent innovation capabilities in national defense science and technology.

Strengthen basic research and key technology research for national strategic needs. President Xi stressed that real core key technologies cannot be bought with money, relying on imported weapons and equipment is unreliable, and taking the path of importing and imitating will not go far. Only by attaching importance to basic research can we always maintain independent innovation capabilities. We must attach great importance to original professional basic theoretical breakthroughs, strengthen the construction of scientific infrastructure, ensure the continuous advancement of basic, systematic, and cutting-edge technology research and technological development, and strengthen the source supply of independent innovation in national defense science and technology. Attach great importance to the development of strategic cutting-edge technologies, especially disruptive technologies, and strengthen forward-looking, leading, exploratory, and disruptive major technology research and new concept research. We must take the weak links in national defense science and technology and weapons and equipment construction as the main direction for promoting independent innovation, focus on breaking through core key technologies, strive to achieve overtaking on the curve, and realize the transformation from following and running side by side to running side by side and leading, so as to seize the strategic commanding heights of national defense science and technology innovation.

Increase the efforts to transform and apply advanced scientific and technological achievements. Exhaust knowledge to gain knowledge, and introspection to gain practical results. President Xi pointed out that only by combining scientific and technological achievements with national needs, people’s demands, and market needs, and completing the three-step jump from scientific research, experimental development, and promotion and application, can we truly realize the value of innovation and achieve innovation-driven development. The purpose of national defense science and technology innovation is application. It must serve the construction of the troops and military struggle preparations, and we must speed up the transformation and application of innovative and breakthrough achievements. The construction of weapons and equipment must be evaluated based on the contribution rate to the combat system, strengthen the guidance of combat needs, implement combat needs throughout the entire process of weapons and equipment development, ensure the actual combat applicability of weapons and equipment, and achieve an organic unity between development and application. The development of national defense science and technology must insist on focusing on actual combat and serving the troops, so that scientific and technological innovation can be well connected and focused with the development of troop construction, and the results of innovation can be transformed into real combat power, promoting the transformation of our military construction towards quality, efficiency and technology intensiveness.

Accelerate the construction of a national defense science and technology innovation system. The 19th CPC National Congress report clearly proposed to strengthen the construction of the national innovation system and enhance strategic scientific and technological strength. The national defense science and technology innovation system should be incorporated into the construction of the national innovation system to enhance the ability of original innovation, integrated innovation, and introduction, digestion, absorption and re-innovation. Accelerate the construction of innovation infrastructure platforms, promote the military-civilian integration of national defense science and technology and weapons and equipment, and consolidate the basic projects of the national defense science and technology innovation system. Accelerate the training of leading talents in national defense science and technology innovation, build a high-quality new military talent team, focus on training joint combat command talents and new combat force talents, and strengthen the intellectual support of the national defense science and technology innovation system. We will vigorously foster an innovative culture and create an atmosphere of innovation in national defense science and technology that encourages innovation, encourages success, and tolerates failure, so that creativity and innovation will become a trend in the military.

Focus on joint innovation of military and civilian science and technology

The development of military-civilian integration is the only way to achieve the balance between development and security, and the unity of enriching the country and strengthening the military. Vigorously carrying out military-civilian scientific and technological collaborative innovation will help promote the transformation of economic development mode and economic structure adjustment, and will help enhance the country’s war potential and national defense strength.

Do a good job in top-level design and strategic planning. The implementation of any strategy must be planned first and planned ahead. Military-civilian scientific and technological collaborative innovation involves the two major systems of the military and the local government and the interests of multiple parties. It is a major strategic project and a long-term and arduous task. We must firmly grasp the focus of strengthening top-level design and draw up a grand blueprint for the military-civilian scientific and technological collaborative innovation system. On the premise of in-depth understanding and grasp of the military-civilian integration strategy, clarify the development status, target orientation, basic principles, etc. of military-civilian scientific and technological collaborative innovation, adhere to scientific coordination, practical guidance, system argumentation, and strengthen legal protection. Comprehensive layout and strategic planning should be carried out to ensure that major national strategic plans, major policies and regulations fully integrate the needs of national defense and military construction, and that the military construction and development plans are aligned with the overall deployment of economic and social development. We should adhere to forward-looking planning, take major scientific and technological projects as the guide, and take the advantages of basic research and strategic high-tech research as the breakthrough point to seize the scientific and technological commanding heights to promote the generation of combat effectiveness and the transformation of economic development methods.

Promote the integrated demonstration and implementation of major scientific and technological projects. The Party Central Committee has determined my country’s long-term strategy for science and technology towards 2030 and decided to implement a number of major scientific and technological projects and engineering projects, which will not only help my country break the situation of being controlled by others in major key core technologies in strategic areas, but also help open up new industrial development directions and cultivate new economic growth points. The report of the 19th National Congress of the Party emphasized the expansion and implementation of major national scientific and technological projects, highlighting key common technologies, cutting-edge leading technologies, modern engineering technologies, and disruptive technological innovations. National defense science and technology innovation should pay close attention to the development trends of world military science and technology and weapons and equipment, focus on the country’s major strategic needs, adhere to what to do and what not to do, and timely track, adjust and optimize the deployed major scientific and technological projects and engineering projects to form a systematic layout of succession in stages.

Deepen and expand the military-civilian integration in emerging fields such as ocean, space, cyberspace, biology, and new energy. As the boundaries of scientific exploration become farther and farther, emerging fields such as “three depths and one pole” have become new focuses of strategic competition among major powers. Among them, the deep sea has become a new battlefield with potential opportunities for victory, deep space has become a new strategic fulcrum, the deep blue has opened the “Pandora’s box” of the cyberspace battlefield, and the polar regions have become a battleground for strategic games among powerful countries. Emerging fields are a unified whole of cognitive domain, physical domain, information domain, and industrial domain, and have natural military and civilian attributes. In recent years, countries around the world have generally regarded accelerating the development of military-civilian integration in emerging fields as an important measure to seize the commanding heights of international strategic games. The United States has intensively released the “National Innovation Strategy of the United States” and the “Federal Big Data Research and Development Strategic Plan”, and Russia has issued the “Russian Federation Science and Technology Development Plan”, etc., and has established a military-civilian integration development model in emerging fields. It is necessary to accelerate the formation of a multi-dimensional, coordinated and leapfrog development pattern of military-civilian integration in emerging fields through the joint construction of military and civilian facilities, the sharing of military and civilian technology, and the sharing of military and civilian information, deepen and expand military-civilian integration in emerging fields, and work together to build a strong maritime, aerospace, and cyber power.

Optimize the allocation of technological innovation resources

With the continuous development of science and technology, the characteristics of multi-disciplinary professional cross-clustering and multi-field technology integration are becoming increasingly prominent. We must rely on team strength to pool wisdom and tackle key problems, and integrate scientific research forces and innovative resources to maximize the advantages of all aspects and form an overall synergy to promote national defense science and technology innovation.

Strengthen open sharing to break the closed monopoly. We must firmly grasp the “hard bones” of national defense science and technology innovation and overcome difficulties, focus on strengthening the overall coordination of scientific and technological innovation, and strive to overcome the fragmentation of resources such as scattered and closed resources, cross-duplication, etc. in scientific and technological innovation activities in various fields, departments, and aspects, and avoid “islands” in innovation. Remove all kinds of visible and invisible fences, break the closed monopoly, do a good job in demand docking, planning docking, and task docking, and accelerate the establishment and improvement of an open and shared platform for innovative resources that organically interacts with all subjects, aspects, and links, and collaborates and is efficient, so as to maximize the realization of co-construction, sharing, and sharing. We must focus on improving the basic system of scientific and technological innovation, accelerate the establishment and improvement of the national science and technology reporting system, innovation investigation system, and national science and technology management information system, and significantly improve the level of open sharing of scientific and technological resources.

Deepen the reform of the defense science and technology system and mechanism. If scientific and technological innovation is compared to the new engine of my country’s development, then reform is the indispensable ignition system to ignite this new engine. The loose connection between science and technology and the economy has been a major chronic disease in my country’s science and technology development for many years. To solve this problem, we must take the reform of mechanisms and policies and systems as the starting point, resolutely demolish barriers, break the ice, remove thresholds, break down institutional barriers and interest shackles, build a systematic and complete science and technology military-civilian integration policy and system system, and promote the deep integration of science and technology with economic and social development. We must break through the barriers of the defense science and technology system and mechanism that restrict the organic integration of production, learning, research and application, improve the defense science and technology innovation service support system, and strengthen the use and protection of defense intellectual property rights. We should speed up the establishment of a scientific and technological decision-making mechanism in which scientific and technological consultation supports administrative decision-making, reform the scientific and technological evaluation system, and improve the resource allocation method and scientific and technological innovation incentive mechanism that conform to the laws of scientific and technological innovation. Only when the wheels of scientific and technological innovation and the wheels of institutional mechanism innovation turn together can the national defense scientific and technological innovation capability be greatly improved.

Tap into the potential for innovation in national defense science and technology. In today’s world of globalization, informatization, and networking, innovation factors are more open and mobile, and scientific and technological innovation is endless. We must improve the national defense science and technology innovation governance system, fully mobilize the initiative of innovation subjects, unleash the vitality of various innovation factors, make good use of all high-quality resources and advanced achievements in society, tap into all potential for scientific and technological innovation, and organically integrate national defense and military construction into the economic and social development system. Against the backdrop of economic and technological globalization, innovative resources are flowing rapidly around the world, and the links between countries are becoming increasingly close. No country can solve all innovation problems in isolation and on its own. We must adhere to open and inclusive independent innovation, and actively absorb innovative resources and achievements that can improve the efficiency of military construction and enhance the combat effectiveness of the military. Deepen international exchanges and cooperation, make full use of global innovation resources, and promote independent innovation in national defense science and technology from a higher starting point.

(Author’s unit: College of Arts and Sciences, National Defense University of Science and Technology)

現代國語:

——學習習主席在十三屆全國人大一次會議解放軍和武警部隊代表團全體會議上的重要講話
來源:解放軍報 作者:楊愛華 責任編輯:喬楠楠 2018-03-28 08:39:38
習主席強調,加強國防科技創新,加速建設軍民融合創新體系,大力提升國防科技自主創新能力。這深刻揭示了國防科技發展的客觀規律,為新時代全面實施科技興軍戰略,開創強軍興軍新局面,推進國防和軍隊現代化建設指明了前進方向

習主席在十三屆全國人大一次會議解放軍和武警部隊代表團全體會議上的重要講話中指出,要加強國防科技創新,加速建設軍民融合創新體系,大力提升國防科技自主創新能力。這一重要思想,深刻揭示了國防科技發展的客觀規律,為新時代全面實施科技興軍戰略,開創強軍興軍新局面,推進國防和軍隊現代化建設指明了前進方向,具有重大歷史意義與深遠現實意義。

大力提升國防科技自主創新能力

國際軍事競爭唯創新者勝,必須把創新擺在我軍建設發展全局的重要位置,牢牢扭轉國防科技自主創新這個戰略基點,大幅提升國防科技自主創新能力。

加強面向國家戰略需求的基礎研究和關鍵技術研究。習主席強調,真正的核心關鍵技術是花錢買不來的,靠進口武器裝備是靠不住的,走引進仿製的路子是走不遠的。只有重視基礎研究,才能永遠保持自主創新能力。必須高度重視原始性專業基礎理論突破,加強科學基礎設施建設,確保基礎性、系統性、前沿性技術研究和技術研發持續推進,加強國防科技自主創新的來源供給。高度重視戰略前沿技術特別是顛覆性技術的發展,加強前瞻性、先導性、探索性、顛覆性的重大技術研究和新概念研究。要把國防科技和武器裝備建設的薄弱環節作為推進自主創新的主攻方向,著力突破核心關鍵技術,爭取實現彎道超車,實現從跟跑並跑向並跑領跑轉變,搶佔國防科技創新戰略制高點。

加大先進科技成果轉化運用力度。窮理以致其知,反躬以踐其實。習主席指出,科技成果只有同國家需要、人民要求、市場需求結合,完成從科學研究、實驗開發、推廣應用的三級跳,才能真正實現創新價值、實現創新驅動發展。國防科技創新的目的在於應用,必須為部隊建設和軍事鬥爭準備服務,抓緊搞好創新性、突破性成果轉化運用。武器裝備建設必須以對作戰體系的貢獻率為評價標準,強化作戰需求牽引,把作戰需求貫徹到武器裝備研製的全過程,確保武器裝備的實戰適用性,實現研製和運用有機統一。國防科技發展必須堅持聚焦實戰、服務部隊,使科技創新同部隊建設發展接好軌、對好焦,把創新成果轉化為實實在在的戰鬥力,推動我軍建設向質量效能型和科技密集型轉變。

加速建構國防科技創新體系。黨的十九大報告明確提出,加強國家創新體系建設,強化戰略科技力量。要把國防科技創新體系納入國家創新體系建設之中,增強原始創新、整合創新和引進消化吸收再創新能力。加速建設創新基礎平台,紮實推動國防科技與武器裝備領域的軍民融合,夯實國防科技創新體系的基礎工程。加速培養國防科技創新領導者才,建設高素質新型軍事人才隊伍,著力培養聯合作戰指揮人才和新型作戰力量人才,強化國防科技創新體系的智力支撐。大力培育創新文化,營造勇於創新、鼓勵成功、寬容失敗的國防科技創新氛圍,讓創造創新在軍營蔚然成風。

突顯抓好軍民科技協同創新

軍民融合發展是實現發展和安全兼顧、富國和強軍統一的必經之路。大力開展軍民科技協同創新,有利於促進經濟發展方式轉變和經濟結構調整,有利於增強國家戰爭潛力和國防實力。

搞好頂層設計和戰略籌劃。任何戰略的實施,都必須規劃先行,超前籌謀。軍民科技協同創新涉及軍地兩大系統和多方利益關系,是一個重大的戰略工程,也是一項長期的艱鉅任務。要緊緊扭住強化頂層設計這個著力重點,擘畫軍民科技協同創新體系的宏偉藍圖。以深入認識與掌握軍民融合戰略為前提,明確軍民科技協同創新的發展現狀、目標指向、基本原則等,堅持科學統籌、實戰牽引、體系論證,強化法治保障。全面佈局、戰略籌劃,使國家重大戰略規劃、重大政策法規充分統合國防和軍隊建設需求,軍隊建設發展規劃計劃與全面落實經濟社會發展總體部署相對接。堅持超前謀劃,以重大科技工程為牽引,以奪取基礎研究和戰略高技術研究優勢為突破口,搶佔推動戰鬥力生成和經濟發展方式轉變的科技制高點。

推動重大科技項目一體論證與實施。黨中央已經確定了我國科技面向2030年的長遠戰略,決定實施一批重大科技項目和工程,這既有利於我國在戰略必爭領域打破重大關鍵核心技術受制於人的局面,也有利於開闢新的產業發展方向,培育新的經濟成長點。黨的十九大報告強調,拓展實施國家重大科技項目,突顯關鍵共性技術、前沿引領技術、現代工程技術、顛覆性技術創新。國防科技創新要密切關注世界軍事科技和武器裝備發展動向,圍繞國家重大戰略需求,堅持有所為、有所不為,對已部署的重大科技項目和工程及時跟踪、滾動調整和優化,形成梯次接續的系統佈局。

深化拓展海洋、太空、網路空間、生物、新能源等新興領域的軍民融合。隨著科學探索的邊界越來越遠,「三深一極」等新興領域已成為大國戰略角逐的新焦點。其中,深海成為潛藏制勝先機的新戰場,深空成為新的戰略支點,深藍已經打開網絡空間戰場的“潘多拉魔盒”,極地成為強國戰略博弈的角斗場。新興領域是認知域、物理域、資訊域、產業域的統一整體,具有天然的軍民通用屬性。近年來,世界各國普遍把加速新興領域軍民融合發展,作為奪取國際戰略博弈制高點的重要舉措。美國密集發布《美國國家創新戰略》《聯邦大數據研究與發展戰略計畫》,俄羅斯推出《俄聯邦科學技術發展計畫》等,紛紛在新興領域確立軍民融合發展模式。要透過設施軍民共建、技術軍民共用、資訊軍民共享等方式,加速形成多維一體、協同推進、跨越發展的新興領域軍民融合發展格局,深化拓展新興領域的軍民融合,合力建設海洋強國、航太強國、網絡強國。

優化科技創新資源配置

隨著科學技術的不斷發展,多學科專業交叉群集、多領域技術融合集成的特徵日益凸顯,必須依靠團隊力量集智攻關,搞好科研力量與創新資源的整合,才能最大限度發揮各方面的優勢,形成推進國防科技創新的整體合力。

強化開放共享打破封閉壟斷。緊緊扭住國防科技創新的「硬骨頭」攻堅克難,著力加強科技創新統籌協調,努力克服各領域、各部門、各方面科技創新活動中存在的資源分散封閉、交叉重復等碎片化現象,避免創新中的「孤島」。清除各種有形無形的柵欄,打破封閉壟斷,搞好需求對接、規劃對接、任務對接,加速建立健全各主體、各方面、各環節有機互動、協同高效的創新資源開放共享平台,最大限度實現共建共用共享。著力完善科技創新基礎制度,加速建立健全國家科技報告製度、創新調查制度、國家科技管理資訊系統,大幅提昇科技資源開放共享水準。

深化國防科技體制機制改革。如果把科技創新比喻成我國發展的新引擎,那麼改革就是點燃這個新引擎不可或缺的點火系。科技與經濟聯係不緊密,是多年來我國科技發展的一大痼疾。解決這個問題,必須以機制和政策制度改革為抓手,堅決拆壁壘、破堅冰、去門檻,破除制度藩籬和利益羈絆,構建系統完備的科技軍民融合政策制度體系,推動科技與經濟社會發展深度融合。要突破束縛產學研發有機結合的國防科技體制機制障礙,健全國防科技創新服務支撐體系,加強國防知識產權運用與保護。加速建立科技諮詢支撐行政決策的科技決策機制,改革科技評價制度,完善符合科技創新規律的資源配置方式、科技創新激勵機制。只有科技創新的輪子與體制機制創新的輪子共同轉動,才能大幅提升國防科技創新能力。

挖掘國防科技創新潛力。在全球化、資訊化、網絡化發展的今天,創新要素更具開放性、流動性,科技創新永無止境。要完善國防科技創新治理體系,充分調動創新主體的積極性,釋放各類創新要素的活力,善於運用社會一切優質資源和先進成果,挖掘一切科技創新潛力,把國防和軍隊建設有機融入經濟社會發展體系。在經濟與科技全球化的大背景下,創新資源在世界範圍內快速流動,國家與國家之間的聯繫日趨緊密,任何一個國家都不可能孤立依靠自己的力量解決所有創新難題。要堅持開放式、包容式自主創新,積極吸收能提升軍隊建設效益、提升軍隊戰鬥力的創新資源與成果。深化國際交流合作,充分利用全球創新資源,在更高起點推進國防科技自主創新。

(作者單位:國防科技大學文理學院)

中國原創軍事資源:http://www.mod.gov.cn/gfbw/jmsd/4807982888.html

Will “Unmanned” Warfare Play a Leading Role in China’s Future Wars?


「無人」戰爭會在中國未來戰爭中發揮主導作用嗎?

中国军网 国防部网 // 2021年3月30日 星期二


現代英語:Editor’s Note: In recent years, in local wars such as the Syrian War and the Nagorno-Karabakh conflict, a large number of unmanned weapons and equipment have been deployed on the battlefield, announcing to the world that unmanned warfare “has arrived in the future”. New weapon platforms dominated by unmanned technology, such as drones, robots, and unmanned submarines, are influencing the future direction of combat development, and are likely to shake the status of human beings as the protagonists of wars for thousands of years. Will humans be marginalized in future wars? How to explore the winning mechanism of intelligent warfare? Looking forward to your participation in the discussion.

Square

Unmanned combat is the trend

■ Liang Song

Looking ahead to future wars, unmanned battlefields will inevitably evolve to a higher level, the traditional combat system built with humans as the main body will likely be subverted, and future battlefield confrontations will be dominated by unmanned combat systems.

The evolution of war tools determines

In order to achieve superiority over the enemy on the battlefield and to kill people instead of being killed by people, humans always take the lead in applying emerging technologies to the military field, and spare no effort to promote the upgrading and evolution of various war tools and even subversive changes. At present, a new round of scientific and technological revolution has once again triggered changes in war tools. Its outstanding feature is that human intelligence is constantly embedded in weapon systems in the form of programs, algorithms, rules, etc., and the combination of people and weapons has ushered in a historic change. People and weapon platforms are gradually physically separated, and the autonomy of weapons and equipment has been significantly improved. They have begun to have a series of intelligent features such as calculation, analysis, planning, decision-making, command, and control, thus gradually getting rid of their dependence on human control. In 2016, the Russian army used robot troops in an organized manner on the battlefield in Syria, and captured high ground that was difficult for human soldiers to capture in 20 minutes, becoming the world’s first battle example in which robots were put into the battlefield in an organized manner. Driven by the development of science and technology, human work such as thinking, making decisions, and clicking buttons is also being rapidly replaced by intelligent war tools, and unmanned combat is coming to us in big strides.

Global and multi-dimensional battlefield confrontation traction

Based on the constant pursuit of strategic advantages and interests, human beings continue to expand new fields and explore new spaces, from shallow to deep, from tangible to intangible, from macro to micro, polar regions, deep sea, space… all have been set foot by human beings one by one. At the same time, human beings have also rapidly led wars to new spaces, pushing wars from plane to three-dimensional, from reality to virtuality. Modern wars are increasingly showing the distinctive characteristics of full-domain multi-dimensional integrated confrontation. Compared with traditional spaces such as land, sea, and sky, emerging spaces often exceed the range that human beings can bear physiologically and psychologically. Tangible spaces such as space, polar regions, deep sea, high altitude, and ultra-micro are difficult for humans to reach or even if they reach them, they cannot survive for a long time, and it is even more difficult to carry out operations; virtual spaces such as networks, information, and psychology are everywhere but elusive. Faced with the ever-changing information network world, humans are not only unable to control it by their own abilities, but will also be drowned in the ocean of information. The great expansion of battlefield space and the complex confrontation in all domains and dimensions have put forward urgent requirements for the acquisition and processing of massive information, real-time and accurate command and control, unimpeded access to virtual and real space, and accurate and efficient combat release. Modern warfare has to rely heavily on intelligent unmanned combat systems in all aspects such as reconnaissance, control, attack, and evaluation. Driven by battlefield confrontation and technological development, unmanned combat forces have gradually integrated reconnaissance, attack, and defense functions, covering the entire domains of land, sea, air, space, and the Internet. Clustered, intelligent, and autonomous highly mature robot legions will enter the war stage. The original combat system built with humans as the main body will be gradually deconstructed, and unmanned combat systems will become the main confrontation parties on future battlefields.

Intrinsic drive to reduce casualties

No matter how war develops, its violence cannot be changed. As long as humans are involved in war and on the battlefield, they will inevitably be hurt or even lose their precious lives. Faced with the extremely high risk of war, the nature of seeking benefits and avoiding harm drives humans to find their own “substitutes”. From simple stones and sticks to replace hands and feet, to robots to replace human soldiers, this process continues to spiral and will continue until the “beast” of war disappears from human society. In the context of peace and development becoming the theme of the current era, liberating soldiers from dangerous and boring combat tasks and reducing casualties in war has become an issue that powerful countries attach great importance to. At present, the world’s military powers are making every effort to promote the development and use of intelligent unmanned weapon systems. Various types of drones, unmanned vehicles, unmanned boats, etc. are equipped in large numbers in the army, and some have even formed special unmanned combat units. In recent local wars and armed conflicts, unmanned equipment has frequently appeared and shined. Just as a product will become a hot seller once it is recognized by the market, the outstanding performance of unmanned equipment and unmanned combat on the battlefield will also strongly promote their further expansion and iteration. Ultimately, the accumulation of quantity will bring about a qualitative leap, and unmanned combat will be the general trend.

Opposing Side

Unmanned combat still relies on humans

■ Hong Huajie

On future battlefields, although unmanned systems will be ubiquitous, wars originate from people, serve people, and are subordinate to people. People will still be the core of future wars, and unmanned combat will still be dominated by people.

War planning is designed by people

In information-based and intelligent warfare, the role of unmanned weapons and equipment is becoming increasingly prominent, but this does not mean that the role of humans in war is weakening. War is the embodiment of national will and the continuation of politics. No matter how the scale and style change, war is a contest of national will and national spirit dominated by people, and has the essential attributes of serving and being subordinate to politics. The military intelligence of the core key technologies of unmanned combat is essentially intelligence designed by humans. From intelligent environmental perception and target detection represented by deep learning to mission planning, autonomous control and collaborative control, the intelligent system is full of models and algorithms designed by humans. The emergence and development of unmanned weapons and equipment have given weapons the “subjective initiative” given by humans, but this “subjective initiative” can never be compared with human subjective initiative. People are good at thinking, reasoning and other “wisdom” abilities, which play a key role in high-level task planning, complex scenarios and situation analysis. In many cases, people are still irreplaceable, especially as scientific and technological development promotes the expansion of struggle methods to cross-domain and multi-means. Wars need to combine political, economic, diplomatic and other factors to effectively control and adjust the scale, intensity and process of operations. People are needed to carefully grasp the timing of stopping, the scale and intensity of war. With the development of artificial intelligence technology in the future, human intelligence will further extend to intelligent unmanned weapons and equipment, but the situation that weapons and equipment are dependent on and obey people will not change fundamentally.

Battle coordination is led by people

Humans are the initiators of war and the coordinators of the war situation. Unmanned weapons and equipment are essentially “unmanned platforms and manned systems”, with the people on the platform moved to the remote control end. Unmanned weapons and equipment will not set combat objectives and combat methods on their own. They are more like puppets, and humans are behind them controlling the puppets with thin strings. Therefore, unmanned warfare is largely a competition between unmanned weapons and equipment fighting on the front line and command decision-makers relying on intelligent technology to make command decisions at the back end. It is a competition between unmanned equipment systems supported by high technology and a new combat mode. Intelligent systems can make binary judgments on known situations to a certain extent, but the judgment of unknown situations cannot be separated from humans. Although future intelligent weapons can be operated without human on-site control, when intelligent weapons and equipment are put into battle, when to change the direction of attack, how to control the rhythm of war, when to withdraw from the battle, etc., can only be decided by humans in the end. People are always the controllers of equipment and the active factors to give full play to the advantages of equipment. The smarter the weapons and equipment, the more high-level commanders are needed. Therefore, battlefield confrontations can be unmanned, but war control must be human.

War ethics requires people to be the priority

War ethics is the moral cornerstone supporting modern war law. With the large-scale use of unmanned systems in war, human intelligence has begun to be transferred or materialized more to weapons and equipment. The long-range and beyond-visual-range strikes have gradually weakened human resistance to mutual killing. People can carry out combat operations off-site, non-intuitive, and non-contact, which has lowered the threshold for war decision-making and weakened battlefield moral constraints. In 2010, the US military stationed in Afghanistan used drones to track, monitor and analyze a transport convoy for 3 and a half hours, and finally determined that the convoy was providing support to the Taliban and carried out an attack. However, it was later confirmed that the people in the car were not militants, but civilians including women and children. According to estimates by the Brookings Institution in the United States, the ratio of civilian deaths to militants in the US military’s use of drones to combat terrorists in northwestern Pakistan was as high as 10:1. This scenario that may lead to large-scale civilian casualties is something that humans do not want to see. With the continuous advancement of unmanned combat technology, unmanned weapons and equipment need to be constrained by corresponding laws and regulations. The core of the ethical relationship between man and machine in intelligent warfare should be “people-oriented.” Only when humans always truly control the “right to fire” of intelligent weapons and make unmanned weapons and equipment operate according to human ideas can we ensure the correct implementation of human-machine ethical standards.

Reviews

In his book The Inevitable, Kevin Kelly called the changes in the digital field a kinetic energy, which not only emphasized the power of internal evolution, but also indicated the general trend of human social development.

Regarding many issues such as the changes in the war form brought about by military intelligence, especially the intelligent warfare based on unmanned weapons and equipment, it is still difficult to come up with a clear answer based on current combat practices and technical conditions. Facing the rolling wave of intelligence, we do not need to sigh, let alone stand still. Only by focusing on actual combat, letting go of thinking, and gathering wisdom can we strangle the throat of the god of war.

現代國語:

編者按 近年來,在敘利亞戰爭、納卡衝突等局部戰爭中,大批無人化武器裝備投入戰場,向世​​人宣告無人戰爭「未來已來」。無人機、機器人、無人潛航器等以無人技術為主導的新型武器平台正影響未來作戰發展方向,大有撼動千百年來人類戰爭主角地位之勢。未來戰爭中,人類是否會被邊緣化?如何探究智慧化戰爭制勝機制?期待您的參與討論。

正方

無人作戰是大勢所趨

■梁 松

展望未來戰爭,戰場無人化必將向更高層次演進,以人類為主體建構的傳統作戰體系將可能被顛覆,未來戰場對決將由無人作戰體系主導。

戰爭工具的演進法則決定

為了追求戰場上高敵一籌、致人而不致於人,人類總是把新興科技率先運用於軍事領域,不遺餘力地推動各類戰爭工具升級演進甚至顛覆性變革。目前,新一輪科技革命再次引發戰爭工具變革,其突出特點就是人類智慧以程序、演算法、規則等形式不斷嵌入武器系統,人與武器的結合方式迎來歷史性變革,人與武器平台逐漸實現物理分離,武器裝備自主性顯著提升,開始具備計算、分析、規劃、計畫、決策、指揮、控制等一系列智慧化特徵,以逐步擺脫對人類操控的依賴。 2016年,俄軍在敘利亞戰場上成建制使用機器人部隊,20分鐘就攻下了人類士兵難以攻下的高地,成為世界上將機器人成建制投入戰場的首次戰例。在科技發展驅動下,動腦、做決策、點按鈕等人類工作也正被智慧化戰爭工具快速取代,無人作戰正向我們大步走來。

全局多維的戰場對抗牽引

基於對戰略優勢和利益的孜孜以求,人類不斷拓展新領域、探索新空間,從淺近到深遠、從有形到無形、從宏觀到微觀,極地、深海、太空……都一一被人類涉足。同時,人類也迅速將戰爭引向新的空間,推動戰爭從平面走向立體、從現實走向虛擬,現代戰爭日益呈現出全局多維一體化對抗的鮮明特徵。相對於陸地、海洋、天空等傳統空間而言,新興空間往往超越了人類生理、心理可承受的範圍。太空、極地、深海、高寒、超微等有形空間人類本身難以到達或即便到達也無法長期生存,更難以實施作戰;網路、資訊、心理等虛擬空間無所不在卻又難以捉摸,人類面對瞬息萬變的資訊網絡世界,不但僅憑自身的能力無法駕馭,而且必將被淹沒在資訊的海洋之中。戰場空間的極大拓展,全域多維的複雜對抗,對海量資訊的獲取處理、即時精準的指揮控制、虛實空間的無礙進入、精確高效的作戰釋能提出了迫切要求,現代戰爭偵、控、打、評等各環節已得大量依賴智慧化無人作戰系統。在戰場對抗牽引和科技發展驅動下,無人作戰力量逐漸集偵察、打擊、防禦等功能於一體,遍布陸、海、空、天、網等全局,集群化、智能化、自主化高度成熟的機器人軍團將登上戰爭舞台,原有的以人類為主體建構的作戰體系將逐步解構,無人作戰體系將成為未來戰場的主要對決方。

減少人員傷亡的內在驅動

戰爭無論如何發展,都無法改變其暴力性。人類只要涉足戰爭、身臨戰場,就難以避免受傷甚至付出寶貴生命。面對戰爭這一極端高危風險,趨利避害的天性驅動著人類想方設法尋找自己的“替身”,從簡單的石頭、棍棒替代手足,到機器人替代人類士兵,這個過程不斷螺旋式上升,將一直持續到戰爭這頭「野獸」從人類社會消失。在和平與發展成為當今時代主題的大背景下,將士兵從危險枯燥的作戰任務中解放出來,減少戰爭中的傷亡已經成為強國高度重視的問題。目前,世界軍事強國都在不遺餘力地推動智慧化無人武器系統的發展與運用,各類無人機、無人車、無人艇等大量列裝部隊,有的還組建了專門的無人作戰部隊。在近幾場局部戰爭和武裝衝突中無人裝備頻頻亮相、大放異彩。正如一件商品被市場認可就會熱銷一樣,無人裝備和無人作戰在戰場上的出色表現,同樣強勢推動其進一步拓展和迭代,最終量的積累帶來質的飛躍,無人作戰將是大勢所趨。

反方

無人作戰仍以人為主

■洪華傑

在未來戰場上,儘管無人系統將無所不在,但戰爭源自於人、服務於人、從屬於人,人仍將是未來戰爭的核心,無人作戰仍以人為主。

戰爭規劃由人設計

在資訊化、智慧化戰爭中,無人化武器裝備的作用日益凸顯,但不代表戰爭中人的角色在弱化。戰爭是國家意志的體現,是政治的延續。無論規模和樣式如何變化,戰爭均是由人主導的國家意志和國民精神的較量,具有服務於政治、從屬於政治的本質屬性。無人作戰核心關鍵技術的軍事智能,本質上是由人設計的智能,從以深度學習為代表的智能環境感知與目標檢測,到任務規劃、自主控制與協同控制,智能係統的背後充斥著大量人類設計的模型與演算法。無人化武器裝備的出現和發展,使得武器具備了人賦予的“主觀能動性”,然而這種“主觀能動性”永遠也不能夠與人的主觀能動性相提並論。人本身較為擅長思辨、推理等「智慧」層面的能力,這些能力在高層次任務規劃、複雜場景和態勢分析中具有關鍵作用, 在許多情況下,人仍然是不可替代的,特別是科技發展推動鬥爭方式向跨領域、多手段拓展,戰爭需要結合政治、經濟、外交等因素,對作戰規模、強度、進程等進行有效掌握、調節,更是需要人來精心掌握打停時機、戰爭規模和強度。隨著未來人工智慧技術的發展,人的智慧會進一步朝向智慧化無人武器裝備延伸,但武器裝備依附於人、聽命於人的狀況不會根本改變。

戰局協調由人主導

人是戰爭的發起者,同時也是戰局的協調者。無人化武器裝備在本質上是“平台無人,系統有人”,將平台上的人後移到遠端控制端。無人化武器裝備不會自行訂定作戰目標和作戰方式,他們更像是玩偶,而背後用細線操控玩偶的是人類。所以無人化戰爭很大程度上是無人化武器裝備在前線作戰、指揮決策人員在後端依靠智慧技術進行指揮決策的比拼,是高科技支撐下無人裝備體系的較量,是一種新的作戰模式。智慧系統可以在一定程度上對已知情況進行二分式判斷,但是對未知情況的研判離不開人類。雖然未來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,人始終是裝備的控制者,是發揮裝備優勢的主動因素,武器裝備越智能,越需要高水準的指揮人員。因此戰場交鋒可以無人,但是戰爭控制必須有人。

戰爭倫理要求以人為主

戰爭倫理,是支撐現代戰爭法的道德基石。隨著戰爭中無人系統的大量投入使用,人的智慧開始更多地轉移或物化到武器裝備上,打擊的遠程化、超視距,使人類對相互殺戮的抵觸排斥逐漸變弱,人可以非現場、非直覺、非接觸地實施作戰行動,帶來戰爭決策門檻降低、戰場道德約束弱化。 2010年,駐阿美軍利用無人機對一運輸車隊進行長達3個半小時的追蹤監測與分析後,最終判定車隊是向塔利班提供支援,並實施了攻擊,但事後證實車內並非武裝分子,而是包括婦女和兒童在內的平民。根據美國布魯金斯學會估算,美軍使用無人機在巴基斯坦西北部地區打擊恐怖分子的行動中,死亡的平民與武裝份子的比例高達10∶1。這種可能導致大規模平民傷亡的場景是人類不願意看到的,隨著無人作戰技術的不斷深入,無人化武器裝備需要相應的法規準則來約束。智能化戰爭中的人機倫理關係的核心應為「以人為主」。只有人始終真正控制智慧武器的“開火權”,使無人化武器裝備依據人類設想作戰,才能確保人機倫理準則正確執行。

點 評

凱文·凱利在其著作《必然》裡把數位領域中的變革稱為一種動能,既強調了一種內在演變的力量,更昭示出人類社會發展的大勢。

圍繞著軍事智慧化帶來的戰爭形態改變等諸多問題,尤其是基於無人化武器裝備的智慧化作戰,人在其中的角色和定位究竟怎樣,就當下的作戰實踐和技術條件而言,還很難得出一個明確的答案。面對滾滾而來的智能化浪潮,我們無須慨嘆,更不能固步自封,立足實戰、放飛思維、凝聚智慧,才能扼住戰神的咽喉。

中國原創軍事資源:https://www.81.cn/jfjbmap/content/2021-03/30/content_286005888.htm

Chinese Military Higher Education in the Age of Intelligent Warfare

智慧戰爭時代的中國軍事高等教育

現代英語:

“Military academies are born for war and built for war.” At the opening ceremony of the 2019 military academy presidents’ training, President Xi Jinping proposed the military education policy for the new era, which pointed out the direction for the training of high-quality and professional new military talents in military academies. At present, the war situation is accelerating towards informatization and intelligence. What kind of soldiers are needed to win the future intelligent war and how military higher education can cultivate talents adapted to intelligent warfare are major issues facing us.

Warfare is accelerating towards intelligence

The war form is a stage-by-stage manifestation and state of war history, marked by the technical attributes of the main combat weapons. So far, after experiencing cold weapon war, hot weapon war, and mechanized war, the war form is accelerating towards information-based and intelligent warfare. The increasingly widespread application of advanced technologies such as big data, the Internet of Things, artificial intelligence, biotechnology, and brain science in the military field is becoming an important driving force for the new military revolution, giving rise to new unmanned, autonomous, and intelligent war forms, and changing the traditional war winning mechanism. In 2014, a foreign military think tank released a research report titled “20YY: War in the Age of Robots”, which believes that a storm of military reform marked by intelligent armies, autonomous equipment and unmanned warfare is coming. It will develop intelligent combat platforms, information systems and decision support systems, as well as new weapons such as directed energy, hypersonic, bionics, genetics, and nanotechnology. By 2035, an intelligent combat system will be initially established, and by 2050 it will develop to an advanced stage, fully realizing the intelligence and even unmanned nature of combat platforms, information systems, and command and control, and new weapons such as bionics, genetics, and nanotechnology will enter the battlefield, and the combat space will be further expanded to biological space, nano space, and intelligent space.

In recent years, with the continuous deepening of research on the human brain, brain-computer interface technology is becoming more mature. In the future, information exchange between humans and the outside world will no longer be limited to the senses. Chips can also be used to achieve direct information exchange between the brain and the outside world. People and things are fully interconnected. Humans may surpass the Internet and the Internet of Things and enter the intelligent era supported by brain networking. In the era of brain networking, the brain of soldiers is directly connected to combat platforms, information systems, and decision support systems. With the assistance of technologies such as quantum computing and cloud platforms, decisions are made. The targets of attack will be expanded to human thoughts and actions, and matter, energy, information and mind will be integrated. Some domestic experts believe that with the help of artificial intelligence technology, the winning mechanism of future wars will change from “information-led, system confrontation, precise strikes, and joint victory” in information warfare to “intelligence-led, autonomous confrontation, traceability strikes, and cloud brain victory” in intelligent warfare. After matter, energy, and information, cloud intelligence that integrates man and machine will become the key to determining the outcome of wars. This transformation of the form of intelligent warfare is accelerating, and any hesitation may bring unimaginable consequences.

However, it should be noted that no matter how the war develops, people are always the most fundamental factor. The intelligent warfare will change the functions and roles of soldiers, and will place higher demands on the ability and quality of soldiers. Cognitive ability may surpass knowledge and skills to become the core ability of soldiers.

Intelligent warfare requires the comprehensive quality of soldiers to be upgraded and restructured

According to the talent growth cycle, the military personnel currently receiving higher education will become the main force of combat training in more than 10 years, and will also become the first batch of main forces to meet the challenges of intelligent warfare. At present, there are still some deficiencies in the design of talent training goals in our military higher education, and insufficient attention is paid to the ability to adapt to the changing intelligent battlefield in the future. There is still a certain gap between the talent training goals and the needs of intelligent warfare. On July 23, 2020, when President Xi visited the Air Force Aviation University, he emphasized the need to persist in cultivating people with morality and educating people for war, strengthen military soul education, strengthen fighting spirit, and comprehensively lay a solid foundation for the ideological and political, military professional, scientific and cultural, physical and psychological qualities of pilot trainees. In order to implement President Xi’s important instructions and meet the needs of future intelligent warfare, it is urgent to build a higher-level military talent training goal with thinking ability as the core and accelerate the upgrading and reconstruction of the comprehensive quality of the military.

Intelligent warfare is a complex system that integrates multiple fields. Its intelligence-based characteristics and iterative and changing development trend are changing the role of soldiers in war. Soldiers may gradually move from the front stage of war to the backstage, from direct face-to-face combat to human-machine collaborative combat, and from charging and trapping on the front line to planning and designing wars at the back end. To be competent in human-machine collaboration, war planning and design, and other functional roles, in addition to ideological and political and physical and psychological requirements, in terms of military professionalism and scientific culture, soldiers should focus on improving the following five aspects of knowledge and ability: First, a multidisciplinary knowledge structure, mastering the core principles of multiple intelligent warfare-related disciplines such as nature, military, cognitive psychology, and network intelligence, and being able to integrate knowledge across disciplines to guide military practice; second, strong cognitive ability, with logical thinking, critical thinking, and systematic thinking capabilities, and the ability to use scientific methods to analyze, infer, and solve operational problems; third, human-machine collaboration capabilities , deeply grasp the characteristics and laws of intelligent warfare, skillfully use combat platforms, command and control systems, and decision support systems, be able to control a variety of intelligent weapons and equipment, and realize efficient human-machine collaboration; fourth, innovation ability, with keen scientific and technological perception and strong creativity, be able to grasp the forefront of science and technology, innovate combat methods, and master the laws of war development; fifth, self-growth ability, be able to accurately recognize oneself, rationally plan military careers, freely use information means to acquire new knowledge, new technologies, and new methods, constantly improve knowledge structure, enhance cognitive ability, and better adapt to the complex and changeable development of the military revolution.

Finding the Focus of Military Higher Education Reform

At present, the overlapping advancement of informatization and intelligence has brought greater complexity to the talent training work of military academies. It is necessary to meet the actual needs of informationized warfare and lay the foundation for adapting to intelligent warfare. The following tasks should be focused on.

Reconstruct the curriculum system. The curriculum system supports the formation of the knowledge structure of talents. In order to cultivate military talents that meet the needs of intelligent warfare and achieve the training goals of military expertise and scientific culture, we should break the practice of designing a curriculum system based on a single major and establish a “general knowledge + direction” curriculum system. General knowledge courses are based on existing natural science and public courses, and add courses such as mathematical logic, mathematical modeling, critical thinking, network foundations, artificial intelligence, cognitive neuroscience, and system engineering to establish a cross-domain and cross-disciplinary horizontal curriculum system, expand the knowledge of students, build a knowledge structure urgently needed for intelligent warfare, and lay a broad knowledge foundation for their lifelong growth. Direction courses are to establish a discipline and professional direction, set up a vertical course system of mathematics and science, professional foundation, and professional positions, build a solid professional background, and cultivate students’ ability to use professional theories to solve complex combat training problems. The “general knowledge + direction” course system helps to build a “T”-shaped knowledge structure and meet the needs of military talents to adapt to the diverse and changing intelligent warfare.

Deepen classroom reform. Educational neuroscience believes that education is the reshaping of students’ brains, and the classroom is the main battlefield for reshaping students’ neural networks. It plays an irreplaceable role in the formation of high-level cognitive abilities required for intelligent warfare. Continuously deepening classroom reform is the current key task of military higher education. It should be noted that a classroom with only knowledge understanding is far from being a good classroom. All human behaviors, thoughts, and emotions are controlled by the brain. Every piece of knowledge, thinking, and emotion corresponds to a specific neural network of the brain. Therefore, classroom reform should focus on students’ learning, follow the cognitive laws of the human brain, start with attracting and maintaining attention, establish a scientific thinking framework, and mobilize students to think actively. Generally, the teaching methods that aim at high-level abilities have a common model – problem-driven heuristic teaching. Commonly used problem-based teaching methods, project-based teaching methods, and inquiry-based teaching methods all belong to this model. Therefore, the main path to promote classroom reform is to develop unknown, novel, and interesting questions and stories for students, design a thinking framework that aims at logical reasoning, critical thinking, reflective ability, creative ability, and learning ability, inspire students to think actively under the guidance of the framework, and then supplement it with the output process of speaking and writing, and finally achieve the goal of internalizing knowledge understanding and forming high-level abilities.

Promote all-round education. Modern educational theory not only regards the classroom as an important battlefield for education, but also regards all time and space outside the classroom as important resources for cultivating students. These time and space outside the classroom not only support classroom teaching and promote the formation of knowledge and ability, but are also important places for cultivating non-intellectual abilities. Colleges and universities should make full use of these time and space, clarify specific training goals, focus on going deep into the troops, getting close to actual combat, and highlighting practicality and creativity, and scientifically design education and training plans. Focus on giving full play to the management and education advantages of military academies, explore and establish a student management model, and promote the cultivation of students’ leadership and management capabilities; continuously enrich the second classroom, build an innovation platform, create more opportunities for independent practice, and enhance students’ innovation capabilities; make full use of various large-scale activities to cultivate students’ competitive awareness and teamwork capabilities; strengthen the construction of management cadres, improve scientific management capabilities, and be able to effectively guide students to carry out time management, goal management, emotional management, psychological adjustment, habit formation, etc., to help students improve their self-management and independent learning capabilities.

In short, education is a systematic project. The above are only three aspects to break through the shortcomings of talent training in the intelligent era. To truly solve the problem, military academies need to carry out systematic reforms to effectively support the achievement of talent training goals in strategic planning, quality management, personnel quality, teaching conditions and other aspects. This requires us to continue to explore and innovate, continuously improve the level of school management and education, and strive to open up a new situation in the construction and development of military academies.

(Author’s unit: Air Force Aviation University)

現代國語:

「軍隊院校因打仗而生、為打仗而建」。在2019年全軍院校長集訓開班式上,習主席提出新時代軍事教育方針,為全軍院校培養高素質、專業化新型軍事人才指明了方向。當前,戰爭形態正加速向資訊化、智慧化發展,打贏未來智能化戰爭需要什麼樣的軍人,軍事高等教育如何培養適應智慧化戰爭的人才等,是擺在我們面前的重大課題。

戰爭形態加速向智慧化發展

戰爭形態是以主戰兵器技術屬性為主要標志的、戰爭歷史階段性的表現形式和狀態。迄今為止,戰爭形態在經歷了冷兵器戰爭、熱兵器戰爭、機械化戰爭之後,正加速向資訊化、智慧化戰爭發展。大數據、物聯網、人工智慧、生物技術、腦科學等先進科技在軍事領域日益廣泛的應用,正成為新軍事革命的重要推手,催生新的無人化、自主化、智慧化戰爭形態,改變著傳統戰爭制勝機理。 2014年,外軍智庫發布名為《20YY∶機器人時代的戰爭》的研究報告,認為以智慧化軍隊、自主化裝備和無人化戰爭為標志的軍事變革風暴正在來臨,其將透過發展智慧化作戰平台、資訊系統與決策支援系統,以及定向能、高超音波、仿生、基因、納米等新型武器,2035年初步建成智慧化作戰體系,2050年將發展到高級階段,全面實現作戰平台、資訊系統、指揮控制智能化甚至無人化,仿生、基因、納米等新型武器走上戰場,作戰空間進一步拓展到生物空間、納米空間、智慧空間。

近年來,隨著人們對人腦研究的不斷深入,腦機介面技術正日趨成熟,未來人類與外部世界的資訊交換將不再局限於感官,還可以透過晶片實現大腦與外界直接的訊息交流,人與人、人與物充分互聯互通,人類或將超越互聯網、物聯網,進入腦聯網支援的智慧時代。腦聯網時代,軍人的大腦與作戰平台、資訊系統、決策支援系統直接相聯,在量子計算和雲平台等技術輔助下開展決策,打擊的對象將拓展到人的思想和行動,物質、能量、訊息與心智融為一體。國內有專家認為,在人工智慧技術的作用下,未來戰爭的製勝機理將由資訊化戰爭的“資訊主導、體系對抗、精確打擊、聯合製勝”,向智能化戰爭的“智能主導、自主對抗、溯源打擊、雲腦制勝」轉變,繼物質、能量、資訊之後,人機融合的雲智能成為決定戰爭勝負的關鍵。這一智慧化戰爭形態的轉變正在加速到來,任何遲疑都可能帶來難以想像的後果。

但應該看到,無論戰爭如何發展,人始終是最根本的要素。智慧化戰爭形態將促使軍人的職能角色發生變化,對軍人的能力素質將提出更高的要求,認知能力或將超越知識、技能成為軍人的核心能力。

智慧化戰爭要求軍人綜合素質升級重構

根據人才成長週期,目前正在接受高等教育的軍人,10多年後將成為部隊作戰訓練主體力量,也將成為迎接智慧化戰爭挑戰的第一批主力軍。當前,我軍高等教育在人才培養目標設計上尚存在一些不足,對適應未來多變的智慧化戰場能力關注不夠,人才培養目標與智慧化戰爭需求還有一定差距。 2020年7月23日,習主席視察空軍航空大學時,強調要堅持立德樹人、為戰育人,加強軍魂教育,強化戰鬥精神,全面打牢飛行學員思想政治、軍事專業、科學文化、身體心理等素質基礎。貫徹習主席重要指示,對標未來智慧化戰爭需求,迫切需要建立以思維力為核心的更高階的軍事人才培養目標,加快軍人綜合素質升級重構。

智慧化戰爭是整合多個領域的複雜巨系統,其智力為本的特徵和迭代多變的發展趨勢,正在改變軍人在戰爭中的角色。軍人或將逐步由戰爭前台走向幕後,由直接面對面作戰轉變為人機協同作戰,由前線沖鋒陷陣轉變為後端籌劃設計戰爭。要勝任人機協同、籌劃設計戰爭等職能作用,除思想政治和身體心理必須達到要求外,在軍事專業和科學文化方面,軍人應重點提升以下五個方面的知識能力素質:一是多學科融合的知識結構,掌握自然、軍事、認知心理、網絡智能等多個智能化戰爭相關學科領域的核心原理,能夠跨學科整合知識,指導軍事實踐;二是強大的認知能力,具有邏輯思維、審辨思維、系統思維能力,能夠運用科學方法分析推理解決作戰問題;三是人機協作能力,深刻掌握智慧化戰爭特點規律,熟練運用作戰平台、指揮控制系統、決策支援系統,能夠操控多樣化智慧武器裝備,實現人機高效協同;四是創新能力,具有敏銳的科技感知力和強大的創造力,能夠掌握科技前沿,創新作戰樣式,掌握戰爭發展規律;五是自我成長能力,能夠準確認知自我,合理規劃軍事職業生涯,自如運用資訊手段獲取新知識、新技術、新方法,不斷完善知識結構,提升認知能力,較好地適應複雜多變的軍事革命發展。

找準軍事高等教育改革著力點

當前,資訊化與智慧化的疊加推進,為軍隊院校人才培養工作帶來更大復雜性,既要滿足現實的資訊化作戰需要,同時又要為適應智慧化戰爭奠定基礎,應著重抓好以下幾項工作。

重構課程體系。課程體系支撐著人才知識結構的形成。為培養滿足智慧化戰爭需求的軍事人才,達成軍事專業、科學文化兩個面向的培養目標,應打破以單一專業為背景設計課程體系的做法,建立「通識+方向」的課程體系。通識課程是在現有自然科學和公共類課程基礎上,增加數理邏輯、數學建模、批判性思維、網絡基礎、人工智慧、認知神經科學、系統工程等課程,建立跨領域跨學科的橫向課程體系,拓展學員的知識面,建構智慧化戰爭急需的知識結構,為終身成長奠定廣博的知識基礎。方向課程是確立一個學科專業方向,設置數理科學、專業基礎、專業崗位的縱向課程體系,構建厚實的專業背景,培養學員運用專業理論解決復雜作戰訓練問題的能力。 「通識+方向」的課程體系,有助於建構「T」形知識結構,滿足軍事人才適應多樣多變智能化戰爭的需要。

深化課堂改革。教育神經科學認為,教育是對學生大腦的重塑,而課堂是重塑學生神經網絡的主陣地,特別對於智能化戰爭所需的高階認知能力形成具有不可替代的作用,持續深化課堂改革是軍事高等教育當前的關鍵任務。要看到,只有知識理解的課堂遠遠不是一個好課堂。人的一切行為、思想和情感全部由大腦控制,每個知識、思維和情緒都與大腦的特定神經網絡相對應,因此,課堂改革要以學生的學習為中心,遵循人腦的認知規律,以吸引並保持專注為起點,建立科學的思維框架,調動學員主動思考。通常,指向高階能力的教學方法具有一個通用模式——問題驅動的啟發式教學,常用的問題式教學法、項目式教學法、探究式教學法都屬於這一模式。所以,推進課堂改革的主要路徑是發展未知、新奇和學生感興趣的問題和故事,設計指向邏輯推理、審辨思維、反思能力、創造能力以及學習能力的思維框架,啟發學員在框架的指引下主動思考,再輔以講出來、寫出來的輸出過程,最後達成知識理解內化與高階能力形成的目標。

推動全面育人。現代教育理論不僅以課堂作為教育的重要陣地,還把課堂以外的所有時間和空間視為培養學生的重要資源。這些課堂以外的時間和空間不僅支持課堂教學、促進知識能力形成,也是培養非智力能力的重要場所。院校應充分利用這些時間和空間,明確具體的培養目標,以深入部隊、貼近實戰、突出實踐性和創造性為重點,科學設計教育訓練計劃。著重發揮軍隊院校管理育人優勢,探索建立學員管理模式,促進學員領導管理能力的培養;不斷豐富第二課堂,搭建創新平台,創造更多自主實踐機會,提升學員的創新能力;充分利用各種大型活動,培養學員競爭意識及團隊協作能力;加強管理幹部隊伍建設,提昇科學管訓能力,能有效輔導學員開展時間管理、目標管理、情緒管理、心理調節、習慣養成等,幫助學員提升自我管理和自主學習能力。

總而言之,教育是一個系統工程,以上僅是突破智能化時代人才培養短板的三個方面,真正解決問題還需要軍隊院校進行系統化改革,在戰略規劃、質量管理、人員素質、教學條件等諸方面都能夠有效支撐人才培養目標的達成,而這需要我們持續不斷地探索與創新,不斷提高辦學育人水平,並努力開創軍事院校建設發展新局面。

(作者單位:空軍航空大學)

中國原創軍事資源:http://www.mod.gov.cn/gfbw/gfjy_index/jsyxgfs/4885203888.html?big=fan

China Exploring the Era of Building a World-Class Military

中國探索建立世界一流軍隊的時代

2024年04月04日09:33 | 来源:中国军网

現代英語:

In the picture of human history, war and military development are particularly eye-catching. When we cast our eyes on the long river of history of war, it is not difficult to find that in the magnificent world changes, the strength of the army has always been accompanied by the prosperity of the country, and every era has ushered in a first-class army. Exploring and studying the era trajectory of the construction and development of these armies and finding things with regularity will undoubtedly provide us with important inspiration and reference for achieving the goal of the 100th anniversary of the founding of the army as scheduled and accelerating the construction of the people’s army into a world-class army.

Driven by military needs, strengthening capabilities is a top priority

Military capability has always been the most critical part of the national security system. From the development of the military construction in major countries in the world, it can be found that military construction has always taken strengthening military capability as an urgent task. Military capability has been generally regarded as the ultimate standard for measuring military strength and the primary task of war preparation. In recent years, some military powers have continuously issued forward-looking military capability assessment and forecast reports, emphasizing the vigorous development of military deterrence and combat capabilities. It can be said that strengthening military capability is at a critical period of competition, which is a rare opportunity for latecomer countries. History and practice tell us that the construction of first-class military capability needs to seize the window period of transformation from quantitative accumulation to qualitative leap, take the historical mission of the army as the starting point, and take deterring and winning the war as the standard. At present, major military powers have focused on the needs of strategic application, continuously expanded into space, far sea, deep earth, network, electromagnetic and other spaces, planned ahead of time, stepped up efforts to fill the “gap” of new combat forces, and developed new domains and new qualities with decisive influence on military technology and equipment means, aiming to seize the “new commanding heights” of future military competition and build a lasting military advantage, which also reflects that the military capability structure will undergo a fundamental mutation and leap. For example, the US military has accelerated the development of military capabilities in the direction of “integration, both offensive and defensive, doubling advantages, rapid and precise”, attempting to achieve the deep integration of information, firepower, defense, guarantee and control, and form a system combat capability of one-time combat, multi-domain joint and rapid support.

Taking military training as the starting point and military training as the central task

Only when a soldier is familiar with the skills can he be good at fighting; being prepared for the unexpected is the way to keep the country safe. Training and preparation for war are the central tasks and normal manifestations of a first-class army. Only by real training and real preparation in peacetime can we be deployed, deployed and win in wartime. If a country does not make great efforts to improve the army’s ability to win and be ready to deal with possible military conflicts and potential war threats at any time, it will fall into a passive situation of being beaten once a war breaks out, and its national security and development interests will be greatly damaged. The practice of military construction in some countries in the world today has proved that first-class training and preparation for war must always be based on missions and tasks, insist on using the leading role of military struggle to control combat preparation and continuously exert efforts to actual training and preparation, use the integration of training and combat to control actual combat training to leap forward to high intensity, normalization and systematization, and use the ability to win battles to control the combat effectiveness standards to advance to high, deep and practical levels, so as to truly focus on preparing for war and invest various resources in preparing for war. In recent years, the development of the Russian army has benefited greatly from the consistent adherence to training to shape momentum, strengthen preparations, and promote combat, especially the high attention paid to carrying out a series of targeted pre-war training to enhance the cluster deterrence capabilities in various strategic directions, thus changing the army’s earlier image. It is worth noting that major military powers are taking the promotion of military intelligent means as an important part of training and preparation for war, focusing on liberating and developing combat effectiveness, integrating key technologies such as artificial intelligence and autonomous technologies of unmanned combat systems into preparation for war, guiding the implementation of the modernization tasks of combat theory, military personnel, and weapons and equipment, so as to accelerate the formation of a new pattern of modernization of the system of combat readiness and combat capability, and presenting distinctive contemporary characteristics of training and preparation for war.

Focus on integration and energy gathering, and make system deployment the key point

The joint operations of land, sea, air, space and power grids and the multi-domain integrated system operations characterized by cross-domain interaction urgently need to plan and construct an integrated combat system layout with deep integration of “detection, attack, control, defense and protection” from the “long term” to form a system victory. This has become the focus of major military powers in promoting the construction of first-class armies. In recent years, the concepts of “air-sea integrated warfare”, “joint all-domain operations” and “multi-domain operations” proposed by the US military are actually the systematization products of organically combining sea, air and space-based forces, land-based strike forces and network and power forces, which means that the US military is fully committed to optimizing the global layout of military forces through cutting-edge technological advantages in order to welcome the arrival of a new form of war. Today, the era of winning by relying solely on the advantages of combat units has ended. Instead, a combat force system that combines long, medium and short distances and integrates soft and hard forces has been built to ensure that key areas are controlled by the offensive and defensive advantages of the system. Therefore, the key to the systematic layout of joint operations is to gather the combat energy advantages of different domains and quickly integrate each combat module into the system operations to achieve a composite offensive and defensive situation layout with system efficiency increase, overall linkage, precise energy release and mutual coordination. In recent local wars and armed conflicts, the role of information networks as “hinge” and “enabling” in system layout has been revealed, enabling multiple combat forces to be autonomous, adaptive, interactive, and intelligently make decisions and control. In future operations, we should strengthen the intelligent advantage layout of “cloud” and “network” aggregation, skillfully combine tangible forces with intangible “cloud” and “network” deployment, and accelerate the formation of a combat layout that combines virtual and real forces and disperses form and gathers force, which will become a new model and trend of system deployment, integration and aggregation.

The main purpose is to gain an advantage, and to prioritize joint control.

Modern warfare begins with and is highly dependent on the comprehensive seizure and maintenance of battlefield control, which reflects the special significance of the struggle for control over the battlefield to the dominance of war. Planning key joint operations for control over the battlefield plays a crucial and decisive role in the struggle for control over key domains. Among them, gaining information advantage is the key to joint control over the battlefield. Military powers such as the United States and Russia generally believe that various combat forces in the era of informatization and intelligence must take the control advantage of multi-domain space as the basis for carrying out multiple tasks. The Russian military emphasizes improving the timeliness and anti-interference of joint combat force projection, and defeating opponents through cross-domain coordination and concentration. This shows that when fighting for control over the battlefield, we must first maintain the initiative strategically, that is, strategically establish the direction, goals and paths for obtaining joint control over the battlefield, stipulate the means and methods for creating and using overall advantages, and form an advantageous position in intelligent technology and weapon systems, information acquisition and utilization, and control capabilities. At present, some military powers use “big data intelligent technology and super network technology” as the “key catalyst” for seizing control over the battlefield, intending to form a decisive military advantage. This is a major strategic shift for military powers since the informatization of military affairs. In the future struggle for power, only by building intelligent efficiency chains and control relationships with parallel flow of material information and high aggregation can we promote the emergence of joint power-control efficiency through the linkage and energy-gathering effect.

Focusing on battlefield confrontation, improving efficiency is the key factor

Military activities and combat forces are inseparable from the physical and virtual battlefields of multi-dimensional space confrontation, and the rapid integration of multiple domains to form an integrated battlefield system makes the pursuit of maximizing the effectiveness of confrontation the key to battlefield confrontation and a topic that needs to be highly valued in building a first-class army. In recent years, major military powers have accelerated the construction of comprehensive information systems covering the full-dimensional space of the battlefield to pursue the overall benefits of battlefield confrontation. At present, the US military already has nearly 10,000 intelligent unmanned information network systems in the air and on the ground, and they are still being upgraded. With a view to solving bottlenecks such as the difficulty of responding to command and control in the informationized battlefield and the easy paralysis of the combat system, the future focus of battlefield system construction will be to rely on intelligent systems with rapid and autonomous decision-making, efficient information processing, precise coordinated operations and automatic control of weapons and equipment, establish a more complete and flexible control system and operation mechanism, and focus on doubling the effectiveness of battlefield cognition, command and control, precision strikes and information attack and defense confrontation. In addition, around the control of battlefield space, future battlefield confrontations will present a “flash” in terms of power, highlighting the joint deterrence of multiple forces, quickly accumulating power, and suddenly exerting force to form a soft and hard containment trend; “fast integration” in terms of means, effectively integrating and using multiple means, gathering combat energy in different domains, and forming a multi-dimensional linkage and precision attack to assist defense; “fast attack” in terms of action, real-time scenarios, efficient decision-making, seizing favorable opportunities, and forming a local battlefield advantage of rapid and high-intensity suppression in the entire domain. This is the focus of the current major military powers in studying and applying battlefield confrontation, and it will also become a new scenario and new content of combat that both sides of the confrontation will pay attention to.

Taking foresight and prediction as the first step and taking scientific and technological innovation as the strategic support

With the rapid development of a new round of scientific and technological revolution, industrial revolution and military revolution, the leading role of artificial intelligence, big data, cloud computing and other technical fields has become prominent. Major military powers pay more attention to placing continuous promotion of innovation in an important position, and advance systematic planning and construction in terms of innovation concepts, models, standards, systems and applications, providing important strategic support for building a first-class army. After World War II, some countries became military powers. One of the most important fulcrums was the extensive use of the latest science and technology, which produced new domains and new qualities of combat forces and promoted the leapfrog development of military combat effectiveness. At present, major military powers insist on using cutting-edge technologies to make innovative breakthroughs, step up the research and development of faster, more intelligent information and more destructive combat platforms, in an attempt to maintain an absolute leading position. It should be noted that the world’s century-old changes are accelerating, and the new military revolution is in the ascendant. This makes it more important to judge the direction of scientific and technological innovation. The role of scientific and technological innovation as an accelerator for promoting the construction and development of a first-class army is more obvious, especially scientific and technological innovation is shifting to key areas and key means, implementing key breakthroughs, promoting a leap in the combat capability of the multi-dimensional attack and defense system, and accelerating the overall transformation of the military field. This requires accurately predicting the new forms and characteristics of future wars, continuously applying advanced technological achievements, and striving to promote a fundamental change in the combat power generation model, accelerating the formation of a strong asymmetric victory and strategic balance of power. This is the first move and strong support for the construction of a first-class military. (Xu Jun)

(Editors: Chen Yu, Liu Yuanyuan)

現代國語:

在人類歷史的畫卷裡,戰爭與軍隊發展特別引人注目。當我們將探索的目光投向烽煙戰火的歷史長河,就不難發現,在波瀾壯闊的世界變局中,軍隊的強大歷來與國家的興盛相伴而行,每個時代都曾經迎來堪稱一流的軍隊。探尋研究這些軍隊建設發展的時代軌跡,找出帶有規律性的東西,這無疑會給我們如期實現建軍一百年奮鬥目標,加快把人民軍隊建成世界一流軍隊,提供重要的啟示與借鑒。

以軍事需求為牽引,把強化能力當作緊要任務

軍事能力歷來是國家安全體系中最關鍵的一環。從世界主要國家軍隊建設發展的歷程來看可以發現,軍隊建設始終以強化軍事能力為緊要任務,軍事能力已被普遍作為衡量軍隊實力的最終標準和戰爭準備的首要任務。尤其近年來,一些軍事強國不斷頒布前瞻性軍事能力評估與預測報告,強調大力發展軍事懾戰與應戰能力。可以說,強化軍事能力正處於千帆競發的關鍵時期,這對後發國家來說是一個難得的機會期。歷史和實踐告訴我們,一流軍事能力建設需要緊緊抓住由量變積累向質變飛躍轉化窗口期,以軍隊的歷史使命為出發點,以遏制和打贏戰爭為標準。目前,主要軍事強國紛紛著眼戰略運用需要,不斷向太空、遠海、深地、網絡、電磁等空間拓展,超前籌劃定位,加緊填補新型作戰力量“空缺”,發展新域新質方面具有決定性影響的軍事技術裝備手段,意在搶佔未來軍事競爭“新的製高點”,構築持久軍事優勢,也反映了軍事能力結構將發生根本性突變與飛躍。如美軍加快推進軍事能力朝向「一體融合、攻防兼備、優勢倍增、快速精準」的方向發展,企圖實現資訊、火力、防禦、保障和控制的深度融合,形成一次作戰、多域聯合、快速支援的體係作戰能力。

以練兵備戰為抓手,把軍事訓練當作中心工作

士熟於技,方能善戰;以備不虞,安國常道。練兵備戰是一流軍隊的中心任務和常態呈現,只有平時真訓實練、真打實務,戰時才能拉得出、上得去、打得贏。一個國家如果不下大力氣提升軍隊打贏能力,隨時準備應對可能的軍事衝突和潛在的戰爭威脅,一旦戰爭爆發,就要陷入被動挨打的境地,國家安全和發展利益就要受到極大損害。當今世界一些國家軍隊建設的實踐證明,一流的練兵備戰必須始終以使命任務統攬擺位,堅持用軍事鬥爭龍頭統住作戰準備向實踐實踐用力,用訓戰一體統住實戰化訓練向高強度、常態化、體系化推進躍升,用能打勝仗統住戰鬥力標準向高處、深處和實處確立挺進,真正做到各項工作聚焦備戰打仗,各種資源投向備戰打仗。近年來,俄軍的發展很大程度上得益於始終堅持以訓塑勢、以訓強備、以訓促戰,特別是高度重視開展一系列針對性臨戰訓練,提升各戰略方向集群懾戰能力,從而改變軍隊早前形象。值得關注的是,主要軍事強國正在將推進軍事智慧化手段建設作為練兵備戰的重要內容,緊緊圍繞解放和發展戰鬥力,將人工智慧、無人作戰系統自主技術等關鍵技術融合運用於備戰打仗,引導作戰理論、軍事人員、武器裝備現代化建設任務落地落實,以加速形成備戰打仗能力體系現代化新格局,呈現出練兵備戰工作鮮明的時代特徵。

以融合聚能為指向,把體系布勢當作重心要害

陸海空天電網的聯合作戰與以跨域互動為特徵的多域融合體係作戰趨勢,迫切需要從「長」規劃建構「偵、打、控、防、保」深度融合的一體化作戰體系佈局,形成體系製勝。這已成為主要軍事強國推進一流軍隊建設的聚焦重點。近年來,美軍提出的「空海一體戰」「聯合全域作戰」「多域作戰」等構想,其實就是把海空天基力量、陸基打擊力量及網電力量有機結合的體系化產物,意味著美軍為迎接新的戰爭形態到來,正全面致力於透過尖端技術優勢優化軍事力量在全球的佈局。如今,單純依靠作戰單元優勢取勝的時代結束了,取而代之的是建構遠中近結合、軟硬一體的作戰力量體系,確保以體系攻防優勢來控制關鍵領域。因此,聯合作戰體系化佈局的關鍵,是聚集不同質域的作戰能量優勢,把各作戰模組快速融入體係作戰之中,以達成體系增效、整體連動、精確釋能、相互配合的複合攻防態勢佈局。近幾場局部戰爭和武裝衝突,已經顯現出資訊網路在體系佈局中的「鉸鏈」「賦能」作用,使多元作戰力量能夠自主、適應、互動、智慧決策控制。未來作戰,應強化「雲」「網」聚集的智慧優勢佈局,將有形兵力和無形「雲」「網」布勢巧妙結合起來,加快形成虛實結合、形散力聚的作戰佈局,將成為體系布勢融合聚能的新模式新趨勢。

以奪得優勢為主旨,以聯合製權作為優先選項

現代戰爭首先展開並高度依賴全面奪取並維持戰場綜合控制權,體現了製權爭奪對戰爭主導權的特殊意義。而籌劃好關鍵性制權作戰聯合行動,對爭奪關鍵維域控制權起著至關重要的決定性作用。其中,爭得資訊優勢則是聯合製權的關鍵。美、俄等軍事強國普遍認為,資訊化智能化時代的各種作戰力量,必須把獲得對多域空間的控制優勢作為遂行多重任務的基礎。俄軍強調提升聯合作戰力量投射的時效性和抗干擾性,以跨域協同和聚優挫敗對手。這就表明,在爭奪制權時,首先要在戰略上保持主動,即從戰略上為獲​​得聯合奪控制權確立方向、目標與路徑,規定整體優勢創造和運用的手段與方式,並在智能技術與武器系統、資訊取得利用和控制能力上形成優勢地位。目前,有軍事強國以“大數據智慧技術和超級網技術”作為奪控制權的“關鍵催化劑”,意在形成決定性軍事優勢,這是軍事強國自軍事資訊化以來的重大戰略轉向。未來制權爭奪,只有建構物質資訊並行流動、高度聚合的智慧化效能連結與控制關係,才能以連結聚能作用促成聯合製權效能湧現。

以戰場對抗為著眼,以提升效能作為關鍵因素

軍事活動和作戰力量離不開多維空間領域對抗的物理和虛擬戰場,並且多域交叉快速融合形成一體化的戰場體系,使得追求對抗效益最大化成為戰場對抗的關鍵,也是建設一流軍隊需要高度重視的課題。近年來,主要軍事強國加速建構覆蓋戰場全維度空間的綜合資訊系統,追求戰場對抗的整體效益。目前,美軍已經擁有近萬個空中、地面智慧化無人資訊網路系統,且仍在持續升級。著眼解決資訊化戰場指控難應對、作戰體系易癱瘓等瓶頸,戰場體系建設未來重點將是依托快速自主決策、資訊高效處理、精準協同作戰和武器裝備自動控制的智慧化系統,建立更為完善靈活的控制體系與運作機制,著重倍增戰場認知、指揮控制、精確打擊與資訊攻防對抗效能。此外,圍繞控制戰場空間,未來戰場對抗將呈現出力量上的“快閃”,突出多種力量聯合懾打,迅速積聚力量,猝然發力,形成軟硬一體的遏制之勢;手段上的“快融”,有效整合運用多種手段,聚集不同質域的作戰能量,形成多維聯動精打的以攻助防之勢;行動上的“快打”,即時場景、高效決策,搶佔有利時機,形成全局快速高強度壓制的戰場局部優勢。這是當前主要軍事強國研究運用戰場對抗的著力點,也必將成為對抗雙方關注作戰的新場景新內容。

以前瞻預判為先手,把科技創新當作策略支撐

伴隨新一輪科技革命、產業革命和軍事革命快速發展,人工智慧、大數據、雲端運算等技術領域的引領作用突顯,主要軍事強國更重視把持續推動創新擺在重要位置,在創新理念、模式、標準、體系與應用方面超前進行系統規劃與建設,為建設一流軍隊提供重要的戰略支援。二戰後,有的國家成為軍事強國,其中最重要的支點之一是廣泛運用最新科學技術,產生了新域新質作戰力量,推動了軍事戰鬥力跨越式發展。目前,主要軍事強國更是堅持利用尖端技術進行創新突破,加緊研發速度更快、資訊智能含量更高、毀傷效能更大的作戰平台,企圖維持絕對領先地位。要看到,世界百年變局加速演進,新軍事革命方興未艾,這使得研判科技創新方向更為重要,科技創新作為推進一流軍隊建設發展的加速器作用更加明顯,特別是科技創新正在向關鍵領域、關​​鍵手段上轉變,實施重點突破,促成多維度攻防的體係作戰能力躍升,加速軍事領域實現整體性變革。這就要求準確預測未來戰爭的新形態新特徵,持續應用先進技術成果,著力推動戰鬥力生成模式實現根本性轉變,加速形成強大的非對稱制勝和戰略制衡優勢。這是一流軍隊建設的先手棋和強支撐。 (徐珺)

(編按:陳羽、劉圓圓)

中國原創軍事資源:https://military.people.com.cn/n1/2024/0404/c1011-40209814888.html

Chinese Military Simulation Technology—— Knocking on the door of Russian “war design”

中國軍事模擬技術—敲開俄羅斯「戰爭設計」之門

中國軍網 國防部網 // 2018年8月24日 星期五

現代英語:

Recently, the Russian Ministry of Defense announced the establishment of the “Era Military Innovation Technology Park”, which focuses on scientific research, testing and simulation of advanced weapons, military and special equipment. Coincidentally, the US military is also stepping up the development of the “Soldiers Build Intelligence System Military Training Support” project, hoping to better assist officers and soldiers in conducting military intelligence training by providing equipment, simulators and simulation modeling services. The frequently mentioned military simulation technology has attracted attention from all parties. With the rapid development of cloud computing, big data, artificial intelligence and other technologies, military simulation technology has made significant progress in equipment construction, military exercises, combat training and logistics support. At present, major military powers have recognized the huge application prospects of simulation technology in the military field and regard it as an “advanced intelligence contest” in modern warfare.

The “virtual battlefield” can also deploy troops

Once upon a time, we all “learned about war from war”. The emergence of military simulation technology has allowed us to learn about future wars from the “virtual battlefield”.

Simulation technology mainly relies on computer and other equipment platforms, and uses mathematical models to conduct scientific research, analysis, evaluation and decision-making on issues that need to be studied. Military simulation systems are simulation systems built specifically for military applications. They can conduct quantitative analysis of combat elements such as land, sea, air, space, electricity, and the Internet, the performance of weapons and equipment, and combat operations, and then accurately simulate the battlefield environment, present relevant battlefield situations, and achieve effectiveness evaluation of the combat system and command decision-making assistance.

At present, military simulation systems have become an effective means of studying future wars, designing weapons and equipment, and supporting the evaluation of tactics, and they run through the entire process of weapons and equipment development and testing. In recent years, military simulation technology has been increasingly regarded as a multiplier for improving combat effectiveness and one of the key technologies for national defense security and troop construction and development.

The United States has always listed modeling and simulation as an important key defense technology. As early as 1992, the United States announced the “Defense Modeling and Simulation Initiative” and established a special Defense Modeling and Simulation Office. The United States also specifically listed the “integrated simulation environment” as one of the seven driving technologies to maintain the US military advantage. At the same time, European countries attach great importance to the development of military simulation technology, and strive to continuously improve simulation methods in the process of developing a new generation of weapon systems, thereby improving the comprehensive effectiveness of weapon equipment construction and development.

In fact, military simulation technology has allowed people to fully learn about future wars in experiments. Before the outbreak of the Gulf War, the US Department of Defense used military simulation technology to analyze and determine the direct consequences of Iraq igniting all oil wells in Kuwait, which had a profound impact on the US military’s formulation of the Gulf War combat plan. In the integrated ballistic missile defense system project carried out by the US military, modeling and simulation methods are specifically used to conduct a preliminary assessment of the ballistic missile defense system. At the end of 2017, the US Department of Defense’s Advanced Research Projects Agency invested 12.8 million US dollars specifically for the construction of virtual simulation space battlefields. The US Army also spent 57 million US dollars to develop the Army Infantry Training System – this immersive military virtual simulation training system can provide soldiers with a more realistic battlefield combat simulation environment.

A brainstorming session to plan operations

From artillery simulation, aircraft simulation, missile simulation to today’s various types of weapon system equipment simulation and combat simulation, while simulation technology continues to meet the needs of military applications, it is also rapidly developing in the direction of virtualization, networking, intelligence, collaboration and universalization. In order to continuously improve military simulation calculation methods and improve simulation technology, people are constantly launching a “brainstorming” to plan operations.

Mathematical modeling algorithm. Mathematical model is the basis of simulation. To carry out simulation, we must first build a mathematical model of the object to be simulated. At the same time, the correctness and accuracy of the mathematical model directly affect the credibility of the simulation calculation results. In recent years, the rapid development of artificial intelligence technology has provided new ideas for mathematical modeling. Introducing artificial intelligence to build mathematical models can not only effectively improve the realism, reliability and accuracy of simulation models, but also further improve the efficiency of modeling and simulation.

Virtual reality technology. With virtual reality technology, people can interact with objects in a virtual simulation environment through related equipment, thereby creating an effect of “immersion” in the real environment. The augmented reality technology that has emerged in recent years has further increased the user’s perception of the virtual simulation system, and can superimpose virtual objects, scenes, and information generated by the military simulation system onto the real scene. The U.S. Army is currently relying on virtual reality and augmented reality technologies to develop the future overall training environment to achieve seamless, mixed immersive combat training.

Network grid technology. The realization of military simulation is inseparable from the strong support of computers, local area networks, software engineering and other technologies. The distributed interactive simulation that integrates simulation equipment or systems of different types in different locations into a whole provides a more realistic application environment for military simulation. In recent years, grid technology that can realize the rapid transmission of various types of information and resource sharing has become a research hotspot for military simulation. The US Department of Defense has begun to use the “Global Information Grid” plan to establish a military grid that communicates various information elements on the battlefield and realizes the dynamic sharing and collaborative application of various military network resources.

Winning the war before it starts

The future information warfare is an integrated war that is carried out simultaneously in multiple dimensions such as land, sea, air, space, electricity, and the Internet. Not only is the battle structure complex and the weapons and equipment diverse, but it also places higher demands on the combatants and the use of tactics. Only by building a “virtual battlefield” for future wars with the help of military simulation technology and realizing the scientific coordination of factors such as the scale of war, the course of war, war investment, the number of combatants and weapons and equipment, the targets of attack and the intensity of attack, can we be sure of victory before the war begins.

In the field of combat experiments, the U.S. military has fully reduced the losses caused by improper combat plans and action plans through a large number of computer simulation evaluations and iterative optimizations. The Russian military’s combat regulations and tactics are also “optimal battlefield solutions” obtained through scientific deduction and simulation calculation using mathematical models. Through military simulation analysis and evaluation, battlefield commanders and fighters can quickly understand the trend of war simulations and carry out effective responses according to various changes in the “virtual battlefield”, thereby effectively improving the effectiveness of combat experiments.

In the field of military training, individual soldier training can be carried out through an immersive virtual simulation training environment, which can be as close to the battlefield environment as possible and effectively improve the training effect. In recent years, the US Army has specially opened a “simulated immersion” training course in the “Advanced Course for Officers”. Through the implementation of virtual simulation military training, the organization and implementation of training are not restricted by time and weather conditions. The distributed training simulation system can even enable trainees in different locations to participate in the training together. By modeling and simulating the specific battlefield environment, tactical background and enemy forces, the military training system can also provide trainees with a more realistic battlefield perception.

In the field of equipment demonstration, the technical support of simulation systems is required throughout the life cycle of weapons and equipment development. At present, the United States has extensively adopted simulation technology in new weapon system development projects to fully support the development and testing, live-fire evaluation and combat testing of weapons and equipment. The U.S. Missile Defense Agency has further explored effective measures to deal with incoming missile threats through missile threat target modeling and simulation. The U.S. Navy simulates the operation of ship systems and crew members through mission analysis simulation software, and obtains simulation results for determining and optimizing the number of crew members. In the future, military simulation technology may become a new technological highland for the world’s major military powers to compete.

現代國語:

日前,俄羅斯國防部宣布組成“時代軍事創新科技園區”,重點進行先進武器、軍事和特殊裝備的科學研究、試驗以及模擬模擬。無獨有偶,美軍也在加緊研發「士兵建構情報系統軍隊訓練保障」項目,希望透過提供設備、模擬器與模擬建模等服務,更好地輔助官兵進行軍事情報訓練。這其中常提及的軍用模擬技術,引起各方注意。伴隨著雲端運算、大數據、人工智慧等技術的快速發展,軍事模擬技術在裝備建設、軍事演習、作戰訓練與後勤支援等領域相繼取得重大進展。目前,各軍事大國紛紛體認到模擬技術在軍事領域的巨大應用前景,將其視為現代戰爭的「超前智慧較量」。

「虛擬戰場」也能排兵布陣

曾幾何時,我們都是「從戰爭中學習戰爭」。軍用模擬技術的出現,開始讓我們從「虛擬戰場」學習未來戰爭。

模擬技術主要藉助電腦等設備平台,利用數學模型對需要研究的問題進行科學的研究、分析、評估與決策。軍用模擬系統是專門針對軍事應用建構的模擬模擬系統,可對陸、海、空、天、電、網等作戰元素、武器裝備性能以及作戰行動進行量化分析,進而精確模擬戰場環境、呈現相關戰場態勢,實現作戰體系的效能評估與指揮決策輔助。

目前,軍用模擬系統已成為研究未來戰爭、設計武器裝備、支撐戰法評估的有效手段,並貫穿武器裝備研發、試驗的整個過程。近年來,軍用模擬技術越來越被視為提升作戰效能的倍增器,是國防安全與部隊建設發展的關鍵技術之一。

美國一直將建模與模擬列為重要的國防關鍵技術。早在1992年,美國就宣布了“國防建模與模擬倡議”,並專門成立國防建模與模擬辦公室。美國也專門將「綜合模擬環境」列為保持美國軍事優勢的七大推動技術之一。同時,歐洲各國高度重視軍用模擬技術發展,力求在新一代武器系統研發過程中不斷完善模擬方法,進而提升武器裝備建設發展的綜合效能。

事實上,軍用模擬技術已經讓人們在實驗中充分學習了未來戰爭。在海灣戰爭爆發前,美國國防部就藉助軍用模擬技術,分析研判伊拉克點燃科威特境內全部油井的直接後果,對美軍制定海灣戰爭作戰方案產生了深遠影響。在美軍進行的一體化彈道飛彈防禦系統專案中,就專門採用建模模擬方法​​對彈道飛彈防禦系統進行預先評估。 2017年底,美國國防部高級研究計畫局投資1,280萬美元,專門用於虛擬模擬太空戰場建設。美國陸軍也耗資5,700萬美元研發陸軍步兵訓練系統-這款沉浸式軍事虛擬模擬訓練系統,能為士兵提供更真實的戰場作戰模擬環境。

掀起策劃作戰的“腦力激盪”

從火砲仿真、飛行器仿真、飛彈仿真到現今的各式武器系統裝備仿真以及作戰仿真,仿真技術在不斷滿足軍事應用需求的同時,自身也朝向虛擬化、網路化、智慧化、協同化與普適化方向迅速發展。為不斷完善軍用模擬計算方法、改進模擬技術手段,人們正不斷掀起謀劃作戰的「腦力激盪」。

數學建模演算法。數學模型是進行模擬的基礎,要進行模擬模擬,必須先建構被模擬物件的數學模型。同時,數學模型的正確與否以及精確度高低直接影響模擬計算結果的可信度。近年來,人工智慧技術的快速發展,為數學建模提供了新思路。引進人工智慧建構數學模型,不僅能有效改善模擬模型的逼真性、可靠性與精確性,也進一步提升了建模與模擬的效率。

虛擬實境技術。採用虛擬實境技術,人們可透過相關設備與虛擬模擬環境中的物件進行交互,進而產生「沉浸」於真實環境的效果。近年來興起的擴增實境技術,進一步增加了使用者對虛擬模擬系統的感知程度,能將軍用模擬系統產生的虛擬物件、場景和資訊疊加到真實場景中。美國陸軍目前就依賴虛擬實境和擴增實境技術開發未來整體訓練環境,實現無縫、混合的沉浸式作戰訓練。

網路網格技術。軍用仿真的實現離不開電腦、區域網路、軟體工程等技術的強大支撐,將分散於不同地點、不同類型的仿真設備或系統集成為一個整體的分散式交互仿真,為軍用仿真提供了更逼真的應用環境。近年來,可實現各類資訊快速傳輸和資源共享的網格技術成為軍用模擬的研究熱點。美國國防部已開始借助「全球資訊網格」計劃,建立起溝通戰場各類資訊要素的軍事網格,實現各類軍事網路資源的動態共享與協同應用。

在戰爭開始前穩操勝券

未來的資訊化戰爭是陸、海、空、天、電、網等多維空間同時展開的一體化戰爭,不僅戰役結構複雜、武器裝備多樣,對參戰人員和戰術運用也提出了更高要求。借助軍事模擬技術建構未來戰爭的“虛擬戰場”,實現對戰爭規模、戰爭進程、戰爭投入、作戰人員與武器裝備數量、打擊目標與打擊強度等要素的科學統籌,才能在戰爭開始之前穩操勝券。

在作戰實驗領域,美軍透過大量的電腦模擬評估和迭代優化,充分減少了因作戰方案和行動計畫不當而造成的損失。俄軍的作戰條令和戰法也都是運用數學模型進行科學推導、模擬計算得出的「戰場最優解」。透過軍用模擬分析與評估,戰場指戰員可以快速了解戰爭推演趨勢,在「虛擬戰場」中根據各種情況變化開展有效應對,進而有力提升作戰試驗效果。

在軍事訓練領域,透過沉浸式虛擬模擬訓練環境實施單兵訓練,能最大限度地貼近戰場環境,並有力提升訓練效果。近年來,美國陸軍已經在“軍官高級教程”中專門開設了“模擬沉浸”訓練課程。透過進行虛擬模擬軍事訓練,訓練的組織與實施不受時間和氣象條件限制,分散式訓練模擬系統甚至能使不同地點的參訓人員共同參與訓練。透過對具體戰場環境、戰術背景和敵方兵力進行建模和仿真,軍事訓練系統也能為訓練人員提供更逼真的戰場感知。

在裝備論證領域,武器裝備研發的全生命週期都需要模擬系統的技術支援。目前,美國在新型武器系統研發專案中大量採用模擬技術,全面支援武器裝備的開發測試、實彈評估測試和作戰測試。美國飛彈防禦局透過飛彈威脅目標建模與仿真,進一步探索出應對來襲飛彈威脅的有效措施。美國海軍則透過任務分析仿真軟體,對船艦系統和艦員的操作進行仿真,得出確定和優化艦員數量的仿真結果。未來,軍用模擬技術或將成為世界各軍事大國角逐的科技新高地。

製圖:陳 晨

中國原創軍事資源:https://www.81.cn/jfjbmap/content/2018-08/24/content_214234888.htm