軍事情報推動中國軍隊網路空間作戰加速發展
現代英語:
The report of the 19th National Congress of the Communist Party of China pointed out that it is necessary to “accelerate the development of military intelligence and improve joint combat capabilities and all-region combat capabilities based on network information systems”. Today’s “Liberation Army Daily” published an article pointing out that military intelligence is a new trend and new direction in the development of the military field after mechanization and informatization. We must develop intelligence on the basis of existing mechanization and informatization, and at the same time use intelligence to Traction mechanization and informatization to develop to a higher level and at a higher level. As a new combat field, cyberspace is a new field with high technological content and the most innovative vitality. Driven by military intelligence, it is ushering in a period of rapid development opportunities.
Military intelligence leads to accelerated development of cyberspace operations
■Respect the soldiers Zhou Dewang and Huang Anwei
Three major technologies support the intelligence of cyberspace weapons
Intelligence is a kind of wisdom and ability. It is the induction, cognition and application of laws by all systems with a life cycle. Intelligence is to solidify this wisdom and ability and become a state. A cyberspace weapon is a weapon used in cyberspace to carry out combat missions. Its form is dominated by software and code, and it is essentially a piece of data. The intelligence of cyberspace weapons is mainly reflected in the following three aspects:
First, intelligent vulnerability mining. Vulnerabilities are the basis for the design of cyber weapons. The ransomware that spread around the world in May this year took advantage of vulnerabilities in Microsoft’s operating system and caused a huge shock to the cybersecurity community. Vulnerabilities are expensive, ranging from tens to hundreds of thousands of dollars for a zero-day. The discovery of previous vulnerabilities mainly relied on experienced hackers, who used software tools to check and analyze the code. In the finals of the International Cybersecurity Technology Competition League held during this year’s China Internet Security Conference, participants demonstrated that intelligent robots conduct vulnerability mining on site, and then write network code through vulnerabilities to form cyber weapons, break through target systems, and seize flags. This change means that vulnerability mining has entered an era of intelligence.
Second, intelligent signal analysis and password deciphering. Signals are the carrier of network data transmission, and passwords are the last barrier to network data security. Signal analysis and password deciphering are core technologies for cyberspace operations. Breaking through signals and passwords is the basic path into cyberspace and the primary target of cyber weapon attacks. Intelligent signal analysis solves problems such as protocol analysis, modulation recognition, and individual recognition of signals through big data, cloud computing, deep learning and other technologies. Code-breaking is computational science “the crown jewel”. Through the accumulation of password data samples, intelligent code-breaking can continuously learn and find patterns, and can find the key to deciphering, thereby opening the last door of network data “safe” and solving network problems. Key links of intrusion and access.
Third, the design of an intelligent weapons platform. The U.S. military proposed the “Cyber Aircraft” project in 2009 to provide platforms such as tanks, ships, and aircraft for cyberspace operations. It can realize automatic reconnaissance, loading of cyber weapons, autonomous coordination, and autonomous attacks in cyberspace. When threatened, Self-destruction and removal of traces have certain intelligent characteristics. The weapons loaded by future “cyber aircraft” are not code compiled by software personnel, but directly based on the reconnaissance results to design intelligent cyber weapons on site in real time and achieve “ordered” development, thus greatly improving cyberspace operations. Targeted.
The intelligent trend of network-controlled weapons has become increasingly prominent
Weapons controlled by cyberspace are referred to as cyber-controlled weapons. They are weapons that connect through the network, accept cyberspace instructions, perform cross-domain tasks, and achieve combat effects in physical space. Most of the various combat weapons platforms in the future will be networked weapons platforms. In this way, the military information network is essentially the Internet of Things. Network entities such as uplink satellites, radars, and drones can detect, track, locate, and strike through the Internet. Space control, the intelligence of network-controlled weapons has flourished in battlefields such as land, sea, air, space and electricity.
In 2015, Syria used the Russian Robot Corps to defeat militants. The operation used 6 tracked robots, 4 wheeled robots, 1 automated artillery group, several drones and 1 command system. The commander dispatches drone reconnaissance through the chain of command to spot the militants, and the robots charge the militants, while accompanied by artillery and drone attack force support, delivering a fatal blow to the militants. It was only a small-scale battle, but it set the precedent for robot “group” operations.
Network-controlled intelligent weapons for sea and air battlefields are being developed and verified in large quantities. In 2014, the U.S. Navy used 13 unmanned surface boats to demonstrate and verify that unmanned boat groups intercepted enemy ships and achieved good results mainly by exchanging sensor data. When it was tested again in 2016, functions such as collaborative task allocation and tactical coordination were added, and “swarm awareness” became a distinctive feature of its intelligence.
Swarms of small and micro UAVs for aerial combat are also growing rapidly. In recent years, the U.S. Department of Defense has repeatedly tested the “Quail” micro-drone, which can drop dozens or even hundreds at a time. By improving its coordination capabilities when performing reconnaissance missions, it has made great progress in drone formation, command, control, and intelligence. Progress has been made in management and other aspects.
Space-based cyber-controlled weapons are becoming more and more “smart”. The air and space field mainly contains two types of network-controlled weapons: reconnaissance and strike. Satellites with various functions mainly perform reconnaissance missions and are typical reconnaissance sensors. With the emergence of various small and microsatellite groups, satellites have been made to exhibit new characteristics: small size, fast launch, large number, and greater intelligence. Small and microsatellite groups have greater flexibility and reliability when performing reconnaissance and communication missions, and currently the world’s satellite powers are actively developing plans for small and microsatellite groups with wider coverage.
Hypersonic strike weapons of all kinds cruised in the air and space, as if sharp swords were hanging over people’s heads. The U.S. Air Force Research Office stated that “high-speed strike weapons” will launch flight tests around 2018, and other countries are also actively developing similar weapons. The biggest features of this type of weapon are their high speed, long range, and high intelligence.
Intelligent command information system changes traditional combat command methods
Cyberspace weapons and weapons controlled by cyberspace are the “fist” of intelligent warfare, and the command information system that directs the use of these weapons is the “brain” of intelligent warfare. Cyberspace combat command information systems must keep up with intelligence simultaneously. process. At present, almost all command information systems in the world are facing the difficult problem of “intelligent lag”. In future wars, rapid decision-making and autonomous decision-making are required, which places higher requirements on intelligent auxiliary systems.
In 2007, the U.S. Department of Defense’s Advanced Research Projects Agency launched a research and development program on command and control systems ——“Project Dark Green” in order to enable computer-aided commanders to make rapid decisions and win opportunities. This is a campaign tactical-level command information system. Its research and development purpose is to embed the system into the U.S. Army brigade-level C4ISR wartime command information system to achieve intelligent command of commanders. To this day, the U.S. military has not relaxed its development of intelligent command information systems.
In cyberspace operations, the network target appears as an IP address connected to the network. The large number makes it difficult for manual operations to operate efficiently, and operations require the auxiliary support of intelligent command information systems. Currently, intelligent command information systems need to realize functions such as intelligent intelligence analysis, intelligent perception, intelligent navigation and positioning, intelligent assisted decision-making, intelligent collaboration, intelligent evaluation, and intelligent unmanned combat, especially to realize cluster combat control of unmanned network control systems, which has put forward urgent needs for intelligent command information systems and requires accelerating the research and development and application of corresponding key technologies.
To sum up, intelligent cyber weapons and cyber-controlled weapons, through intelligent information system scheduling, will form huge combat capabilities and can basically carry out all actions in the current combat style. In future wars, from the formation of command forces, to target selection, mode of action, use of tactics, etc., will all be carried out in an intelligent context. The characteristics of war “gamification” will be more significant, and the combat command method will also undergo major changes.
In the future battlefield, fighting courage requires more fighting “wisdom”
■Yang Jian and Zhao Lu
At present, the development of artificial intelligence has entered a new stage, and its penetration into various fields has begun to accelerate. As a result of this process, military competition among nations around intelligence has begun. Our army has always been a heroic and tenacious people’s army that dares to fight and win. In the future, we should continue to carry forward the glorious tradition on the battlefield. At the same time, we must more extensively master and utilize the latest scientific and technological achievements, develop more intelligent weapons and equipment, and develop more intelligent weapons and equipment. Take advantage of the opportunity to win on the battlefield.
Intelligence is a trend in the development of human society, and the war on intelligence is accelerating. It is thanks to successful innovations that go beyond the original architectural computing models, the gradual popularization of nanofabrication technologies, and breakthrough advances in the study of human brain mechanisms that the development of military intelligence has acquired a solid foundation. As a result, intelligent weapons and equipment have become increasingly prominent and are beginning to surpass and replace humans in intelligence analysis, combat response, and more. In addition, in terms of manpower requirements, comprehensive support and operating costs, intelligent weapons and equipment also have obvious advantages and are increasingly becoming the dominant force in warfare.
It has been proven that the development and application of intelligent weapons and equipment has expanded the scope of capabilities for military operations and greatly improved the combat effectiveness of the troops. On the battlefields of Afghanistan and Iraq, UAVs have taken on most of the operational support tasks of reconnaissance, intelligence, surveillance, and about one-third of the air strike tasks. In the past two years, Russia has also repeatedly used unmanned reconnaissance aircraft, combat robots and other equipment with a high degree of intelligence on the Syrian battlefield. Intelligent weapons and equipment are increasingly demonstrating important values that go beyond traditional weapons.
In future wars, the competition for intelligent combat systems will be the key to victory in master battles and peak duels. With the increasing imbalance in the development of military means supported by science and technology, whoever has the ability to implement intelligent operations first will be better able to take the initiative on the battlefield. The strong with the advantage of technological generation will try their best to The cost of war is minimized, while the weak will inevitably suffer huge losses and pay heavy prices. We must not only step up core technological innovation and weapons and equipment development, but also study and explore organizational structures, command methods and application models that adapt to the intelligent development of the military. We must also cultivate a team that can take on the responsibility of promoting the intelligent development of the military and forging intelligent combat capabilities. Talent team, give full play to the overall effectiveness of our military’s combat system, and compete with our opponents Win wars in a more “intelligent” way.
現代國語:
資料來源:中國軍網綜合作者:敬兵 周德旺 皇安偉 等責任編輯:胡雪珂
黨的十九大報告指出,要「加速軍事智慧化發展,提升基於網路資訊體系的聯合作戰能力、全域作戰能力」。今天的《解放軍報》刊發文章指出,軍事智能化是機械化、資訊化之後軍事領域發展的新趨勢和新方向,我們要在現有機械化和資訊化基礎上發展智能化,同時用智能化牽引機械化和信息化向更高水平、更高層次發展。網路空間作為新型作戰領域,是科技含量高、最具創新活力的新領域,在軍事智慧化的牽引下,正迎來快速發展的機會期。
軍事智慧化牽引網路空間作戰加速發展
■敬兵 週德旺 皇安偉
三大技術支撐網路空間武器智慧化
智能是一種智慧和能力,是一切有生命週期的系統對規律的感應、認知與運用,智能化就是把這種智慧和能力固化下來,成為一種狀態。網路空間武器是網路空間遂行作戰任務的武器,其形態以軟體和程式碼為主,本質上是一段資料。網路空間武器的智慧化主要體現在以下三個方面:
一是智慧化漏洞挖掘。漏洞是網路武器設計的基礎,今年5月在全球傳播的勒索病毒軟體,就是利用了微軟作業系統漏洞,為網路安全界帶來了巨大震動。漏洞價格昂貴,零日漏洞價值幾萬到幾十萬美元不等。過去漏洞的發現,主要依靠有經驗的駭客,利用軟體工具對程式碼進行檢查和分析。今年中國網路安全大會期間舉辦的國際網路安全技術對抗聯賽總決賽中,參賽人員示範由智慧機器人現場進行漏洞挖掘,然後透過漏洞編寫網路程式碼,形成網路武器,攻破目標系統,奪取旗幟。這項變化,意味著漏洞挖掘進入了智慧化時代。
二是智能化訊號分析和密碼破譯。訊號是網路資料傳輸的載體,密碼是網路資料安全的最後屏障,訊號分析和密碼破解是網路空間作戰的核心技術,突破訊號和密碼是進入網路空間的基本路徑,也是網路武器攻擊的首要目標。智慧化訊號分析將訊號的協定分析、調變辨識、個體辨識等問題,透過大數據、雲端運算、深度學習等技術來解決。密碼破解是計算科學“皇冠上的明珠”,智能化密碼破譯通過對密碼數據樣本的積累,不斷學習、尋找規律,能找到破譯的鑰匙,從而打開網絡數據“保險櫃”的最後一扇門,解決網絡入侵和接入的關鍵環節。
三是智慧化武器平台設計。美軍在2009年提出「網路飛行器」項目,為網路空間作戰提供像戰車、艦艇、飛機這樣的平台,可以實現在網路空間裡自動偵察、載入網路武器、自主協同、自主攻擊,受到威脅時自我銷毀、清除痕跡,具備了一定的智慧化特徵。未來「網路飛行器」載入的武器,不是軟體人員編好的程式碼,而是根據偵察結果直接對發現的漏洞,現場即時進行智慧化網路武器設計,實現「訂購式」開發,從而大大提高網路空間作戰的針對性。
網控武器的智慧化趨勢愈加凸顯
受網路空間控制的武器簡稱網路武器,是透過網路連接,接受網路空間指令,執行跨域任務,在實體空間達成作戰效果的武器。未來的各種作戰武器平台,大多是聯網的武器平台,這樣軍事資訊網本質上就是物聯網,上聯衛星、雷達、無人機等網路實體,從感知到發現、追蹤、定位、打擊都可透過網路空間控制,網控武器的智慧化已在陸海空天電等戰場蓬勃發展。
2015年,敘利亞利用俄羅斯機器人軍團擊潰武裝分子,行動採用了包括6個履帶式機器人、4個輪式機器人、1個自動化火砲群、數架無人機和1套指揮系統。指揮官透過指揮系統調度無人機偵察發現武裝分子,機器人向武裝分子發動衝鋒,同時伴隨火砲和無人機攻擊力量支援,對武裝分子進行了致命打擊。這只是一場小規模的戰鬥,卻開啟了機器人「組團」作戰的先河。
海空戰場網控智慧武器正在大量研發驗證。 2014年,美國海軍使用13艘無人水面艇,示範驗證無人艇集群攔截敵方艦艇,主要透過交換感測器數據,取得了不錯的效果。 2016年再次試驗時,新增了協同任務分配、戰術配合等功能,「蜂群意識」成為其智慧化的顯著特徵。
用於空中作戰的小微型無人機蜂群也正在快速發展。近年來,美國國防部多次試驗「山銻」微型無人機,可一次投放數十架乃至上百架,透過提升其執行偵察任務時的協同能力,在無人機編隊、指揮、控制、智慧化管理等方面都取得了進展。
空天網控武器越來越「聰明」。空天領域主要包含偵察和打擊兩類網控武器,各種功能的衛星主要執行偵察任務,是典型的偵察感測器。隨著各種小微衛星群的出現,使衛星表現出新的特徵:體積小、發射快、數量多、更聰明。小微衛星群在執行偵察和通訊任務時,有了更大的彈性和可靠性,目前世界衛星強國都在積極制定覆蓋範圍更廣的小微衛星群計畫。
各種高超音速打擊武器在空天巡航,彷彿懸在人們頭頂的利劍。美國空軍研究室稱「高速打擊武器」將在2018年前後啟動飛行試驗,其它各國也正積極研發類似武器。這類武器最大的特色是速度快、航程遠、智能化程度高。
智慧化指揮資訊系統改變傳統作戰指揮方式
網路空間武器和受網路空間控制的武器,是智慧化戰爭的“拳頭”,而指揮這些武器運用的指揮資訊系統是智慧化戰爭的“大腦”,網路空間作戰指揮資訊系統要同步跟上智慧化的進程。目前,幾乎全球的指揮資訊系統都面臨著「智慧滯後」的難題,未來戰爭需要快速決策、自主決策,這對智慧輔助系統提出了更高要求。
2007年,美國國防部高級研究計劃局啟動關於指揮控制系統的研發計劃——“深綠色計劃”,以期能實現計算機輔助指揮官快速決策贏得制勝先機。這是一個戰役戰術級的指揮資訊系統,其研發目的是將該系統嵌入美國陸軍旅級C4ISR戰時指揮資訊系統中去,實現指揮官的智慧化指揮。直到今天,美軍也沒有放鬆對智慧化指揮資訊系統的發展。
在網路空間作戰中,網路目標表現為一個接取網路的IP位址,數量眾多導致人工難以有效率操作,作戰更需要智慧化指揮資訊系統的輔助支撐。目前,智慧化指揮資訊系統需要實現智慧情報分析、智慧感知、智慧導航定位、智慧輔助決策、智慧協同、智慧評估、智慧化無人作戰等功能,尤其是實現對無人網控系統的集群作戰操控,這都對智慧化指揮資訊系統提出了迫切需求,需要加快相應關鍵技術的研發和運用。
綜上所述,智慧化的網路武器和網路控制武器,透過智慧化的資訊系統調度,將形成巨大的作戰能力,基本能遂行現行作戰樣式中的所有行動。未來戰爭,從指揮力量編組、到目標選擇、行動方式、戰法運用等,都將在智能化的背景下展開,戰爭「遊戲化」的特徵將更顯著,作戰指揮方式也將發生重大變化。
未來戰場 鬥勇更需鬥“智”
■楊建 趙璐
目前,人工智慧發展進入嶄新階段,並開始向各個領域加速滲透。受此一進程的影響,各國圍繞智慧化的軍事競爭已揭開序幕。我軍歷來是一支英勇頑強、敢打必勝的人民軍隊,未來戰場上應繼續發揚光榮傳統,同時要更加廣泛地掌握和利用最新的科技成果,研製出更多智能化的武器裝備,在未來戰場上掌握制勝先機。
智慧化是人類社會發展的趨勢,智慧化戰爭正加速到來。正是由於超越原有體系結構計算模型的成功創新、奈米製造技術的逐步普及,以及對人腦機制研究的突破性進展,軍事智慧化發展才擁有了堅實的基礎。因此,智慧化武器裝備的表現日益突出,並在情報分析、戰鬥反應等方面開始超越並取代人類。此外,在人力需求、綜合保障、運作成本等方面,智慧化武器裝備也具有明顯的優勢,日益成為戰爭的主導力量。
事實證明,智慧化武器裝備的發展應用,拓展了軍事行動的能力範圍,大幅提升了部隊的作戰效能。在阿富汗和伊拉克戰場上,無人機已承擔了大部分偵察、情報、監視等作戰保障任務,並承擔了約三分之一的空中打擊任務。近兩年,俄羅斯在敘利亞戰場上也曾多次使用較高智慧化程度的無人偵察機、戰鬥機器人等裝備。智慧化武器裝備正愈來愈地展現出超越傳統武器的重要價值。
未來戰爭中,作戰體系智能化的較量將是高手過招、巔峰對決的勝利關鍵。隨著以科技為支撐的軍事手段發展的不平衡性越來越大,誰先具備實施智能化作戰的能力,誰就更能掌握戰場的主動權,擁有技術代差優勢的強者會盡可能將戰爭成本降到最低,而弱者必然遭受巨大損失,付出慘重代價。我們不僅要加緊核心技術創新、武器裝備研製,還要研究探索適應軍事智能化發展的組織結構、指揮方式和運用模式,更要培養一支能夠擔起推進軍事智能化發展、鍛造智能化作戰能力的人才隊伍,充分發揮我軍作戰體系的整體效能,在與對手的較量中,以更加“智慧”的方式贏得戰爭。
中國原創軍事資源:http://www.81.cn/jwzl/2017-11/24/content_7841895888.htm