全面檢視中國軍事智能化戰爭
現代英語:
Source: China Military Network-People’s Liberation Army Daily Author: Gao Kai and Chen Liang Editor-in-charge: Zhao Leixiang
2025-01-23 06:50:x
“Order dispatch”: a new style of precision strike
■Gao Kai, Chen Liang
Lenin once said, “If you don’t understand the times, you can’t understand war.” In recent years, the widespread use of information and intelligent technology in the military field has promoted the deep integration of technology and tactics, and has given birth to “order-based” precision strikes based on intelligent network information systems. Commanders and command agencies can generate strike list requirements based on combat missions. The decision-making system can intelligently match strike platforms, autonomously plan action paths, and scientifically select strike methods based on personalized needs such as strike time, combat space, and damage indicators, thereby quickly and accurately releasing strike effectiveness.
The operational characteristics of “order-to-order” precision strikes
As the informationization and intelligence of weapons and ammunition continue to improve, the cost of modern warfare is also increasing. How to use limited strike resources to achieve the best cost-effectiveness and maximize combat effectiveness has become a central issue for commanders and command agencies in combat planning. “Order-based” precision strikes can provide a “feasible solution” for this.
Instant optimization and precise energy release. Modern warfare places more emphasis on structural strikes and destruction of the enemy’s combat system, and achieves combat objectives by quickly and accurately releasing combat effectiveness. This requires commanders and command agencies to seize the fleeting “window” of opportunity and strike high-value, nodal, and key targets in the enemy’s combat system before the enemy responds. The traditional “discovery-guidance-strike-assessment” combat loop is time-consuming and has poor combat effectiveness. Therefore, “order-dispatching” precision strikes need to rely on advanced intelligent network information systems, do not pre-determine the strike platform, and publish a list of strike targets in real time. The auxiliary decision-making system quickly evaluates the strike performance of various weapon platforms and the expected damage to the target, autonomously assigns strike platform tasks, quickly links and regulates multi-domain firepower strike forces, and autonomously closes the kill chain to quickly strike key targets.
Multi-domain energy gathering and coordinated strike. The advantage of modern combat precision strikes over previous firepower strikes lies in the information-based and intelligent combat system, which does not require human intervention and relies on a closed strike chain to autonomously complete tasks such as “detection, control, attack, and evaluation”. It can not only save the cost of strikes and reduce resource waste, but also achieve adaptive coordination based on unified combat standards. Therefore, the “order-to-order” precision strike requires the firepower strike forces distributed in various combat fields to establish a unified standard grid. As long as a demand is issued at one point, multiple points can respond and the overall linkage can be achieved. Forces and firepower can be flexibly concentrated, and multiple means and rapid multi-domain energy gathering can be used to determine the strike direction, strike order, and strike method of each strike platform on the move. Through system integration, time can be effectively saved, and multi-domain precision strikes can be carried out on key node targets and key parts of core targets of the enemy, giving full play to the overall power of the superposition and integration of the combat effectiveness of each combat unit.
The attack must break the enemy’s system and be quick and decisive. Modern warfare is a “hybrid war” implemented simultaneously in multiple fields. The interweaving influence and confrontation of new domains and new qualities such as information, aerospace, and intelligence are more obvious. This requires both sides of the war to be able to discover and act one step faster than the enemy, destroy and paralyze the enemy’s combat system, and reduce the efficiency of the enemy’s system. On the one hand, it is necessary to accurately identify the nodes of the enemy system and instantly optimize and accurately strike; on the other hand, it is necessary to conceal one’s own intentions and strike forces, and strike quickly when the enemy is unprepared. “Order dispatch” type precision strikes can well meet these two requirements. With the support of network information systems, intelligent integration of firepower strike forces in various fields can be achieved, and multi-source information perception, data cross-linking, and multi-domain coordinated strikes can be achieved. The seamless and high-speed operation of “target perception-decision-making command-firepower strike-damage assessment” is realized, and information and firepower are highly integrated to quickly achieve combat objectives.
The system composition of “order dispatch” type precision strike
The “order-based dispatch” precision strike builds an efficient closed strike chain, compresses action time, improves strike effectiveness, enables various firepower strike platforms to better integrate into the joint firepower strike system, and provides fast and accurate battlefield firepower support. The key lies in the “network” and the focus is on the “four” systems.
Multi-domain platform access network. With the support of information and intelligent technology, an integrated information network system with satellite communication as the backbone will be established, and the firepower strike platforms distributed in the multi-dimensional battlefield will be integrated into the combat network to establish a battlefield “cloud”. Different combat modules will be distinguished, and “subnet clouds” such as “detection, control, attack, and evaluation” will be established. Relying on the integrated communication network chain, the “subnet cloud” will be linked to the “cloud”, which can enhance the firepower strike platform’s full-domain, full-time, on-the-go access, autonomous networking, and spectrum planning capabilities, and realize the network interconnection of firepower platforms, domain-based combat systems, and joint combat systems, as well as the interconnection of internal strike forces.
Joint reconnaissance and perception system. Relying on various reconnaissance and surveillance forces within the joint combat system, conduct all-weather, multi-directional, and high-precision battlefield perception of the combat area. This requires the construction of a full-dimensional reconnaissance and perception force system that exists in physical and logical spaces, tangible and intangible spaces, and the deployment of intelligent perception equipment over a wide area to form an intelligence data “cloud”. Through the intelligence data “cloud”, the enemy situation is analyzed, the key points of the enemy combat system and time-sensitive targets are found, and the reconnaissance information is updated in real time to show the dynamics of the target.
Intelligent command and decision-making system. Relying on a new command and control system with certain intelligent control capabilities, various planning and analysis models are constructed to expand functions such as intelligent intelligence processing, intelligent task planning, automatic command generation, and precise action control. Databases such as the target feature library, decision-making knowledge base, and action plan library are expanded and improved to strengthen the system support capabilities for task planning, action decision-making, and control in the process of combat organization and implementation, improve planning and decision-making and combat action control capabilities, clarify “how to fight, where to fight, and who will fight”, and achieve accurate “order dispatching”.
Distributed firepower strike system. Relying on the intelligent network information system, on the one hand, it integrates land, sea, air, space and other multi-dimensional firepower strike platforms, strengthens the functions of intelligent target identification and remote control strike, and realizes various combat methods such as remote control combat of combat units, manned and unmanned coordinated combat, and flexible and mobile combat; on the other hand, it can build a low-cost firepower strike platform mainly composed of low-altitude and ultra-low-altitude unmanned strike platforms such as crossing aircraft and cruise missiles. By adding different functional combat payloads, it can work closely with high-end firepower strike platforms to implement battlefield guidance, precision strikes, firepower assessment and other tasks, and efficiently complete the “order”.
Autonomous damage assessment system. Relying on the reconnaissance and surveillance forces within the joint combat system to build a damage assessment system, after the firepower platform completes the strike, it will autonomously conduct strike effect verification on the target. It mainly conducts real-time, dynamic, objective, and systematic analysis and evaluation of the target’s appearance, degree of functional loss, etc., and promptly transmits relevant information to decision-making and command centers at all levels through video images. The evaluation center will judge “how well the strike was” and whether it meets the expected damage requirements. If it does not meet the requirements, the combat operations can be adjusted in a timely manner and supplementary strikes can be carried out to provide strong support for maximizing combat effectiveness.
Planning and implementation of “order-based” precision strikes
The “order dispatch” type of precision strike is just like the way online ride-hailing services operate. Through a series of processes such as formatted “order” generation, intelligent object matching, and autonomous path planning, it independently completes the “OODA” combat cycle. Its actions are more efficient, the strikes are more precise, and the coordination is closer.
Firepower requirements are reported in real time, and combat units “submit orders” on demand. Reconnaissance elements distributed in different combat areas and multi-dimensional battlefield spaces use radar, optical, infrared and technical reconnaissance methods to form battlefield target intelligence information through wide-area multi-source detection. This information is connected to the battlefield information network through intelligence links and is transmitted to combat units anytime and anywhere. The combat units will perform correlation processing, multi-party comparison and verification, and comprehensively compile battlefield target information to generate accurate task “orders”. The combat unit analyzes the target value and connects to the decision-making platform on demand, builds an “order”-style closed strike chain, and submits task “orders” in real time to achieve in-motion optimization and precise adaptation.
Differentiate fire strike tasks, and the decision center intelligently “dispatches orders”. Through the battlefield information network and relying on the intelligent task planning system, the decision center can automatically parse the task “order” information data submitted by the combat unit, and automatically generate the task requirements such as the type and quantity of ammunition, strike method and damage index required for the fire strike action according to the nature, coordinate position, movement status, threat level, etc. of the battlefield target, and form a fire support task “order”. Through intelligent matching of the best firepower platform, link nodes are connected as needed, and intelligent command-based “dispatching” is carried out, which is immediately delivered to the firepower platform waiting for combat.
The firepower platform can “accept orders” immediately by matching the best targets at all times. The firepower platforms distributed at multiple points in the battlefield area can respond to “accept orders” immediately through the battlefield information network. The firepower platform and the combat unit can establish a chain autonomously, and directly establish a guided strike chain after mutual “identity” verification, coordinate and cooperate with the firepower strike operation, and adjust the strike method and shooting parameters in time according to the damage to the target after the strike and the dynamics of the battlefield target, and then carry out firepower strikes again until the “dispatching” task is completed. The firepower platform always follows the principle of “strike-transfer-strike-transfer”, completes the strike task, quickly moves the position, stays in a combat state at all times, and receives “orders” online in real time. After the task is completed, the guided strike chain between the firepower platform and the combat unit will be automatically cancelled.
Acquire damage information from multiple sources, and the assessment center will “evaluate” in real time. Comprehensively use long-distance information-based intelligent reconnaissance methods such as satellite reconnaissance, radar reconnaissance, and drone reconnaissance to implement multi-domain three-dimensional reconnaissance, obtain the target’s fire damage information in real time, and provide accurate assessments for precision fire strikes. Comprehensively determine the damage effect, conduct quantitative and qualitative evaluations of the strike effect, distinguish the three damage states of the target’s physical, functional, and system, and provide timely feedback to the decision-making center. According to the damage assessment results of the strike target, timely put forward control suggestions, adjust the fire strike plan, optimize combat operations, and achieve precise control of fire strikes, so that commanders can accurately control the combat process and achieve efficient command and control of the effectiveness of fire strikes.
現代國語:
「訂單派單」:精確打擊新樣式
■高 凱 陳 良
引言
列寧說過,「不理解時代,就不能理解戰爭」。近年來,資訊化智慧化技術在軍事領域的廣泛運用,促進了技術與戰術深度融合,依托智能化網絡資訊體系,催生出「訂單派單」式精確打擊。指揮員及指揮機關可依據作戰任務格式化產生打擊清單需求,決策系統依據打擊時間、作戰空間、毀傷指標等個性化需求智慧匹配打擊平台、自主規劃行動路徑、科學選擇打擊方式,進而快速精準釋放打擊效能。
「訂單派單」式精確打擊的作戰特點
隨著武器彈藥資訊化智慧化程度不斷提升,現代作戰成本也不斷提高。如何運用有限打擊資源打出最高效費比,實現作戰效能最大化,已成為指揮員及指揮機關作戰籌劃的中心問題,「訂單派單」式精確打擊可為此提供「可行解」。
即時聚優精確釋能。現代作戰更強調對敵作戰體系進行結構性打擊破壞,透過快速且精準地釋放作戰效能實現作戰目的。這就要求指揮員及指揮機關能夠抓住稍縱即逝時機的“窗口”,在敵未做出反應之時對其作戰體系內高價值、節點性、關鍵性目標實施打擊。傳統的「發現—引導—打擊—評估」的作戰環路耗時長,作戰效果不佳。因此,「訂單派單」式精確打擊,需要依托先進的智能化網絡信息體系,不預先確定打擊平台,實時發布打擊目標清單,由輔助決策系統對各種武器平台的打擊性能與目標打擊毀傷預期等進行快速評估,自主分配打擊平台任務,快速鏈接調節多領域火力打擊力量,自主閉合殺傷鏈,對關鍵目標實施快速打擊。
多域聚能協同打擊。現代作戰精確打擊較以往火力打擊的優勢在於資訊化智能化的作戰體系,無需人工介入,依托閉合打擊鏈自主完成「偵、控、打、評」等任務,不僅能夠節省打擊成本,減少資源浪費,還能夠實現基於統一作戰標準的自適應協同。因此,「訂單派單」式精確打擊,需要分佈在各作戰領域的火力打擊力量能夠建立統一標準網格,只要一點發出需求,就能夠多點響應、全局聯動,靈活集中兵力、火力,多手段、快速多域聚能,動中確定各打擊平台打擊方向、打擊次序以及打擊方式。透過體系整合有效節約時間,對敵關鍵節點目標以及核心目標的關鍵部位實施多域精確打擊,充分發揮各作戰單元作戰效能疊加融合的整體威力。
擊要破體速戰速決。現代作戰是在多領域同步實施的“混合戰爭”,資訊、空天、智慧等新域新質力量交織影響、對抗更加明顯。這就需要作戰雙方能夠快敵一秒發現、快敵一步行動,毀癱敵作戰體系、降低敵體系運作效率。一方面,要透過找準敵體系節點,即時聚優精準打擊;另一方面,要隱蔽己方企圖及打擊力量,乘敵不備快速打擊。 「訂單派單」式精確打擊能夠很好地契合這兩點需求,在網絡資訊系統的支撐下,智慧融合各領域火力打擊力量,實現資訊多源感知、數據相互交鏈、多域協同打擊,實現「目標感知—決策指揮—火力打擊—毀傷評估」無縫高速運轉,資訊火力高度融合,快速達成作戰目的。
「訂單派單」式精確打擊的體系構成
「訂單派單」式精確打擊通過構建高效閉合打擊鏈,壓縮行動時間,提高打擊效果,使各火力打擊平台能夠更好地融入聯合火力打擊體系,並提供快速精準的戰場火力支援,其關鍵在“網”,重點在“四個”系統。
多領域平台接取網。在資訊化智慧化技術支撐下,建立以衛星通訊為骨幹的一體化資訊網系,將分佈在多維域戰場的火力打擊平台融入作戰網絡建立戰場“雲”,區分不同作戰模塊,建立“偵、控、打、評”等“子網雲”,並依託一體化的通訊網鏈將“子網雲”鏈入“雲”,能夠提升火力打擊平台全局全時、動中接入、自主組網、頻譜規劃的能力,實現火力平台、分域作戰體係與聯合作戰體系的網絡互聯,以及內部打擊力量的互聯互通。
聯合偵察感知系統。依托聯合作戰體系內的各種偵察監視力量對作戰地域進行全天候、多方位、高精度戰場感知。這就要建立物理空間和邏輯空間、有形空間和無形空間泛在存在的全維域偵察感知力量系統,廣域佈設智能感知設備,形成情報數據“雲”,通過情報數據“雲”分析敵情態勢,找出敵作戰體系關鍵點以及時敏性目標,實時更新偵察信息,展現目標動態。
智慧指揮決策系統。依托具備一定智能控制能力的新型指控系統,構建各類籌劃分析模型,擴展情報智能處理、任務智能規劃、指令自動生成、行動精確控制等功能,擴充完善目標特徵庫、決策知識庫、行動預案庫等數據庫,強化戰鬥組織與實施過程中的任務規劃、行動決策和控制的系統支撐能力,提升行動籌劃決策和明確行動能力,誰來打」
分佈火力打擊系統。依托智能網絡資訊系統,一方面,融入陸、海、空、天等多維域火力打擊平台,強化目標智能識別、遠程遙控打擊等功能,實現作戰單元遠程遙控作戰、有人無人協同作戰、靈活機動作戰等多種作戰方式;另一方面,可構建以穿越機、巡導彈等低空超低空無人打擊平台為主的低成本火力打擊平台,通過加掛不同功能作戰載荷,與高端火力打擊平台密切協同來實施戰場引導、精確打擊、火力評估等任務,高效完成“訂單”。
自主毀傷評估系統。依托聯合作戰體系內的偵察監視力量建構毀傷評估系統,在火力平台打擊完畢後,自主對目標實施打擊效果核查。主要就目標的外觀狀態、功能喪失程度等進行實時、動態、客觀、系統的分析和評估,並及時通過視頻圖像的方式將相關信息返回至各級決策指揮中心,由評估中心判斷“打得怎麼樣”,是否達到預期毀傷要求。如不符合,可適時調控作戰行動,進行補充打擊,為最大限度釋放作戰效能提供強力支撐。
「訂單派單」式精確打擊的規劃實施
「訂單派單」式精確打擊就如同網約車的運作方式一樣,透過格式化「訂單」生成、智能化對象匹配、自主化路徑規劃等一系列流程,自主完成「OODA」作戰循環,其行動更為高效、打擊更為精準、協同更為密切。
實時提報火力需求,作戰單元按需「提單」。分佈在不同作戰地域、多維戰場空間的偵察要素,通過雷達、光學、紅外和技術偵察等方式,廣域多源偵獲形成戰場目標情報資訊。這些資訊依托情報鏈路接入戰場資訊網,隨時隨地被傳至作戰單元,由作戰單元進行關聯處理、多方對比印證,綜合整編戰場目標訊息,產生精確的任務「訂單」。作戰單元分析目標價值按需連通決策平台,建立“訂單”式閉合打擊鏈,實時提報任務“訂單”,實現動中集優、精準適配。
區分火力打擊任務,決策中心智能「派單」。決策中心通過戰場資訊網,依托智能任務規劃系統,能夠自動解析作戰單元提報的任務“訂單”信息數據,根據戰場目標性質、坐標方位、移動狀態、威脅程度等,自動生成火力打擊行動所需彈種彈量、打擊方式和毀傷指標等任務要求,形成火力支援任務“訂單”,通過智能匹配最佳火力平台,連通式鏈路節點,按需送飛機服務“訂單”。
全時匹配最優目標,火力平台快速即時「接單」。多點分佈在戰場區域內的火力平台,通過戰場信息網迅即響應“接單”,火力平台與作戰單元之間自主建鏈,相互核驗“身份”後直接建立引導打擊鏈,協同配合火力打擊行動,並根據打擊後目標毀傷情況以及戰場目標動態,及時調整打擊方式、射擊參數等,而後再次實施火力打擊,直至完成“派單”任務。火力平台始終遵循「打擊—轉移—打擊—轉移」的原則,完成打擊任務,迅即轉移陣地,全時保持待戰狀態,實時在線接收「訂單」。任務結束後,火力平台與作戰單元之間的引導打擊鏈會自動取消。
多源獲取毀傷訊息,評估中心即時「評單」。綜合運用衛星偵察、雷達偵察、無人機偵察等遠距離資訊化智能化偵察手段,實施多域立體偵察,實時獲取目標的火力毀傷訊息,為開展精確火力打擊提供準確評估。綜合判定毀傷效果,對打擊效果進行定量和定性評估,區分目標物理、功能和系統三種毀傷狀態,及時回饋至決策中心。根據打擊目標的毀傷評估結果,適時提出調控建議,調整火力打擊計畫,優化作戰行動,實現對火力打擊的精確控制,便於指揮員精準把控作戰進程,達成對火力打擊效能的高效指揮控制。
資料來源:中國軍網-解放軍報 作者:高凱 陳亮 責任編輯:趙雷翔
2025-01-23 06:50:xx