中国舰船研究
中國艦船研究
중국함선연구
CHINESE JOURNAL OF SHIP RESEARCH
2013年
1期
98-101
,共4页
王威%闵绍荣%谢红胜%罗威
王威%閔紹榮%謝紅勝%囉威
왕위%민소영%사홍성%라위
兰彻斯特方程%作战效能评估%方案优选
蘭徹斯特方程%作戰效能評估%方案優選
란철사특방정%작전효능평고%방안우선
Lanchester equations%evaluation of operational effectiveness%scheme optimization
作战效能是舰艇作战系统设计中需首要考虑的指标.兰彻斯特方程被广泛应用于陆/空战的作战效能评估,但由于海战的特殊性,其无法直接应用于舰艇作战系统作战效能的评估.为解决该不足,通过改进多元兰彻斯特方程的作战推演模型和作战单元模型,建立适于评估舰艇作战系统作战效能的改进型兰彻斯特方程.为了验证改进型兰彻斯特方程的有效性,针对一组典型的作战系统配置方案,分别采用多元兰彻斯特方程和改进型兰彻斯特方程进行计算.结果表明,改进型兰彻斯特方程对海战过程的推演更接近于真实的海战交战过程,可为基于作战效能的舰艇作战系统方案设计提供理论支持.
作戰效能是艦艇作戰繫統設計中需首要攷慮的指標.蘭徹斯特方程被廣汎應用于陸/空戰的作戰效能評估,但由于海戰的特殊性,其無法直接應用于艦艇作戰繫統作戰效能的評估.為解決該不足,通過改進多元蘭徹斯特方程的作戰推縯模型和作戰單元模型,建立適于評估艦艇作戰繫統作戰效能的改進型蘭徹斯特方程.為瞭驗證改進型蘭徹斯特方程的有效性,針對一組典型的作戰繫統配置方案,分彆採用多元蘭徹斯特方程和改進型蘭徹斯特方程進行計算.結果錶明,改進型蘭徹斯特方程對海戰過程的推縯更接近于真實的海戰交戰過程,可為基于作戰效能的艦艇作戰繫統方案設計提供理論支持.
작전효능시함정작전계통설계중수수요고필적지표.란철사특방정피엄범응용우륙/공전적작전효능평고,단유우해전적특수성,기무법직접응용우함정작전계통작전효능적평고.위해결해불족,통과개진다원란철사특방정적작전추연모형화작전단원모형,건립괄우평고함정작전계통작전효능적개진형란철사특방정.위료험증개진형란철사특방정적유효성,침대일조전형적작전계통배치방안,분별채용다원란철사특방정화개진형란철사특방정진행계산.결과표명,개진형란철사특방정대해전과정적추연경접근우진실적해전교전과정,가위기우작전효능적함정작전계통방안설계제공이론지지.
The operational effectiveness is a primary factor to be considered during the design process of shipboard combat systems. The Lanchester equations,which are widely used in evaluating the operational effectiveness of air-fights and land battles,can not be directly applied to naval battles. To address this is?sue,this paper modifies the combat simulation model and the combat unit model in Multi-Lanchester equations,and establishes a set of improved Lanchester equations,which can be employed to assess the operational effectiveness of shipboard combat systems. To validate the proposed method,a group of typical configuration schemes for shipboard combat systems are evaluated using both the Multi-Lanchester equa?tions and the improved Lanchester equations. The experiment results reveal that the improved Lanchester equations,compared with the conventional ones,can provide more realistic gaming of the naval engage?ment process,which can be viewed as theoretical references when designing the operational effectiveness based shipboard combat system.