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    Study On the Integral Technology of Airborne Weapon Fire Control System
    航空武器火控系统总体技术研究
    Skeletons of Test Airplane Development of Integrated Avionic and Weapon Fire Control System
    综合航空电子/武器火控系统试验机发展综述
    Development Trend Analysis on Suppression Weapon Fire Control System
    压制兵器火控系统发展趋势分析
    The Evaluation of Surface Ship's Anti-aircraft Weapon Fire Efficacy
    水面舰艇防空武器射击效能评定
    OPTIMAL ASSIGNMENT OF FIRE POWER WHEN HEAVY WEAPONS FIRE AT LARGE AREA TARGET
    压制武器对大面积目标射击的最佳火力分配
    Electronic Countermeasure and Weapon Fire Control & Command Control Systems
    电子对抗与兵器火控指控系统
    Influence of Feed Belt Parameters on Catling Type Weapon Fire Rate
    弹链的某些参数对转管武器射速的影响
    Application and Research of Single Chip Microcomputer in Weapon Fire-Control-System Simulator
    单片机在武器火控系统模拟器中的应用研究
    Propellant initial temperature, as one of rocket weapons' fire parameters directly influencing fire precision, has drawn more and more researchers' attention, and in order to meet the requirement of developing propellant temperature measuring unit, we must study propellant transient heat transfer and temperature field characteristics.
    推进剂初始温度作为火箭武器射击诸元,由于直接影响射击精度,越来越受到研究人员的重视,为满足研制推进剂温度测试装置的要求,首先要对推进剂的瞬态热传导及温度场特性进行研究。
    The design and simulation of non-guided weapon integrated fire/flight control system are studied, being specially the non-guided weapon fire control model in the state of air-ground, the "fire/flight" coupler , digital simulation of the system in Mat lab 5. 3.Features about the controlled object, helicopter, are first introduced briefly and a group of six free-degree, linear motion equation in combination with micro disturbance and couple are established.
    本文主要研究了非制导武器综合火力/飞行控制(IFFC)系统的设计及仿真,重点对非制导武器空地模态下的火控模型、“火/飞”藕合器的设计和Matlab5.3环境下系统的数字仿真进行了探讨。
    The problem of the optimal assignment of fire powel when heavy weapons fire at small area target has been resolved by A.
    压制武器对小面积目标射击的最佳火力分配问题,已由A.
    Artificial intelligent technique is one the most effective ways used tosolve the problems of airborne weapon fire command and control. In this paper the con-struction and concept of intelligent airborne weapon fire command and control system(I-AWFCCS)are technically overviewed according to the results of research in recent yearsand critical techniques in IAWFCCS design are discussed
    人工智能技术是解决机载武器火力指挥控制问题的最有效途径之一,根据近年来的研究结果,对智能机载武器火力指挥控制的系统构成、工作原理进行了技术概述,并简要地讨论了智能机载武器火力指挥控制系统设计中的关键技术.
    The paper analyzes the fourth generation fighter's weapon fire control system for the system configuration, new fire control technology and fight effectiveness.
    分析了国外第四代战斗机武器火控系统在系统构型、火控新技术、火控新设备和作战效能四个方面的新特点及关键技术。
    In the end, it simulates the big close loop weapon fire control system including the airplane, the flight control system, the LGB and fire control system.
    进行了包括飞机、飞控系统、武器和火控系统在内的大闭环武器火控系统仿真。
    This paper discusses the fire control problem on long-range air-to-air weapon, attacking target and fight problems on long-range air-to-air weapon, and some outstanding issues on long-range air-to-air weapon fire control.
    探讨远距空空武器火力控制问题 ; 远距空空武器打击目标及作战中的问题和远距空空武器火力控制的一些待解决的课题。
 

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