描述
包 装: 平塑是否套装: 否国际标准书号ISBN: 9787121481130
内容简介
本书系统阐述了电子对抗的基本原理和技术,共五章,第一章是电子对抗概述,介绍电子对抗的 概念、特点、分类、应用领域、作用、发展史及发展趋势;第二章是雷达对抗原理,在综述雷达对抗 的基础上,主要介绍雷达侦察测频、测向、无源定位、信号参数测量和信号处理,以及情报侦察、遮 盖性干扰、欺骗性干扰、无源干扰和新体制雷达对抗等技术;第三章是光电对抗原理,在综述光电对 抗的基础上,重点介绍光电主动侦察、光电被动侦察、光电有源干扰和光电无源干扰;第四章是通信 对抗原理,在综述通信对抗的基础上,重点介绍通信侦察、通信干扰及扩频通信对抗等技术;第五章 是电子对抗新概念和新技术,重点阐述综合射频、认知电子战、定向能武器和电磁脉冲武器等技术和 手段。
目 录
第一章 电子对抗概述·················································································.1
第一节 电子对抗的概念和特点·······························································.1
第二节 电子对抗的分类········································································.3
第三节 电子对抗的应用领域和作用·························································.5
一、电子对抗的应用领域··································································.5
二、电子对抗的作用········································································.6
第四节 电子对抗的发展史及发展趋势······················································.8
一、电子对抗的起源········································································.8
二、电子对抗的形成········································································.8
三、电子对抗的发展········································································.8
四、电子对抗的未来········································································11
本章小结···························································································.14
复习与思考题·····················································································.14
第二章 雷达对抗原理···············································································.15
第一节 雷达对抗概述·········································································.15
一、雷达对抗的基本过程································································.15
二、雷达对抗的作战对象································································.16
三、雷达对抗的技术体系································································.17
四、雷达侦察概述·········································································.18
五、雷达干扰概述·········································································.33
六、雷达对抗的发展史及发展趋势····················································.51
第二节 雷达侦察测频技术···································································.55
一、现代雷达侦察测频体制·····························································.56
二、外差式接收机·········································································.59
三、信道化接收机·········································································.63
四、瞬时测频接收机······································································.64
五、数字测频接收机······································································.70
第三节 雷达侦察测向技术···································································.71
一、现代雷达侦察测向体制·····························································.72
二、搜索法测向············································································.75
三、比幅法测向············································································.78
四、比相法测向············································································.81
五、数字接收机测向······································································.84
第四节 雷达侦察无源定位技术·····························································.86
一、单站定位法············································································.87
二、多站定位法············································································.89
三、无源被动定位的主要指标··························································.93
四、无源被动定位的发展趋势··························································.94
第五节 雷达侦察信号参数测量和信号处理技术········································.94
一、信号测量和处理的要求·····························································.95
二、脉冲描述字参数测量································································.98
三、信号处理任务、流程及信号分选、识别·······································.100
第六节 雷达情报侦察技术··································································.104
一、雷达辐射源识别·····································································.105
二、雷达信号脉内特征分析····························································.107
三、雷达信号个体特征分析····························································.109
第七节 遮盖性干扰技术·····································································.118
一、干扰原理和分类·····································································.118
二、最佳干扰波形···························································
第一节 电子对抗的概念和特点·······························································.1
第二节 电子对抗的分类········································································.3
第三节 电子对抗的应用领域和作用·························································.5
一、电子对抗的应用领域··································································.5
二、电子对抗的作用········································································.6
第四节 电子对抗的发展史及发展趋势······················································.8
一、电子对抗的起源········································································.8
二、电子对抗的形成········································································.8
三、电子对抗的发展········································································.8
四、电子对抗的未来········································································11
本章小结···························································································.14
复习与思考题·····················································································.14
第二章 雷达对抗原理···············································································.15
第一节 雷达对抗概述·········································································.15
一、雷达对抗的基本过程································································.15
二、雷达对抗的作战对象································································.16
三、雷达对抗的技术体系································································.17
四、雷达侦察概述·········································································.18
五、雷达干扰概述·········································································.33
六、雷达对抗的发展史及发展趋势····················································.51
第二节 雷达侦察测频技术···································································.55
一、现代雷达侦察测频体制·····························································.56
二、外差式接收机·········································································.59
三、信道化接收机·········································································.63
四、瞬时测频接收机······································································.64
五、数字测频接收机······································································.70
第三节 雷达侦察测向技术···································································.71
一、现代雷达侦察测向体制·····························································.72
二、搜索法测向············································································.75
三、比幅法测向············································································.78
四、比相法测向············································································.81
五、数字接收机测向······································································.84
第四节 雷达侦察无源定位技术·····························································.86
一、单站定位法············································································.87
二、多站定位法············································································.89
三、无源被动定位的主要指标··························································.93
四、无源被动定位的发展趋势··························································.94
第五节 雷达侦察信号参数测量和信号处理技术········································.94
一、信号测量和处理的要求·····························································.95
二、脉冲描述字参数测量································································.98
三、信号处理任务、流程及信号分选、识别·······································.100
第六节 雷达情报侦察技术··································································.104
一、雷达辐射源识别·····································································.105
二、雷达信号脉内特征分析····························································.107
三、雷达信号个体特征分析····························································.109
第七节 遮盖性干扰技术·····································································.118
一、干扰原理和分类·····································································.118
二、最佳干扰波形···························································
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