外輻射源雷達目標探測工程及應用
劉春恆等
- 出版商: 電子工業
- 出版日期: 2024-07-01
- 定價: $834
- 售價: 8.5 折 $709
- 語言: 簡體中文
- 頁數: 328
- ISBN: 7121484501
- ISBN-13: 9787121484506
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外輻射源雷達是一種採用第三方輻射源,在接收端同時接收直達波信號與目標回波信號,進而構建目標檢測的新體制雷達系統。本書系統地介紹了外輻射源雷達工程的相關處理方法及應用實例。全書共10 章,結合作者多年從事外輻射源雷達研究的理論成果和實際工程經驗,對外輻射源雷達技術進行了全面系統的闡述。從外輻射雷達的基礎理論和方法出發,介紹了外輻射雷達的發展歷史和現狀,系統總結了外輻射源雷達的組成部分,深入研究了外輻射雷達目標探測、相乾積累、檢測算法、目標定位跟蹤等信號處理技術,同時也梳理了外輻射源目標散射機理和電磁傳播環境建模等重要研究。
目錄大綱
第1 章 緒論····························································································.1
1.1 外輻射源雷達概述··········································································.1
1.1.1 外輻射源雷達與外輻射源雙站雷達·············································.1
1.1.2 外輻射源雙站雷達的特性·························································.2
1.1.3 外輻射源雙站雷達面臨的挑戰···················································.7
1.2 外輻射源雙站雷達的發展歷史···························································.9
1.3 本書內容安排··············································································.16
第2 章 外輻射源雷達技術········································································.17
2.1 外輻射源雷達方程········································································.17
2.1.1 噪聲條件下的外輻射源雷達方程··············································.17
2.1.2 雜波條件下的外輻射源雷達方程··············································.23
2.2 互模糊函數相參積累·····································································.29
2.2.1 互模糊函數的特性································································.29
2.2.2 互模糊函數的經典計算方法····················································.31
2.2.3 時域補償批處理法································································.36
2.3 主要外輻射源信號與模糊函數特徵···················································.48
2.3.1 DVB-S 信號········································································.48
2.3.2 GPS 信號············································································.51
2.3.3 FM 信號·············································································.53
2.3.4 DVB-T 信號········································································.54
2.3.5 DTMB 信號·········································································.56
2.3.6 5G 信號·············································································.59
2.3.7 不同外輻射源雷達信號探測的影響分析與性能比較······················.61
2.4 外輻射源雷達系統架構及信號處理流程·············································.64
2.4.1 外輻射源雷達系統架構··························································.64
2.4.2 外輻射源雷達信號處理流程····················································.67
第3 章 外輻射源目標電磁散射機理與電磁散射特性·······································.70
3.1 概述··························································································.70
3.2 外輻射源典型目標的散射源及電磁散射機理·······································.71
3.2.1 鏡面反射············································································.71
3.2.2 二面角反射·········································································.72
3.2.3 腔體散射············································································.74
3.2.4 邊緣繞射············································································.75
3.2.5 尖端繞射············································································.77
3.2.6 爬行波繞射·········································································.78
3.2.7 錶面不連續處的散射·····························································.80
3.3 目標電磁散射特性計算方法····························································.82
3.3.1 高頻近似方法······································································.82
3.3.2 全波計算方法······································································.87
3.4 多尺度電大尺寸目標電磁散射特性計算方法·······································.92
3.4.1 基於區域分解的矩量法(SMoM) ···········································.93
3.4.2 基於區域分解的自適應積分方法(SAIM) ································.96
3.4.3 基於並行計算的區域分解MLFMA ···········································.99
3.4.4 高低頻混合算法··································································.103
3.5 典型目標BCS 特徵分析································································.109
3.5.1 隱身飛機BCS 和RCS 對比····················································.109
3.5.2 波音737-400 民航客機BCS 特徵分析······································.110
第4 章 目標散射中心提取與目標電磁散射特徵反演·······································113
4.1 概述·························································································.113
4.2 散射中心模型·············································································.114
4.2.1 散射中心模型概述·······························································.114
4.2.2 點散射中心模型··································································.115
4.2.3 衰減指數散射中心模型·························································.117
4.2.4 基於GTD 的散射中心模型····················································.117
4.2.5 屬性散射中心模型·······························································.119
4.3 基於散射中心的目標雙站電磁散射幅相模型······································.120
4.3.1 目標雙站一維點散射中心電磁散射幅相模型······························.120
4.3.2 目標雙站二維點散射中心電磁散射幅相模型······························.125
4.3.3 目標雙站二維屬性散射中心電磁散射幅相模型···························.128
4.4 基於雙站散射中心的散射場反演·····················································.130
4.4.1 基於雙站散射中心的雙站散射場反演·······································.130
4.4.2 基於雙站散射中心的大角域散射場反演····································.133
4.4.3 目標雙站散射中心幅相模型反演與測試對比······························.135
第5 章 雜波抑制與相參積累處理·····························································.143
5.1 參考信號提純·············································································.143
5.1.1 基於能量特徵的參考信號提純方法··········································.143
5.1.2 參考信號參數重構方法·························································.146
5.2 雜波抑制算法·············································································.150
5.2.1 自適應時域濾波雜波抑制算法················································.150
5.2.2 基於特徵子空間分解的雜波抑制算法·······································.156
5.2.3 實驗驗證···········································································.161
5.3 跨距離單元目標回波相參積累方法··················································.165
5.3.1 基於Keystone 變換的跨多普勒單元走動補償方法·······················.165
5.3.2 基於Radon-Fourier 變換的跨距離單元走動補償方法····················.176
5.4 基於廣義似然比的目標檢測方法與粒子優化快速相關處理方法··············.182
5.4.1 基於廣義似然比的目標檢測方法·············································.183
5.4.2 粒子優化快速相關處理方法···················································.186
第6 章 微弱目標信號合成與增強方法·······················································.197
6.1 基於TBD 的目標回波增強方法·······················································.197
6.1.1 微弱目標檢測動態模型·························································.197
6.1.2 基於貝葉斯濾波的微弱目標信號增強方法·································.200
6.1.3 多普勒擴散高階補償方法······················································.206
6.2 基於最大後驗估計的目標檢測方法··················································.213
6.3 基於同源多頻合成的微弱目標信號合成方法······································.217
6.3.1 同源多頻信號模型·······························································.217
6.3.2 同源多頻信號相參合成方法···················································.219
6.4 基於稀疏表示與重構的多目標回波信號分離增強方法··························.222
6.4.1 互模糊函數的稀疏表示模型···················································.222
6.4.2 互模糊函數的稀疏重構·························································.224
第7 章 目標檢測、定位與跟蹤································································.233
7.1 CFAR 檢測算法···········································································.233
7.1.1 外輻射源雷達目標檢測理論···················································.233
7.1.2 一維CFAR 檢測算法····························································.235
7.1.3 二維CFAR 檢測算法····························································.236
7.2 外輻射源雷達目標定位算法···························································.238
7.2.1 DOA 估計模型與算法···························································.238
7.2.2 時差定位方法·····································································.252
7.2.3 測向交叉定位算法·······························································.255
7.3 外輻射源雷達目標跟蹤算法···························································.259
7.3.1 目標跟蹤···········································································.259
7.3.2 基於時差與角度信息的外輻射源雷達定位與跟蹤方法··················.260
7.3.3 模擬實驗與分析··································································.267
第8 章 電波傳播對外輻射源雷達探測性能的影響········································.277
8.1 星地鏈路電波傳播效應·································································.277
8.2 電波傳播環境建模·······································································.278
8.2.1 電離層環境建模··································································.278
8.2.2 對流層環境建模··································································.281
8.3 電波傳播效應計算·······································································.283
8.3.1 電波傳播衰減計算·······························································.283
8.3.2 大氣折射誤差修正·······························································.286
第9 章 基於衛星外輻射源的目標探測定位技術···········································.297
9.1 概述·························································································.297
9.1.1 天基衛星外輻射源探測技術的提出背景····································.297
9.1.2 衛星外輻射源選擇分析·························································.298
9.1.3 靜止軌道衛星外輻射源體制的優點··········································.299
9.1.4 靜止軌道衛星外輻射源體制的缺點··········································.300
9.2 典型電視轉發衛星外輻射源信號分析···············································.301
9.2.1 中國廣播電視衛星·······························································.301
9.2.2 周邊地區和國家廣播電視衛星················································.302
9.3 典型衛星外輻射源探測定位系統的組成及工作原理·····························.304
9.4 實驗與結果················································································.306
9.4.1 實驗設置···········································································.306
9.4.2 實驗結果···········································································.308
9.4.3 實驗結論···········································································.310
第10 章 總結與展望················································································311
10.1 本書內容總結···········································································.311
10.2 未來展望·················································································.311
10.2.1 非合作雷達輻射源的利用····················································.311
10.2.2 分佈式多站觀測································································.312
10.2.3 主、被動方式信息綜合·······················································.313
參考文獻······························································································.314