电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2014年
12期
3014-3020
,共7页
天波超视距雷达%二维阵%遗传算法%峰值副瓣电平%稀疏率
天波超視距雷達%二維陣%遺傳算法%峰值副瓣電平%稀疏率
천파초시거뢰체%이유진%유전산법%봉치부판전평%희소솔
Skywave Over-The-Horizon Radar (OTHR)%2-D arrays%Genetic Algorithm (GA)%Peak SideLobe Level (PSLL)%Sparsity ratio
针对均匀矩形平面阵在2维阵天波超视距雷达(OTHR)工程应用时阵元数目庞大问题,该文提出利用改进遗传算法进行稀疏优化设计的解决办法。从波束赋形角度出发建立了稀疏矩形平面阵的布阵优化模型;以俯仰波束能分辨OTHR多模传播的波达角(DOA)为原则确定了遗传算法的初始种群;为避免遗传进化中出现早熟和随机漫游现象修正了适应度函数;为实现稀疏率精确控制改进了交叉和变异算子。仿真结果表明,该文算法不仅实现了稀疏率的精确控制,同时提高了优化性能。该文最后对2维稀疏阵列在OTHR工程应用时的可行性进行了分析,指出其应用条件和存在的技术难点,并给出了相应的解决方案。
針對均勻矩形平麵陣在2維陣天波超視距雷達(OTHR)工程應用時陣元數目龐大問題,該文提齣利用改進遺傳算法進行稀疏優化設計的解決辦法。從波束賦形角度齣髮建立瞭稀疏矩形平麵陣的佈陣優化模型;以俯仰波束能分辨OTHR多模傳播的波達角(DOA)為原則確定瞭遺傳算法的初始種群;為避免遺傳進化中齣現早熟和隨機漫遊現象脩正瞭適應度函數;為實現稀疏率精確控製改進瞭交扠和變異算子。倣真結果錶明,該文算法不僅實現瞭稀疏率的精確控製,同時提高瞭優化性能。該文最後對2維稀疏陣列在OTHR工程應用時的可行性進行瞭分析,指齣其應用條件和存在的技術難點,併給齣瞭相應的解決方案。
침대균균구형평면진재2유진천파초시거뢰체(OTHR)공정응용시진원수목방대문제,해문제출이용개진유전산법진행희소우화설계적해결판법。종파속부형각도출발건립료희소구형평면진적포진우화모형;이부앙파속능분변OTHR다모전파적파체각(DOA)위원칙학정료유전산법적초시충군;위피면유전진화중출현조숙화수궤만유현상수정료괄응도함수;위실현희소솔정학공제개진료교차화변이산자。방진결과표명,해문산법불부실현료희소솔적정학공제,동시제고료우화성능。해문최후대2유희소진렬재OTHR공정응용시적가행성진행료분석,지출기응용조건화존재적기술난점,병급출료상응적해결방안。
In light of the fact that enormous elements exist when applying the uniform rectangular planar array to skywave Over-The-Horizon Radar (OTHR), the sparse optimization approach of the uniform 2-D arrays using an improved genetic algorithm is proposed as follows: an optimal model for the sparse rectangular planar array is established from the view of beam shaping; initial population of the genetic algorithm is identified by elevation beam on the bases of the Direction-Of-Arrival (DOA) of multi-mode propagation echoes; the fitness function is revised for the purpose of avoiding early maturing and random walk;and both crossover and mutation operators are improved in order to achieve precise control of the sparsity ratio. Simulation results indicate that the precise control of the sparsity ratio and the optimized performance are obtained by using the improved genetic algorithm. Finally, the paper analyses the feasibility of 2-D arrays application into the OTHR engineering, indicates the conditions for application and existing technical challenges, and then presents the solutions accordingly.