雷达科学与技术
雷達科學與技術
뢰체과학여기술
RADAR SCIENCE AND TECHNOLOGY
2014年
2期
171-175
,共5页
方位超分辨%稀疏解%多普勒频率%迭代算法
方位超分辨%稀疏解%多普勒頻率%迭代算法
방위초분변%희소해%다보륵빈솔%질대산법
azimuth super-resolution%sparse solution%Doppler frequency%iteration algorithm
受限于阵列波束宽度的瑞利限,常规单脉冲测角方法无法分辨处于一个波束宽度内的多个目标,为此,提出一种基于时空稀疏解的方位超分辨算法,对距离、多普勒维无法分辨的同一波束宽度内的多个目标进行角度测量。该方法首先构造基于类 p 范数稀疏度和2范数约束的代价函数,通过迭代过程最小化代价函数求得时空二维稀疏解,最后由时空二维稀疏解估计目标的多普勒频率和方位角。与传统的方位超分辨算法相比,该方法利用了多普勒信息,改善了方位超分辨性能,具有较高的分辨率和极低的旁瓣电平,同时该方法无需多维空间谱搜索过程。计算机仿真结果验证了该算法的有效性。
受限于陣列波束寬度的瑞利限,常規單脈遲測角方法無法分辨處于一箇波束寬度內的多箇目標,為此,提齣一種基于時空稀疏解的方位超分辨算法,對距離、多普勒維無法分辨的同一波束寬度內的多箇目標進行角度測量。該方法首先構造基于類 p 範數稀疏度和2範數約束的代價函數,通過迭代過程最小化代價函數求得時空二維稀疏解,最後由時空二維稀疏解估計目標的多普勒頻率和方位角。與傳統的方位超分辨算法相比,該方法利用瞭多普勒信息,改善瞭方位超分辨性能,具有較高的分辨率和極低的徬瓣電平,同時該方法無需多維空間譜搜索過程。計算機倣真結果驗證瞭該算法的有效性。
수한우진렬파속관도적서리한,상규단맥충측각방법무법분변처우일개파속관도내적다개목표,위차,제출일충기우시공희소해적방위초분변산법,대거리、다보륵유무법분변적동일파속관도내적다개목표진행각도측량。해방법수선구조기우류 p 범수희소도화2범수약속적대개함수,통과질대과정최소화대개함수구득시공이유희소해,최후유시공이유희소해고계목표적다보륵빈솔화방위각。여전통적방위초분변산법상비,해방법이용료다보륵신식,개선료방위초분변성능,구유교고적분변솔화겁저적방판전평,동시해방법무수다유공간보수색과정。계산궤방진결과험증료해산법적유효성。
Traditional angle estimation methods,such as mono-pulse,cant resolve multiple targets within a beam due to Rayleigh Bound.An azimuth super-resolution method based on temporal-spatial sparse solution is proposed to resolve and estimate the azimuth angles of multiple targets which cant be resolved by range and Doppler frequency.The algorithm starts with the cost function based on a p-norm-like(l(p≤1))di-versity measure with a 2-norm constraint.The sparse solution is then iteratively obtained by minimizing the cost function.Finally,the Doppler frequencies and azimuth angles of targets can be estimated using the tem-poral-spatial sparse solution.By using the Doppler information,the proposed method achieves higher resolu-tion compared to the traditional high-resolution methods but without multi-dimensional spectral search.Sim-ulations results are presented to verify the effectiveness of the method.
