电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2014年
7期
1532-1537
,共6页
李育晖%欧阳缮%晋良念%廖桂生
李育暉%歐暘繕%晉良唸%廖桂生
리육휘%구양선%진량념%료계생
超宽带穿墙成像%双站雷达%椭圆包络线%目标边界成像
超寬帶穿牆成像%雙站雷達%橢圓包絡線%目標邊界成像
초관대천장성상%쌍참뢰체%타원포락선%목표변계성상
Ultra WideBand Through Wall (UWB-TW) imaging%Bistatic radar%Envelope of ellipses%Target shape imaging
为解决传统超宽带穿墙雷达后向投影(BP)成像算法不利于实时成像且成像模糊的问题,基于目标边界成像的成像算法成为近年来研究的热点。SEABED算法与Envelope算法是常用的目标边界成像算法,但此类算法存在抗噪性差或准确性不佳等不足。该文采用收发分置天线方式,提出一种基于椭圆包络线原理的成像算法。通过分析目标边界与天线坐标之间的几何结构,构造与目标边界相切的椭圆模型,推导了两者的映射关系,完成了穿墙成像的目标边界重建。理论分析和实验结果表明,该算法能提高成像的抗噪性与准确性,增强了穿墙成像的性能。
為解決傳統超寬帶穿牆雷達後嚮投影(BP)成像算法不利于實時成像且成像模糊的問題,基于目標邊界成像的成像算法成為近年來研究的熱點。SEABED算法與Envelope算法是常用的目標邊界成像算法,但此類算法存在抗譟性差或準確性不佳等不足。該文採用收髮分置天線方式,提齣一種基于橢圓包絡線原理的成像算法。通過分析目標邊界與天線坐標之間的幾何結構,構造與目標邊界相切的橢圓模型,推導瞭兩者的映射關繫,完成瞭穿牆成像的目標邊界重建。理論分析和實驗結果錶明,該算法能提高成像的抗譟性與準確性,增彊瞭穿牆成像的性能。
위해결전통초관대천장뢰체후향투영(BP)성상산법불리우실시성상차성상모호적문제,기우목표변계성상적성상산법성위근년래연구적열점。SEABED산법여Envelope산법시상용적목표변계성상산법,단차류산법존재항조성차혹준학성불가등불족。해문채용수발분치천선방식,제출일충기우타원포락선원리적성상산법。통과분석목표변계여천선좌표지간적궤하결구,구조여목표변계상절적타원모형,추도료량자적영사관계,완성료천장성상적목표변계중건。이론분석화실험결과표명,해산법능제고성상적항조성여준학성,증강료천장성상적성능。
The target shape imaging algorithms receive great attention in applications of Ultra WideBand Through Wall (UWB-TW) radar, because it overcomes the shortcomings of real-time imaging and image quality in traditional Back Projection (BP) imaging algorithms. The classical SEABED and Envelope algorithms are typical target shape imaging algorithms, which have still some defects such as poor anti-noise capability and imaging accuracy. This paper presents a target shape imaging algorithm with the envelope of ellipses for the bistatic UWB-TW radar. The ellipse model regarding a target boundary is established by analyzing the geometry relationship between the target boundary and the coordinates of antennas. With this model, the target boundary can be expressed as a boundary of a union and an intersection set of these ellipses to achieve the target shape imaging, which derives from their mapping relationship. The results of numerical simulations and experiments show that the proposed algorithm can improve the imaging accuracy and the capability of anti-noise, leading to the better performance of through-wall imaging.