杭州电子科技大学 硕士学位论文 基于高分辨一维距离像的雷达目标识别 姓名：谢芳平 申请学位级别：硕士 专业：电路与系统 指导教师：官伯然 20091201 杭州电子科技大学硕士学位论文 I 摘 要 摘 要 雷达目标识别（RTI-radar target identification）是现代雷达的一个十分重要的发展方向， 高分辨雷达技术的日趋成熟使雷达目标识别走向实用成为可能。本文应用现代模式识别技术 和现代信号处理技术的方法研究了高分辨雷达一维距离像的目标识别问题，由于高分辨雷达 一维距离像能够提供更加精细的目标结构和形状信息，因此，对基于一维距离像的目标识别 研究具有较大的理论意义和现实意义。本文主要内容如下： 首先综述了雷达目标识别的基本概念和距离像识别的基本方法，对雷达目标识别技术现 状进行分析。介绍了雷达目标散射截面（RCS-radar cross section）的概念以及宽带目标 RCS 特性及预估的方法。综述了目标多散射中心的概念及其距离像模型，对典型飞机的电磁散射 现象做了深入分析。重点研究了高分辨率一维距离像的原理及仿真方法，从目标散射中心模 型的数学描述入手，对单个距离像回波特性及对距离像交叉项进行了分析。研究了一维距离 像识别的关键问题方位敏感性、平移敏感性、幅度敏感性及其预处理方法。 在研究了线性调频、步进频率、二相编码无载波超宽带雷达成像算法基础上，分析了多 目标和多散射中心分布一维距离像的回波特性。本文针对线性调频宽带数字脉冲压缩收发信 号，分析了高分辨率雷达 stretch 处理的一维距离像目标识别问题。推导了多目标的宽带线 性调频信号 stretch 处理的雷达回波数学模型，分析了依据一维距离像对多目标进行识别方 法。讨论了目标运动所产生的距离多普勒耦合导致距离像平移和展宽特性，并对目标速度 的影响进行了补偿。 接下来，简单介绍了步进频率信号的数学模型，给出了一维距离像的外形包络表达式。 针对多散射中心高距离分辨率步进频率雷达目标，分析了当目标存在相对运动时的一维距离 像数学模型，按照这一模型，通过计算机对实际系统的模拟仿真，深入研究了多普勒效应对 目标一维距离像的影响，最后，获得了给定高距离分辨率步进频率毫米波雷达中，用一维距 离像匹配识别目标的速度不补偿条件。并对两种体制的雷达做了对比，分析了目标运动的多 普勒效应对线性调频和步进频率一维距离像的影响，对运动目标的速度估计与补偿方法进行 了分析，并用算法对速度估计与补偿方法进行了验证。 在研究了高分辨雷达一维成像方法的基础上，介绍了基于模式匹配识别的雷达目标结构 信息的特征提取方法,同时介绍了两种常用的线性数据降维方法： 主成份分析法和规范相关分 析法用于对一维距离像的特征进行降维。 最后，总结了本文的研究工作，指出了需要进一步解决的问题。 关键词：雷达目标识别，高分辨一维距离像，线性调频，步进频率 杭州电子科技大学硕士学位论文 II ABSTRACT ABSTRACT Radar target identification（RTI）is an important developing field of modern radar technology. Modern radar technology become mature day by day makes it possible to develop a practical RTI system. In this paper, the problem of recognition of radar target using High Resolution Range Profiles(HRRP) is mainly studied by the means of techniques in modern signal process and in modern pattern recognition. Because High Resolution Range Profile can provide more accurate target structure and shape information，research on RTI based on one-dimensional range profile is significance for both theory and practice. In this thesis, its content and originality are synthesized as follows: First, the basic concepts of radar target recognition and the basic method of recognition of range profiles are surveied. The status quo of radar target identification is analyzed. The paper introduce the concept of radar target cross section and broadband target RCS characteristics, RCS pre-estimating method. The concept of multi-target scattering center and Range profile model are bewrited. The characteristics of typical aircraft electromagnetic scattering that vary with aspect are analyzed deeply. In particular , the principle and simulation method of High Hesolution Range Profiles is studied. After the mathematical model of the Range Profile features which is based on the multi-scattering Center, analysis have been made on echo characteristics of a single range profile and cross-range profile. Research has also been made on key techniques of recognition of one-dimensional range profile in which aspect sensitivity,translation sensitivity and amplitude sensitivity should deal with pretreatment. Studying of linear frequency modulation, step frequency, no-load binary phase coded ultra-wideband radar imaging algorithm based on . Analysis of the echo characteristics of multi-objective and multi-scattering centers are distributed one-dimensional range profile. Under the wide-band digital pulse compression of linear frequency modulation (LFM) signal both for receiving and transmitting, the target recognition problem forming the one-dimension range profile in high-resolution radar stretch processing range is analyzed. The radar-echo model for multi-target of wideband linear frequency modulated signal Stretch processing is derived, and the multi-target identification according to one-dimension range profile is analyzed. The received pulse width expanding and center frequency shifting due to range-doppler coupling of moving target are discussed, and a radial velocity compensation method is proposed. Secondly, this paper firstly introduces the mathematical model of stepped frequency and one dimensional range imaging technique. The mathematical model of one dimensional range imaging 杭州电子科技大学硕士学位论文 III for high range resolution radar target when there is relative motion between the radar and the target is given. Using this mathematical model, the influence of target relative motion on one dimensional range imaging is investigated by computer simulation.Finally, the value of the compensation error of this relative motion between the radar and the target is derived. when one dimensional range imaging technique is used for target identification. By comparison with two kinds of radar systems, the received pulse width expanding and center frequency shifting due to range-doppler coupling, the impact of the doppler effect on the stepped frequency and linear frequency from one-dimensional range profile of moving target are discussed,in which analyze of velocity estimation and compensation methods . Computer simulation shows that the method of speed estimation and compensation