摘要雷达系统仿真是数字仿真技术与雷达技术结合的产物。与现场试验相比,雷达系统仿真具有经济性、灵活性、可重复性、可继承性等优点,因此成为现代雷达研发和生产的必要前提。测角即是测定目标的俯仰角和方位角,它是目标定向、精确制导的重要组成部分。和差单脉冲测角由于其快速性、精确性而获得了广泛应用。运用信号处理理论与MATLAB仿真软件相结合的思想进行测角仿真,不仅能够提供方便快捷的运算,还能获得很好的精确度。64987
本文首先论述了雷达系统的基本原理,对国内外近几年单脉冲雷达系统的实现方案进行简单综述,并且对几种常见的测角方法、单脉冲系统的实现形式进行了介绍。
毕业论文关键词:单脉冲雷达,回波信号,和差波束
毕业设计说明书(论文)外文摘要
Abstract The radar system simulation is the product of the combination of digital simulation technology and radar technology. Compared with the field test, the radar system simulation economy, flexibility, repeatability, inheritable, etc., and thus become a necessary prerequisite for development and production of modern radar.Angle measurement is the determination of the pitch angle and azimuth of the target, it is the goal orientation, an important part of the precision-guided. Widely used because of its rapidity, accuracy and poor single pulse goniometer. Angle measurement using the idea of combining the theory of signal processing and MATLAB simulation software simulation, not only to provide a convenient computing, but also to get good accuracy.
The paper first discusses the basic principles of the radar system. At home and abroad in recent years, single-pulse radar system implementations simple overview. And introduced several common angle measurement method, the form of the realization of the single-pulse system.
Keywords: single-pulse radar, echo signal, sum and difference beam
目 次
第一章 引言 1
1.1课题背景 1
1.2主要工作及章节安排 1
第二章 雷达信号环境的建模与仿真 3
2.1 雷达系统仿真 3
2.2线性调频信号 5
2.3相位编码信号 7
2.4回波信号 7
2.5杂波及干扰信号 8
第三章 脉冲压缩 11
3.1线性调频信号脉冲压缩 11
3.2相位编码信号脉冲压缩 12
第四章 雷达天线及接收机的建模与仿真 15
4.1天线方向图的数学模型 15
4.2天线和差波束方向图 17
第五章 单脉冲雷达系统仿真 20
5.1角度敏感器和角信息变换器 22
5.2角信息变换器 23
5.3角度鉴别器 24
5.4基本实现形式 24
5.5单脉冲系统的变化实现形式 26
5.6 解角误差 27
5.7 仿真系统功能及仿真