Modulating multicarriers with chirp for MIMO-SAR waveform diversity design

2013 IEEE International Conference on Signal Processing, Communication and Computing (ICSPCC 2013) Pub Date : 2013-11-14 DOI:10.1109/ICSPCC.2013.6664000

Kuoye Han, Yanping Wang, Xueming Peng, W. Hong

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引用次数: 4

Abstract

In multiple-input multiple-output synthetic aperture radar (MIMO-SAR), the orthogonal waveform diversity design plays a critical role. In this paper, we design multiple orthogonal waveforms by applying the multiple subcarrier technique in digital communications to commonly-used chirp radar waveform with large time-bandwidth product and constant modulus, so that the orthogonality of subcarriers within a common frequency band and good properties of chirp waveform are sufficiently exploited. The detailed modulation and demodulation methods are presented and the application potentials of the new waveform in MIMO-SAR are investigated. The proposed waveform diversity design method has the advantages of implementation simplicity and easy integration with the conventional SAR processor. Semi-physical simulation with an Agilent arbitrary waveform generator (AWG) and a high-speed oscilloscope (OSC) verifies the scheme. The performance is also evaluated by theoretical analysis and simulation results.

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用啁啾调制多载波用于MIMO-SAR波形分集设计

在多输入多输出合成孔径雷达(MIMO-SAR)中，正交波形分集设计起着至关重要的作用。本文将数字通信中的多子载波技术应用于具有大时频宽积和恒模的常用啁啾雷达波形，设计了多个正交波形，充分利用了同一频段内子载波的正交性和啁啾波形的良好特性。给出了具体的调制解调方法，并探讨了新波形在MIMO-SAR中的应用潜力。所提出的波形分集设计方法具有实现简单、易于与传统SAR处理器集成的优点。利用安捷伦任意波形发生器(AWG)和高速示波器(OSC)进行半物理仿真验证了该方案。并通过理论分析和仿真结果对其性能进行了评价。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE International Conference on Signal Processing, Communication and Computing (ICSPCC 2013)

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