基于小孔径超视距目标探测的OFDM-LFM发射波形设计

OFDM-LFM Waveform Design of Over-the-Horizon Target Detection Based on Small Aperture Array

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摘要针对传统天波超视距雷达接收阵列孔径大的问题,提出一种基于小孔径的超视距目标探测方法。分析了阵列孔径减小后信号接收与处理的性能损失,在此基础上采用正交频分复用线性调频信号,从发射信号设计方面提升系统性能。首先对信号进行建模,重点提出一种基于凸优化的脉压信号峰值旁瓣抑制算法,建立了优化模型并进行求解。仿真表明,采用正交频分复用线性调频信号可以提升距离分辨率,采用凸优化的算法后脉压峰值旁瓣为-26.28dB,旁瓣电平平均值小于-50dB,距离门内和距离门外噪声/干扰的抑制能力得到提升,改善了小孔径超视距目标探测的处理性能。 The method of over-the-horizon detection based on the small aperture array is used to overcome the quite large aperture of the traditional OTHR. Since the performance of signal processing is depressed by using the small aperture array,this paper presents an orthogonal frequency division multiplexing linear frequency modulation（OFDM-LFM ） waveform design method. With the aid of the signal model, the range resolution of the coherence-synthetic is analyzed. In order to suppress range side-lobe, the convex optimization is proposed. The simulation shows that OFDM-LFM signal can improve the performance of the range resolution. The peak side-lobe level is --26.28 dB and the average of pulse compression is less than --50 dB. According to the result, the capability of noise and interference cancelation are increased, and the target detection performance is improved too.

作者贺青罗来源姚山峰

机构地区盲信号处理重点实验室

出处《空军工程大学学报（自然科学版）》 CSCD 北大核心 2015年第5期56-60,共5页 Journal of Air Force Engineering University(Natural Science Edition)

基金国家自然科学基金资助项目(61172140)

关键词小孔径圆阵正交频分复用线性调频信号峰值旁瓣抑制凸优化 small aperture circular array OFDM-LFM peak side-lobe suppression convex optimization

分类号 TN911.4 [电子电信—通信与信息系统]

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基于小孔径超视距目标探测的OFDM-LFM发射波形设计

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