利用信号处理技术重建雷达高度表的温度信号

2013 Third International Conference on Advances in Computing and Communications Pub Date : 2013-08-29 DOI:10.1109/ICACC.2013.38

Geomol George, Arun A. Balakrishnan, T. J. Apren

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引用次数: 0

摘要

调频连续波(FMCW)雷达原理已被用于高度计测量地球表面以上的高度。传统上，它被用于近距离应用，因为它的范围明确。增强的距离分辨率是FMCW雷达与其他类型雷达相比的一个重要因素。距离分辨率存在理论上的限制。本文研究了在样本不连续区域内拍信号的重构问题。此外，还讨论了用于FMCW雷达信号的FFT计算等信号处理方法以及这些方法可能的改进技术。该技术克服了雷达高度计拍频信号翻转区域的不连续性，提高了FFT测量的精度。不规则性是由于该区域接收信号的延迟造成的，为了克服这一问题，我们从翻转区域的两侧取相似的样本并重建原始信号。

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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Reconstruction of Beat Signal in Radar Altimeter Using Signal Processing

The frequency modulated continuous wave (FMCW) radar principle has been used in altimeter to measure altitude above the surface of the Earth. Traditionally it has been used in short range application due to its unambiguous range. The enhanced range resolution is a factor for FMCW radars compared with other types of radars. There are theoretical restrictions in the range resolution. This paper deals with reconstruction of beat signal in the discontinuous region of its samples. Furthermore, the signal processing methods like FFT calculations that are used for FMCW radar signals and the possible improvement techniques for these methods are discussed. This technique overcomes the discontinuities in the turnaround region of radar altimeter beat signal for improved FFT measurement. The irregularities are due to the delay of received signal in that region and to overcome this problem, we take the similar samples from both sides of the turnaround region and reconstruct the original signal.

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2013 Third International Conference on Advances in Computing and Communications

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