Performances of Micropower UWB Radar Using Orthogonal Waveforms

L. Sakkila, A. Rivenq, C. Tatkeu, Y. Elhillali, J. Ghys
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引用次数: 7

Abstract

Radars and their applications were, for a long time, reserved to national defense, air security or weather service domains. For a few years, with the emergence of new technologies, radar applications have been developed and have become known in the civil domain. In particular, the arrival of UWB—Ultra-Wideband technology allows the design of compact and low-cost radars with multiple fields of application. In this paper, we focus on road applications, such as driving assistance with the objective of increasing safety and reducing accidents. In classical UWB radar systems, Gaussian and monocycle pulses are commonly used. In previous works, original waveforms based on orthogonal functions (Hermite and Gegenbauer) were proposed. These provide a good spatial resolution, suitable for radar detection. Another advantage of these waveforms is their multiple access capability, due to their orthogonality. The aim of the study presented in this article is to compare simulation and experimental results obtained, especially for short-range anticollision radar application, using these waveforms in one part and Gaussian and monocycle pulses in the other part. The originality of this paper relies on the new approach. Indeed, this comparison study using these waveforms has never been done before. Finally, some examples of real experiments in a real road environment with different waveforms are presented and analysed.
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基于正交波形的微功率超宽带雷达性能研究
长期以来,雷达及其应用仅限于国防、空中安全或气象服务领域。几年来,随着新技术的出现,雷达的应用得到了发展,并在民用领域广为人知。特别是,uwb -超宽带技术的到来使得设计具有多个应用领域的紧凑型低成本雷达成为可能。在本文中,我们将重点放在道路应用上,例如驾驶辅助,目的是提高安全性和减少事故。在经典的超宽带雷达系统中,通常使用高斯脉冲和单周期脉冲。在以前的工作中,提出了基于正交函数(Hermite和Gegenbauer)的原始波形。这些提供了良好的空间分辨率,适合雷达探测。这些波形的另一个优点是由于它们的正交性而具有多址能力。本文的研究目的是比较仿真结果和实验结果,特别是在近距离防撞雷达应用中,使用这些波形作为一部分,高斯脉冲和单环脉冲作为另一部分。这篇论文的独创性在于新方法。事实上,这种使用这些波形的比较研究以前从未做过。最后,给出了在真实道路环境中采用不同波形的实验实例,并对其进行了分析。
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