简化人体模型及毫米波区域行人仿真

Q3 Mathematics

Mathematics in Engineering, Science and Aerospace Pub Date : 2016-02-01 DOI:10.1063/1.4940293

Junghwan Han, Seok Kim, Tae-Yun Lee, M. Ka

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引用次数: 1

摘要

24 GHz和77 GHz雷达传感器已被研究为先进驾驶辅助系统(ADAS)的有力候选者，因为它们具有全天候能力和精确的距离和径向速度测量方案。然而，开发一个可靠的行人识别系统有许多障碍，由于不准确和不平凡的雷达响应在这些高频和许多衣服和配件的组合。为了克服这些障碍，许多研究人员使用电磁(EM)模拟来表征人的雷达散射响应。然而，人体模拟需要很长时间，因为人体在毫米波区域的电尺寸巨大。为了减少模拟时间，一些研究人员假设人体皮肤是完美的电导体(PEC)，并使用物理光学(PO)算法模拟了PEC人体模型，但没有具体解释人体如何用PEC建模。在这项研究中，假设……

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Simplified human model and pedestrian simulation in the millimeter-wave region

The 24 GHz and 77 GHz radar sensors have been studied as a strong candidate for advanced driver assistance systems(ADAS) because of their all-weather capability and accurate range and radial velocity measuring scheme. However, developing a reliable pedestrian recognition system hasmany obstacles due to the inaccurate and non-trivial radar responses at these high frequencies and the many combinations of clothes and accessories. To overcome these obstacles, many researchers used electromagnetic (EM) simulation to characterize the radar scattering response of a human. However, human simulation takes so long time because of the electrically huge size of a human in the millimeter-wave region. To reduce simulation time, some researchers assumed the skin of a human is the perfect electric conductor (PEC) and have simulated the PEC human model using physical optics (PO) algorithm without a specific explanation about how the human body could be modeled with PEC. In this study, the validity of the assumption that t...

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来源期刊

Mathematics in Engineering, Science and Aerospace Mathematics-Applied Mathematics

CiteScore

1.70

自引率

0.00%

发文量