Pedestrian Detection During Vehicle Backing Maneuvers Using Ultrasonic Parking Sensors.

Q2 Medicine Stapp car crash journal Pub Date : 2019-11-01 DOI:10.4271/2019-22-0015
Yasuhiro Matsui, Naruyuki Hosokawa, Shoko Oikawa
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引用次数: 4

Abstract

Ultrasonic parking sensors are an active technology designed to alert drivers to the presence of objects behind their vehicle but not the presence of a human. The purpose of this study was therefore to ascertain if these sensor systems can successfully detect a human subject. We accordingly conducted experiments using four vehicles equipped with both rear-facing center and corner ultrasonic parking sensor systems to determine the detection distance between the vehicle and a 1-m tall, 75-mm diameter pipe, a child, an adult woman, and an adult man. The detection of human subjects was evaluated under front-facing and side-facing conditions behind each vehicle. The results indicate that for a front-facing and side-facing child, the center sensor detection distances were 50-84% and 32-64%, respectively, shorter than that of the pipe. For front-facing and side-facing adults, the center sensor detection distances were just less than or roughly equivalent to that of the pipe at 89-102% and 78-97%, respectively. A similar trend was seen for the corner sensors. Notably, under the side-facing condition, the sensor detection distances were slightly shorter for all subjects than under the front-facing condition. These results reveal that ultrasonic parking sensor systems can not only detect objects but also humans, indicating that ultrasonic sensors are an available countermeasure to prevent backover accidents involving pedestrians. To address the shorter detection distance of children, a combination of ultrasonic parking sensors with other systems, such as backup cameras, may be more effective for avoiding backover collisions.

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利用超声波泊车传感器检测车辆倒车过程中的行人。
超声波泊车传感器是一种主动技术,旨在提醒司机车后有物体存在,但不是人的存在。因此,这项研究的目的是确定这些传感器系统是否可以成功地检测到人类受试者。因此,我们使用四辆同时配备了后向中心和角落超声波停车传感器系统的车辆进行了实验,以确定车辆与1米高,直径75毫米的管道,儿童,成年妇女和成年男子之间的检测距离。在每辆车后面的正面和侧面条件下评估人类受试者的检测。结果表明,对于正面和侧面儿童,中心传感器的检测距离分别比管道短50-84%和32-64%。对于正面和侧面的成虫,中心传感器的探测距离分别为89-102%和78-97%,略小于或大致相当于管道的探测距离。转角传感器也出现了类似的趋势。值得注意的是,在侧面条件下,所有受试者的传感器检测距离都略短于正面条件下。这些结果表明,超声波停车传感器系统不仅可以检测到物体,还可以检测到人,这表明超声波传感器是防止涉及行人的倒车事故的有效对策。为了解决儿童的检测距离较短的问题,超声波停车传感器与其他系统(如倒车摄像头)的组合可能会更有效地避免倒车碰撞。
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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来源期刊
Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
CiteScore
3.20
自引率
0.00%
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0
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