基于超声波的汽车周边环境盲区感知系统研究OA
安全智能驾驶是提升生活质量的重要目标.传统车辆在驾驶过程中常存在视觉盲区,尤其当驾驶员集中注意力于前方道路时,视野受限可能导致换道时的安全隐患.因此,研究聚焦于探讨超声波系统在高速行驶情况下如何有效检测这些盲区.开发一套系统,通过LED显示和声音警报实时向驾驶员反馈障碍物信息,从而帮助驾驶员全面了解周围环境,预防刮碰事故的发生.研究成功构建一个基于超声波传感器的盲区检测系统,用于增强车辆周边环境的感知能力.这一系统集成展示超声波技术在提升驾驶安全性方面的潜力.
Ensuring safe and intelligent driving is a crucial goal for enhancing quality of life.Traditional vehicles often have visual blind spots during driving,especially when the driver is focused on the road ahead.This limited field of view can lead to safety hazards while changing lanes.Thus,this study focuses on exploring how ultrasonic systems can effectively detect these blind spots at high speeds.And this study has developed a system that provides real-time feedback to the driver about obstacles through LED displays and audio alerts.This helps drivers gain a comprehensive understanding of their surroundings and prevent collisions.This study has successfully constructed a blind spot detection system based on ultrasonic sensors to enhance perception of the vehicle's surrounding environment.This integrated system demonstrates the potential of ultrasonic technology in improving driving safety.
钟春发
同致电子科技(厦门)有限公司,福建 厦门 360001
化学化工
超声波汽车盲区感知TOF算法发波时序相对车速
ultrasoundvehicle blind area sensingTOF algorithmwave timingrelative vehicle speed
《科技创新与应用》 2026 (3)
5-8,12,5
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