ADAS USING TOUCH SENSOR

International Journal of Advanced Research in Computer Science Pub Date : 2023-06-20 DOI:10.26483/ijarcs.v14i3.7009

Mohit B M,

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引用次数: 0

Abstract

EPS systems integrate Advanced Driver Assistance Systems (ADAS) while the driver controls the steering wheel. Touch sensors, torque, and position sensors improve driver involvement, safety, and control in EPS. ADAS features like lane-keeping assistance and adaptive cruise control are activated by the driver’s steering wheel touch. EPS with driver-enabled ADAS integration, using touch sensors, empowers drivers while leveraging enhanced automation. The vehicle model design incorporates touch sensors, Arduino, and motor drivers to enable Advanced Driver Assistance Systems (ADAS) exclusively when the driver holds the steering wheel. The touch sensors detect the driver’s touch on the steering wheel, triggering the ADAS functionalities and allowing the vehicle to move. The Arduino microcontroller, equipped with embedded C code, processes the touch sensor inputs and communicates with the motor drivers to initiate vehicle propulsion. The embedded C code facilitates real-time monitoring and control of the touch sensor inputs, enabling a seamless integration between driver interaction and vehicle movement, thereby enhancing both safety and user experience

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Adas采用触摸传感器

EPS系统集成了高级驾驶辅助系统(ADAS)，而驾驶员控制方向盘。触摸传感器，扭矩和位置传感器提高驾驶员参与，安全性和控制EPS。ADAS功能，如车道保持辅助和自适应巡航控制是激活驾驶员的方向盘触摸。EPS与驾驶员支持的ADAS集成，使用触摸传感器，在增强自动化的同时赋予驾驶员权力。车辆模型设计集成了触摸传感器、Arduino和电机驱动程序，以便在驾驶员握住方向盘时仅启用高级驾驶员辅助系统(ADAS)。触摸传感器检测驾驶员在方向盘上的触摸，触发ADAS功能并允许车辆移动。Arduino微控制器配备嵌入式C代码，处理触摸传感器的输入，并与电机驱动器通信，启动车辆推进。嵌入式C代码有助于实时监控和控制触摸传感器输入，实现驾驶员交互和车辆运动之间的无缝集成，从而提高安全性和用户体验

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

International Journal of Advanced Research in Computer Science

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