设计和实施酒精检测驾驶系统

O. O. Alabi, O. Adeaga, S. Ajagbe, Esther Oluwayemisi Adekunle, M. Adigun
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引用次数: 0

摘要

一种名为 "酒精检测驾驶系统 "的技术可通过识别驾驶者呼气或血液中的酒精含量来阻止酒后驾车。这项技术利用传感器和算法正确测量驾驶员体内的酒精含量,如果酒精含量超过法定限度,它就会阻止汽车启动。有了这项技术,因饮酒导致的致命事故和交通事故死亡人数将大大减少。该项目的主要重点是开展降低道路上与酒精有关的事故数量的实验。目前,酒精检测装置的形式多种多样,包括点火互锁系统、被动式酒精传感器和车载呼气式酒精检测仪。虽然这些系统减少了酒后驾车事故的数量,但人们对其效率、可靠性和成本仍存有疑问。根据传感器的规格,MQ-3 传感器的输出电压在基线电阻为 69% 的 30 秒恢复期内会降低 69%。要评估这些系统在降低酒精相关事故和加强交通安全方面的长期可行性和效率,还需要进行更多的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and implementation of an alcohol detection driver system
A technology called an alcohol detection driver system is used to stop drunk driving by identifying alcohol in a motorist's breath or blood. This technology correctly measures the amount of alcohol a driver has in their system using sensors and algorithms, and it stops the car from starting if the amount is more than the legal limit. The number of fatal accidents and traffic fatalities caused by drinking could be greatly decreased thanks to this technology. The main focus of this project is to carry out the experiment in lowering the number of alcohol-related incidents on the road. Alcohol detection devices come in a variety of forms right now, including ignition interlocks, passive alcohol sensors, and in-car breathalyzers. Although these systems have reduced the number of drunk driving accidents, there remain questions about their efficiency, dependability, and cost. According to the sensor's specs, the output voltage of the MQ-3 sensor reduces by 69% during the sensor's recovery period of 30 seconds at 69% of baseline resistance. To assess the long-term viability and efficiency of these systems in lowering alcohol-related accidents and enhancing traffic safety, more research is required.
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