Penerapan Sistem Tracking Berbasis GPS pada Alat Pendeteksi Alkohol Terintegrasi dengan Arduino untuk Pengemudi Mobil Penumpang Umum

Journal of System and Computer Engineering (JSCE) Pub Date : 2023-07-24 DOI:10.61628/jsce.v4i2.871

Abdurrahman K Jusuf, M. Agus

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Abstract

Regarding the problems faced by managers of the transportation business, namely cases of vehicle theft which still often occur, therefore an idea emerged on how owners can monitor their vehicles effectively, then accidents that usually occur due to reckless public transportation drivers due to influence of liquor. Based on the background described above, the authors aim to conduct research by creating a GPS tracking tool that is integrated with Arduino, which is able to monitor the location of the driver/vehicle and is able to reduce vehicle embezzlement, and the system to be designed is able to detect whether the driver of the vehicle is in a state of drink alcohol or not. Research has been carried out on 2 people, namely for the first person, the lowest sensor data reading was obtained, namely 22 ppm with a delay of 2 seconds for GPS readings for a distance of 3.5 km and the condition of the relay was off indicating that alcohol was not detected, and for the highest sensor data readings it was at 109 ppm with a delay of 3 seconds GPS reading for a distance of 4.2 km and the condition of the relay is on which indicates alcohol is detected. In the second person test, the lowest sensor data reading was obtained, namely 23 ppm with a 4 second GPS reading delay for a distance of 11 km and the condition of the relay was off indicating no alcohol was detected, and the highest sensor data reading was 121 ppm with a 2 second GPS reading delay for a distance 10 km and the condition of the relay is on which indicates alcohol is detected. GPS testing was carried out 10 times for each person where the longest distance tested on the first person was 42 km, and the shortest distance was 3.3 km. And for the test, the fastest delay in reading the driver's location is 2 seconds, and the longest is 5 seconds. In testing the second person, the longest distance was 12 km, and the shortest distance was 10 km. And in the test, the fastest delay in reading the driver's location point is 2 seconds, and the longest delay in reading the location point is 4 seconds.

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在与 Arduino 集成的公共客运汽车司机酒精检测工具上实现基于 GPS 的跟踪系统

针对运输业管理者面临的问题，即车辆失窃案件仍时有发生，因此产生了一个想法，即车主如何才能有效监控车辆，避免因公共交通司机酒后鲁莽驾驶而发生事故。基于上述背景，作者旨在通过创建一个与 Arduino 集成的 GPS 跟踪工具来开展研究，该工具能够监控驾驶员/车辆的位置，并能够减少车辆被盗的情况，所设计的系统能够检测车辆驾驶员是否处于饮酒状态。对两个人进行了研究，第一个人的传感器数据读数最低，为 22 ppm，GPS 读数延迟 2 秒，距离 3.5 千米，继电器处于关闭状态，表明未检测到酒精；传感器数据读数最高，为 109 ppm，GPS 读数延迟 3 秒，距离 4.2 千米，继电器处于打开状态，表明检测到酒精。在第二个人的测试中，传感器数据读数最低，为 23 ppm，GPS 读数延迟 4 秒，距离 11 千米，继电器处于关闭状态，表明没有检测到酒精；传感器数据读数最高，为 121 ppm，GPS 读数延迟 2 秒，距离 10 千米，继电器处于打开状态，表明检测到酒精。每个人进行了 10 次 GPS 测试，第一个人测试的最远距离为 42 公里，最短距离为 3.3 公里。在测试中，读取驾驶员位置的最快延迟为 2 秒，最长为 5 秒。在测试第二个人时，最长距离为 12 公里，最短距离为 10 公里。在测试中，读取司机位置点的最快延迟为 2 秒，读取位置点的最长延迟为 4 秒。

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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Journal of System and Computer Engineering (JSCE)

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