Automatic Braking System on Motorbikes Using the Concept of Kinematics Non-Uniform Slowing Down Motion For Safety of Motorcycle Riders on the Highway

2019 International Conference on ICT for Smart Society (ICISS) Pub Date : 2019-11-01 DOI:10.1109/ICISS48059.2019.8969788

Anang Suryana, Heppi Familiana

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引用次数: 3

Abstract

Motorized accidents on many motorways are caused by sudden braking. Sudden braking occurs because of the distance between the driver and the obstacles in front that are too short, and the driving speed is too high, there is a delay in braking and a surge of force. Supposedly, vehicle motion when braking occurs must comply with the physics principle of following the kinematics concept of non-uniform motion slowing down between the driver with obstacles in front, and the concept of non-uniform circular motion slowing down on the wheels of a motorized vehicle. For this reason, an automatic braking instrumentation system is created using the principle of non-uniform motion slowing down and nonuniform circular motion slowing down, with distance and speed variables obtained from the proximity sensor and the speed sensor mounted on a motorized vehicle. The study began by conducting the first is characterization of the braking system of a motorcycle engine as a whole. Next, conducting a literature study from information obtained in the field. Next, conducting an appropriate braking control system study. Next, braking control system manufacturing and modeling mathematical as well as applications on motorbike vehicles. Next, tests are carried out in open fields and on the road starting from the engine starting the engine and moving forward until it stops again after braking. The braking control system development approach that is being carried out is the application of digital technology by balancing the needs of motorcyclists. This is done so that there is no gap between the needs of motorcyclists and the technology applied. In general, the technology applied includes the main parts, the controller unit as microcontroller, distance measuring unit use ultrasonic sensor, and speed sensor use hall effect sensor, servo as mechanical drive automatic brakes, and battery as power source. The units were developed according to the real conditions, and from the results of measurements of the effect of distance to deceleration by 93 percent.

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基于非均匀减速运动概念的摩托车自动制动系统在高速公路上的应用

许多高速公路上的机动车事故都是由突然刹车引起的。突然刹车的发生是因为驾驶员与前方障碍物的距离太短，且行驶速度过高，出现了制动的延迟和力的激增。理论上，发生制动时车辆的运动必须遵循驾驶员与前方障碍物之间的非均匀运动减速的运动学概念和机动车车轮上的非均匀圆周运动减速的概念的物理原理。为此，利用非匀速运动减速和非匀速圆周运动减速原理，利用安装在机动车上的接近传感器和速度传感器获得的距离和速度变量，构建了一套自动制动仪表系统。本研究首先对摩托车发动机的制动系统进行了整体表征。其次，根据在该领域获得的信息进行文献研究。接下来，进行适当的制动控制系统的研究。其次是制动控制系统的制造和数学建模以及在摩托车车辆上的应用。接下来，在开阔的田野和道路上进行测试，从发动机启动发动机开始，向前移动，直到制动后再次停止。正在进行的制动控制系统开发方法是通过平衡摩托车手的需求来应用数字技术。这样做是为了使摩托车手的需求与所应用的技术之间没有差距。总的来说，所应用的技术包括主要部分，控制器单元采用单片机，距离测量单元采用超声波传感器，速度传感器采用霍尔效应传感器，伺服作为机械驱动自动制动，电池作为电源。这些装置是根据实际情况研制的，并根据距离对减速的影响测量了93%。

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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2019 International Conference on ICT for Smart Society (ICISS)

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