TIME TRAVEL ESTIMATIONS USING MAC ADDRESSES OF BUS PASSENGERS: A POINT TO PATH-QGIS ANALYSIS

Q4 Social Sciences Geoplanning Journal of Geomatics and Planning Pub Date : 2018-10-25 DOI:10.14710/GEOPLANNING.5.2.259-268

A. Hidayat, S. Terabe, H. Yaginuma

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引用次数: 4

Abstract

Currently, the development of WiFi is proliferating, especially in the field of transportation and smart cities. At the same time, WiFi is a low-cost technology, which offers a longer survey time and is able to support the Big Data era. This paper describes our study, which first uses a WiFi scanner to capture media access control (MAC) address data of bus passengers’ WiFi devices and then identifies each MAC address travel time to confirm the bus passengers. The MAC address is a unique ID for each device used such as mobile phones, smartphones, laptops, tablets, and other WiFi-enabled equipment. The WiFi scanner was placed inside the bus to capture all the MAC addresses inside and around the bus. The survey was conducted for one day (eight hours). The paper describes the procedure of the time travel estimation for each MAC address using the “point to path” analysis in QGIS open source software. This procedure, using point to path-GIS, produced 70,000-80,000 raw data points cleaned into 100-130 new data points. The procedure determined how many passengers traveled and explained which bus passengers used based on travel time.

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基于公交乘客MAC地址的时间旅行估计：点到路径的QGIS分析

目前，WiFi的发展如火如荼，尤其是在交通和智慧城市领域。同时，WiFi是一种低成本的技术，它提供了更长的调查时间，能够支持大数据时代。本文描述了我们的研究，首先使用WiFi扫描仪捕获巴士乘客WiFi设备的媒体访问控制(MAC)地址数据，然后识别每个MAC地址的旅行时间，以确认巴士乘客。MAC地址是所使用的每个设备(如手机、智能手机、笔记本电脑、平板电脑和其他支持wifi的设备)的唯一ID。WiFi扫描器被放置在巴士内部，以捕获巴士内部和周围的所有MAC地址。调查时间为1天(8小时)。本文介绍了在QGIS开源软件中利用“点到路径”分析方法对每个MAC地址进行时间行程估计的过程。该程序使用点对路径gis，生成了70,000-80,000个原始数据点，并将其清理为100-130个新数据点。该程序确定了多少乘客出行，并根据旅行时间解释了哪些乘客使用了公交车。

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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