Dynamic Management of Real-Time Location Data on GPS-Enabled Mobile Phones

2008 The Second International Conference on Mobile Ubiquitous Computing, Systems, Services and Technologies Pub Date : 2008-09-29 DOI:10.1109/UBICOMM.2008.83

S. Barbeau, M. Labrador, A. Pérez, P. Winters, N. Georggi, D. Aguilar, R. Pérez

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引用次数: 49

Abstract

Advanced location based services have the ability to track users with Global Positioning System (GPS)-enabled cell phones in real-time. These applications share a common problem; the continuous calculation and transmission of GPS fixes from the mobile phone to a server consumes a considerable amount of energy and increases data transmission costs. Therefore, an application-level algorithm is necessary to reduce the number of GPS fixes calculated and transmitted, while continuing to track the user in real-time and record an accurate representation of his or her travel path. In this paper, two complementary algorithms are presented: the critical point (CP) algorithm, which filters data points to be transmitted to the server, and the location-aware state machine, which dynamically manages the frequency of the location re-calculation update rate. Both algorithms were implemented in TRAC-IT, a Java Micro Edition (Java ME) application designed to automatically collect user travel behavior; the proposed algorithms allow TRAC-IT to build an accurate representation of the user's path with a considerably reduced number of fixes while significantly extending mobile device battery life.

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启用gps的移动电话上实时位置数据的动态管理

基于高级位置的服务能够实时跟踪具有全球定位系统(GPS)功能的手机用户。这些应用程序都有一个共同的问题;从移动电话连续计算GPS定位并将其传输到服务器会消耗相当多的能量，并增加数据传输成本。因此，需要一种应用级算法来减少计算和传输的GPS定位的数量，同时继续实时跟踪用户并记录其旅行路径的准确表示。本文提出了两种互补算法:临界点算法(critical point algorithm, CP)和位置感知状态机算法(location-aware state machine)，前者用于过滤要传输到服务器的数据点，后者用于动态管理位置重新计算更新率的频率。这两种算法都在trace - it中实现，trace - it是一个Java Micro Edition (Java ME)应用程序，旨在自动收集用户的旅行行为;所提出的算法允许track - it构建用户路径的精确表示，同时大大减少了修复数量，同时显着延长了移动设备的电池寿命。

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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2008 The Second International Conference on Mobile Ubiquitous Computing, Systems, Services and Technologies

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