A Comprehensive Multi-Mode Traffic Information Service Platform for Pedestrian and Bicycle Traffic

Zi Hui Qu; Chen Qi; Hua Qiang Zhang

doi:10.4028/www.scientific.net/AMM.241-244.2095

Paper Titles

Traffic Overflow Modeling and Numerical Simulation
p.2072

The Analysis of Characterization of Urban Traffic Congestion Based on Mixed Speed Distribution of Taxi GPS Data
p.2076

Two Dimensional Cellular Automaton Model of the Mixed Traffic Flow for Urban Traffic
p.2082

Research on the Real-Time Prediction Model of the Traffic Flow Based on Wavelet Neural Network
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A Comprehensive Multi-Mode Traffic Information Service Platform for Pedestrian and Bicycle Traffic
p.2095

Reserch on Traffic Congestion Detection Using Realtime Video
p.2100

Design and Implementation of Vehicle Self-Navigation System in Urban Intelligent Traffic
p.2107

Vehicle Body and Wheel Motion Simulation Platform Based on LabVIEW
p.2113

To the Question of Parametrical Dynamic Three-Dimension Model Design of the Automated Power Generating Complex Mixer
p.2120

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 241-244A Comprehensive Multi-Mode Traffic Information...

A Comprehensive Multi-Mode Traffic Information Service Platform for Pedestrian and Bicycle Traffic

Abstract:

Slow traffic accounts for a great part of urban transportation, and is drawn more and more attention. However, the service system for this kind of traffic is rather inadequate, which seriously hampers the construction of smart city and digital urban. In this paper, beginning with the characteristics of slow travel persons, we design a multi-mode traffic information service platform for pedestrians and bicycle system specially. In our platform, non-interactive facilities for slow traffic are designed and deployed oriented pedestrians and cyclists. To provide customized information meeting pedestrians’ various demands and allow users’ feedback, the interactive service platform based intelligent mobile terminals and mobile internet is introduced instead of current electronic inquire equipments settled in public.

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Periodical:

Applied Mechanics and Materials (Volumes 241-244)

Pages:

2095-2099

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.241-244.2095

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Online since:

December 2012

Authors:

Zi Hui Qu, Chen Qi, Hua Qiang Zhang

Keywords:

Multi-Mode Service, Pedestrian and Bicycling Oriented, Slow Traffic

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