Simulating Vehicle Movement and Multi-Hop Connectivity from Basic Safety Messages

The Basic Safety Message (BSM) is a standardized communication packet that is sent every tenth of a second between connected vehicles using Dedicated Short Range Communication (DSRC). BSMs contain data about the sending vehicle's state, such as speed, location, and the status of the turn signal...

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Veröffentlicht in:	arXiv.org 2018-05
Hauptverfasser:	Carter, Noah, Hoque, Mohammad A, Ahmed, Md Salman
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Sprache:	eng
Schlagworte:	Algorithms Applications programs Computer simulation Connectivity Federal agencies Partitioning Safety Simulation Temporal distribution Vehicles
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description	The Basic Safety Message (BSM) is a standardized communication packet that is sent every tenth of a second between connected vehicles using Dedicated Short Range Communication (DSRC). BSMs contain data about the sending vehicle's state, such as speed, location, and the status of the turn signal. Currently, many BSM datasets are available through the connected vehicle testbeds of U.S. Department of Transportation from all over the country. However, without a proper visualization tool, it is not possible to analyze or visually get an overview of the spatio-temporal distribution of the data. With this goal, a web application has been developed which can ingest a raw BSM dataset and display a time-based simulation of vehicle movement. The simulation also displays multi-hop vehicular network connectivity over DSRC. This paper gives details about the application, including an explanation of the multi-hop partitioning algorithm used to classify the vehicles into separate network partitions. A performance analysis for the simulation is included, in which it is suggested that calculating a connectivity matrix with the multi-hop partitioning algorithm is computationally expensive for large number of vehicles.
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subjects	Algorithms Applications programs Computer simulation Connectivity Federal agencies Partitioning Safety Simulation Temporal distribution Vehicles
title	Simulating Vehicle Movement and Multi-Hop Connectivity from Basic Safety Messages
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