A security-embedded infrastructure for Tele-Traffic Speed Control
Journal of the Franklin Institute, 2009•Elsevier
In this paper we introduce a novel approach, relying on intelligent engineering, whereby the
maximum speed limit at which vehicles on the road can cruise is controlled from some
central or distributed facility. The system, as designed, leverages the use of the ubiquitous
cellular infrastructure to cut down the costs involved that would otherwise accrue as a result
of the need to build a dedicated traffic control system. In the new system maximum speed
limits are transmitted from a Central Control Facility (CCF) to all stretches of roads and …
maximum speed limit at which vehicles on the road can cruise is controlled from some
central or distributed facility. The system, as designed, leverages the use of the ubiquitous
cellular infrastructure to cut down the costs involved that would otherwise accrue as a result
of the need to build a dedicated traffic control system. In the new system maximum speed
limits are transmitted from a Central Control Facility (CCF) to all stretches of roads and …
In this paper we introduce a novel approach, relying on intelligent engineering, whereby the maximum speed limit at which vehicles on the road can cruise is controlled from some central or distributed facility. The system, as designed, leverages the use of the ubiquitous cellular infrastructure to cut down the costs involved that would otherwise accrue as a result of the need to build a dedicated traffic control system. In the new system maximum speed limits are transmitted from a Central Control Facility (CCF) to all stretches of roads and highways dispersed across urban areas in a highly dynamic manner. The system uses information arriving via a dynamic feedback system on prevailing weather conditions, road conditions, and bulk of traffic, amongst others, before it would broadcast maximum speed limit information to various destinations. When deployed in its final release, this will be done using a highly automated system with little human intervention. The work presented in this paper elaborates the TTC Network Design and RSU Network Distribution for the Tele-Traffic Speed Control System, to remotely manage, enforce, and control the maximum speed limit allowed on road stretches in rural and urban areas for different vehicle categories. The new system has been deployed successfully in a laboratory controlled environment on three vehicle categories; one category representing passenger vehicles, another buses and commuter transport, while the third representing trucks and freight traffic. It is expected that when the system is fully deployed on the wireless infrastructure, speed-related traffic accidents will witness a drop by more than 65–70% according to known accident statistics.
Elsevier
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