Cognitive Radio based Resource Management for Smart Transportation: A Sliding Mode Control Approach

Smart transportation is one of the key components of the smart city. A significant amount of data is produced by the numerous vehicles connected via wireless networks. This demands smart spectrum management for efficient data communication. The optimal bandwidth usage can be obtained by opportunisti...

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Veröffentlicht in:	IEEE internet of things journal 2023-11, Vol.10 (21), p.1-1
Hauptverfasser:	Majumder, Tirtha, Mishra, Rajiv Kumar, Singh, Sudhansu Sekhar, Sahu, Prasanna Kumar, Vohnout, Rudolf
Format:	Artikel
Sprache:	eng
Schlagworte:	Bandwidth Bandwidths Cognitive radio Cognitive Radio based Smart Transportation Network (CR-STN) Constraint modelling Controllers Data communication Event-triggered sliding mode control Exponential reaching law Fluid Flow Model Internet of Things Mathematical models Radio spectrum management Resource allocation Resource management Robust control Sliding mode control Smart transportation Transportation networks Wireless networks
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creator	Majumder, Tirtha Mishra, Rajiv Kumar Singh, Sudhansu Sekhar Sahu, Prasanna Kumar Vohnout, Rudolf
description	Smart transportation is one of the key components of the smart city. A significant amount of data is produced by the numerous vehicles connected via wireless networks. This demands smart spectrum management for efficient data communication. The optimal bandwidth usage can be obtained by opportunistically sharing the spectrum among high-priority class primary and low-priority class secondary users' vehicles. In this study, we develop a mathematical model to ensure effective resource allocation in Cognitive Radio based Smart Transportation Networks (CR-STN) considering the mobility, bandwidth constraint and interference models. Robust sliding mode control is synthesized using an exponential reaching law to avoid data packet congestion in CR-STN to ensure smart spectrum management. In addition, a dynamic event-triggered mechanism is incorporated with the sliding mode controller to reduce computational complexity and energy expenses. The effectiveness of the suggested controller has been validated by simulation results.
doi_str_mv	10.1109/JIOT.2023.3279103
format	Article
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subjects	Bandwidth Bandwidths Cognitive radio Cognitive Radio based Smart Transportation Network (CR-STN) Constraint modelling Controllers Data communication Event-triggered sliding mode control Exponential reaching law Fluid Flow Model Internet of Things Mathematical models Radio spectrum management Resource allocation Resource management Robust control Sliding mode control Smart transportation Transportation networks Wireless networks
title	Cognitive Radio based Resource Management for Smart Transportation: A Sliding Mode Control Approach
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