Efficient Power Control Scheme for Cognitive Industrial Sensor Networks
@article{Phuong2014EfficientPC,
title={Efficient Power Control Scheme for Cognitive Industrial Sensor Networks},
author={Tran Minh Phuong and Dong-Seong Kim},
journal={International Journal of Control and Automation},
year={2014},
volume={7},
pages={177-188}
}Traditional distributed power control algorithms in cognitive radio networks are based on the assumption of perfect channel estimation which can lead to performance degradation in practical system. Cognitive radio sensor network (CRSN) has emerged as a promising solution to address the spectrum-related challenges of wireless sensor networks (WSN). Moreover, cognitive radio (CR) gives us a possibility to maximize the utilization efficiency of limited spectrum resources. However, because the…
8 Citations
Markov Model-Based Energy Efficiency Spectrum Sensing in Cognitive Radio Sensor Networks
- Business, Computer ScienceJ. Comput. Networks Commun.
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This paper characterized the feasible cognitive interference region (FCIR) and proposed two power control algorithms to find the maximum number of admitted SUs and the maximum aggregate throughput of the SUs in infeasible and feasible CRNs, respectively, and shows how the assumption of fixed ITL values leads to poor performance measures in CRNs.
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Characterizing feasible interference region for underlay cognitive radio networks
- Computer Science2015 IEEE International Conference on Communications (ICC)
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The FCIR is a polyhedron and it is not proper to consider a constant and independent ITL value for each of the primary receiving-points, which would significantly affect the design of practical interference management schemes for CRNs.
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- Physics, Computer Science2014 International Conference on Advanced Technologies for Communications (ATC 2014)
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The problem of multiple cognitive acoustic users sharing available channels and optimal power allocation in underwater acoustic networks are studied and an efficient spectrum manage scheme is proposed to fulfill environment-friendly and spectrum-efficient communication for underwater cognitive acoustic networks (UCANs).
Efficient joint power and admission control in underlay cognitive networks using Benders' decomposition method
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- Computer Sciencetm - Technisches Messen
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Zusammenfassend ergibt sich ein Bild für den Systementwurf energieautarke Funksensorknoten für industrielle Einsatzszenarien, die anhand ausgewählter realisierter Beispiele aufgezeigt werden.
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