A cross-layer design for resource allocation and congestion control in multichannel multi-hop cognitive radio networks
Article No.: 65, Pages 1 - 5
Abstract
Efficient and fair resource allocation associated with congestion control in multi-hop cognitive radio networks (CRN) is a challenging problem. In this paper, we consider their mutual relationship through formulating a cross-layer optimization problem which addresses both the aggregate utility maximization and energy efficiency. By primal-dual method, the optimal solution is obtained via a distributed algorithm while keeping the outage probability on primary links below the allowable thresholds. The attraction of our proposed algorithm is that we utilize the broadcast property of wireless medium for message passing in power control and preserve the existing TCP stack for congestion control mechanism.
References
[1]
A. Goldsmith. Wireless Communications. Cambridge, U. K.: Cambridge Univ. Press, 2004.
[2]
M. Chiang. Balancing transport and physical layers in wireless multihop networks: jointly optimal congestion control and power control. IEEE J. Sel. Areas in Commun., 23(1):104--116, Jan. 2005.
[3]
D. Bertsekas. Nonelinear Programming. Athena Scientific, 2 edition, 2003.
[4]
D. P. Bertsekas. Convex Analysis and Optimization. Athena Scientific, 2003.
[5]
J. Huang, R. A. Berry, and M. L. Honig. Spectrum sharing with distributed interference compensation. In Proc. First IEEE Int. Symp. New Frontiers in Dynamic Spectrum Access Networks DySPAN 2005, pages 88--93, 2005.
[6]
S. Huang, X. Liu, and Z. Ding. Distributed power control for cognitive user access based on primary link control feedback. In Proc. IEEE INFOCOM 2010, pages 1--9, San Diego, CA, USA, 2010.
[7]
S. Kandukuri and S. Boyd. Optimal power control in interference-limited fading wireless channels with outage-probability specifications. IEEE Trans. Wireless Commun., 1(1):46--55, Jan. 2002.
[8]
I. Mitola, J. and J. Maguire, G. Q. Cognitive radio: making software radios more personal. IEEE Personal Communications, 6(4):13--18, 1999.
[9]
J. Papandriopoulos, S. Dey, and J. Evans. Optimal and distributed protocols for cross-layer design of physical and transport layers in manets. IEEE/ACM Trans. Netw., 16(6):1392--1405, Dec. 2008.
[10]
Y. Shi, T. Hou, H. Zhou, and F. Midkiff. Distributed cross-layer optimization for cognitive radio networks. IEEE Trans. Vehicular Tech., (99):1, 2010.
[11]
Y. Shi, Y. T. Hou, and H. Zhou. Per-node based optimal power control for multi-hop cognitive radio networks. IEEE Trans. Wireless Commun., 2009.
[12]
S. Wang, J. Zhang, and L. Tong. Delay analysis for cognitive radio networks with random access: A fluid queue view. In Proc. IEEE INFOCOM 2010, pages 1--9, San Diego, CA, USA, 2010.
Index Terms
- A cross-layer design for resource allocation and congestion control in multichannel multi-hop cognitive radio networks
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Published In
February 2011
959 pages
ISBN:9781450305716
DOI:10.1145/1968613
- General Chairs:
- Suk-Han Lee,
- Lajos Hanzo,
- Program Chairs:
- Min Young Chung,
- Sang-Won Lee,
- Kwangsu Cho
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Publication History
Published: 21 February 2011
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ICUIMC '11: The 5th International Conference on Ubiquitous Information Management and Communication
February 21 - 23, 2011
Seoul, Korea
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ICUIMC '11 Paper Acceptance Rate 135 of 534 submissions, 25%;
Overall Acceptance Rate 251 of 941 submissions, 27%
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