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Channel sharing scheme for packet-switched cellular networks
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Wireless Networks archiveVolume 11 , Issue 6 (November 2005) table of contents
Pages: 661 - 676
Year of Publication: 2005
ISSN:1022-0038
Authors
Suresh Kalyanasundaram
Motorola India Electronics Limited, Bagmane Tech Park, C. V. Raman Nagar Post, Bangalore, India
Junyi Li
Flarion Technologies, Bedminster One, Bedminster, NJ
Edwin K. P. Chong
Department of Electrical and Computer Engineering, Colorado State University, Fort Collins, CO
Ness B. Shroff
School of Electrical and Computer Engineering, Purdue University, West Lafayette, IN
Publisher
Kluwer Academic Publishers Hingham, MA, USA
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10.1007/s11276-005-3521-x
ABSTRACT
In this paper, we study an approach for sharing channels to improve network utilization in packet-switched cellular networks. Our scheme exploits unused resources in neighboring cells without the need for global coordination. We formulate a minimax approach to Optimizing the allocation of channels in this sharing scheme. We develop a measurement-based distributed algorithm to achieve this objective and study its convergence. We illustrate, via simulation results, that the distributed channel sharing scheme performs significantly better than the fixed channel scheme over a wide variety of traffic conditions.
REFERENCES
Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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[1] C.-J. Chang, P.-C. Huang and T.-T. Su, Channel borrowing scheme in a cellular radio system with guard channels and finite queues, in: IEEE International Communications Conference vol. 2, Dallas, TX (1996) pp. 1168-1172.

2
[2] V.F. Dem'yanov and V.N. Malozemov, Introduction to Minimax (John Wiley and Sons, 1974).

3
[3] D.J. Goodman and S.X. Wei, Efficiency of packet reservation multiple access, IEEE Transactions on Vehicular Technology 40(1) (1991) 170-176.

4
[4] H. Jiang and S. Rappaport, CBWL: A new channel assignment and sharing method for cellular communication systems, IEEE Transactions on Vehicular Technology 43(2) (1994) 313-322.

5
[5] H. Jiang and S. Rappaport, A channel borrowing scheme for TDMA cellular communications systems, in: IEEE Vehicular Technology Conference 1, Chicago, IL (1995) pp. 97-101.

6
Hua Jiang , Stephen S. Rappaport, Prioritized channel borrowing without locking: a channel sharing strategy for cellular communications, IEEE/ACM Transactions on Networking (TON), v.4 n.2, p.163-172, April 1996 [doi>10.1109/90.490744]

7
[7] S. Kalyanasundaram, J. Li, E.K.P. Chong and N.B. Shroff, Channel sharing scheme for packet-switched cellular networks, in: IEEE INFOCOM'99 New York (March 1999) pp. 609-616.

8
[8] I. Katzela and M. Naghshineh, Channel assignment schemes for cellular mobile telecommunication systems: A comprehensive survey, IEEE Personal Communications Magazine (June 1996) pp. 10-31.

9
A Channel Sharing Scheme to Improve System Capacity in Wireless Cellular Networks, Proceedings of the Third IEEE Symposium on Computers & Communications, p.700, June 30-July 02, 1998

10
[10] J. Li, N.B. Shroff and E.K.P. Chong, A study of a channel sharing scheme in wireless cellular networks including handoffs, in: IEEE INFOCOM '99 New York (March 1999) pp. 1179-1186.

11
Junyi Li , Ness B. Shroff , Edwin K. P. Chong, A new localized channel sharing scheme for cellular networks, Wireless Networks, v.5 n.6, p.503-517, 1999 [doi>10.1023/A:1019196321628 ]

12
[12] S.Tekinay and B. Jabbari, Handover and channel assignment in mobile cellular networks, IEEE Communications Magazine 29(11) (1991) 42-46.

13
Chengzhong Xu , Chenzhong Xu , Francis C. Lau, Load Balancing in Parallel Computers: Theory and Practice, Kluwer Academic Publishers, Norwell, MA, 1997

14
[14] K.L. Yeung and T.-S.P. Yum, Cell group decoupling analysis of a dynamic channel assignment strategy in microcellular radio systems, IEEE Transactions on Communications 43(2-4) (1995) 1289-1292.

15
[15] M. Zhang and T.-S. Yum, Comparisons of channel assignment strategies in cellular mobile telephone systems, IEEE Transactions on Vehicular Technology 38(4) (1989) 211-215.
INDEX TERMS
Primary Classification: C. Computer Systems Organization C.2 COMPUTER-COMMUNICATION NETWORKS C.2.5 Local and Wide-Area Networks Subjects: Access schemes
Additional Classification: C. Computer Systems Organization C.2 COMPUTER-COMMUNICATION NETWORKS C.2.1 Network Architecture and Design Subjects: Packet-switching networks; Wireless communication C.2.3 Network Operations Subjects: Network management E. Data E.4 CODING AND INFORMATION THEORY Subjects: Formal models of communication F. Theory of Computation F.2 ANALYSIS OF ALGORITHMS AND PROBLEM COMPLEXITY F.2.2 Nonnumerical Algorithms and Problems Subjects: Sequencing and scheduling
General Terms: Algorithms, Design, Management
Keywords: cellular networks, channel sharing, convergence, distributed algorithm, minimax problem, packet switching
Collaborative Colleagues:
Suresh Kalyanasundaram: colleagues
Junyi Li: colleagues
Edwin K. P. Chong: colleagues
Ness B. Shroff: colleagues