Peaceful Coexistence of IEEE 802.11 and IEEE802.16 Standards in 5GHz Unlicensed Bands
Cognitive radio devices have been considered as a key technology for next-generation of wireless communication. These devices in the context of IEEE 802.11 standards and IEEE 802.16 standards, can opportunistically utilize the wireless spectrum to achieve better user performance and improve the overall spectrumutilization efficiency, mainly in the unlicensed 5 GHz bands. However, opportunistic use of wireless spectrum creates news problems such as peaceful coexistence with other wireless technologies, such as the radiolocation systems, as well as understanding the influence of interference that each of these networks can create. In this paper, we suggest a dynamic access model that considerably reduces this interference and allows efficiency and fairness use of the wireless spectrum.
[1] Shared Spectrum Compagny, "Spectrum occupancy measurement." site
internet, http://www.sharedspectrum.com/measurements/.
[2] M. O¨ ner and F. K. Jondral, "On the extraction of the channel allocation
information in spectrum pooling systems," IEEE Journal on Selected
Areas in Communications, vol. 25, no. 3, pp. 558-565, 2007.
[3] J. Mitola, "The software radio architecture" IEEE Communications, Vol.
33, N┬░5, 1995, pp. 26-38.
[4] D. Cˇ abric' and R. W. Brodersen, "Physical layer design issues unique
to cognitive radio systems," in Proceedings of the 16th IEEE
International Symposium on Personal, Indoor and Mobile Radio
Communications (PIMRC -05), pp. 759-763, Berlin, Germany,
September 2005.
[5] Y. Xing, R. Chandramouli, S.Mangold, and S. S. N, "Dynamic spectrum
access in open spectrum wireless networks," IEEE Journal on Selected
Areas in Communications, vol. 24, no. 3, pp. 626-637, 2006.
[6] Natasha Devroye, Mai Vu, and Vahid Tarokh "Achievable Rates and
Scaling Laws for Cognitive Radio Channels". EURASIP Journal on
Wireless Communications and Networking, Volume 2008.
[7] H. Gintis, Game Theory Evolving: A Problem-Centered Introduction to
Modeling Strategic Behavior. Princeton University Press, 2000.
[8] X. Jing and D. Raychaudhuri, "Spectrum co-existence of IEEE 802.11b
and 802.16a networks using CSCC etiquette protocol" in Proceedings of
the 1st IEEE Symposium on New Frontiers in Dynamic SpectrumAccess
Networks (DySPAN -05), pp. 243-250, Baltimore, Md, USA, November
2005.
[9] Dipankar Raychaudhuri and Xiangpeng Jing. "A spectrum etiquette
protocol for efficient coordination of radio devices in unlicensed bands".
14th IEEE PIMRC2003, September 2003.
[10] G. Bianchi, "Performance analysis of the IEEE 802.11 distributed
coordination function" IEEE Journal on Selected Areas in
Communications, vol. 18, no. 3, pp. 535-547, 2000.
[11] Industrie Canada, "Gestion du spectrum et telecommunication." Site
internet, http://www.ic.gc.ca/eic/site/smt-gst.nsf/fra/.
[12] T. A. Weiss and F. K. Jondral, "Spectrum pooling: an innovative
strategy for the enhancement of spectrum efficiency," IEEE
Communications Magazine, vol. 42, no. 3, pp. S8-S14, 2004.
[13] S. Gilbert, "Introduction to linear Algebra, "Wellesley-Cambridge
Press". 1998.
[14] S. Mangold and K. Challapali, "Coexistence of wireless networks in
unlicensed frequency bands". Wireless World Research Forum #9
Zurich Switzerland, July 2003.
[15] Steven De Jonc, Karl Tuyls and Katja Verbeeck "Artificial agents
learning human fairness". Proceedings of the 7th international joint
conference on Autonomous agents and multiagent systems, Volume 2
Pages: 863-870, 2008, ISBN: 978-0-9817381-1-6.
[16] Yiping Xing and R. Chandramouli Stefan Mangold and Sai Shankar N
"Analysis and Performance Evaluation of a Fair Channel Access
Protocol for Open Spectrum Wireless Networks". IEEE International
Conference, volume 2, pp. 1179-1183, May 2005 ISBN: 0-7803-8938-7.
[17] Durga P. Satapathy and Jon M. Peha "Spectrum Sharing Without
Licenses: Opportunities and Dangers" Proceedings of The
Telecommunications Policy Research Conference (TPRC), Section 3, pp.
15-29, 1996.
[18] C.T. Chou, Hyoil, K., Sai Shankar, N., and Shin, K. G., "Spectrum
agility radio for broadband applications" EETimes In Focus Article,
Aug. 23.
[19] C.T. Chou, Hyoil, K., Sai Shankar, N., and Shin, K. G., "Spectrum
agility radio : radio resource measurements for opportunistic spectrum
usage". IEEE Globecom 2004, Dallas TX, USA, Nov. 2004.
[20] C.T. Chou, Hyoil, K., Sai Shankar, N., and Shin, K. G., "What and how
much to gain from Spectrum Agility" Submitted to IEEE/ACM Trans.
On Networking, June 2004.
[1] Shared Spectrum Compagny, "Spectrum occupancy measurement." site
internet, http://www.sharedspectrum.com/measurements/.
[2] M. O¨ ner and F. K. Jondral, "On the extraction of the channel allocation
information in spectrum pooling systems," IEEE Journal on Selected
Areas in Communications, vol. 25, no. 3, pp. 558-565, 2007.
[3] J. Mitola, "The software radio architecture" IEEE Communications, Vol.
33, N┬░5, 1995, pp. 26-38.
[4] D. Cˇ abric' and R. W. Brodersen, "Physical layer design issues unique
to cognitive radio systems," in Proceedings of the 16th IEEE
International Symposium on Personal, Indoor and Mobile Radio
Communications (PIMRC -05), pp. 759-763, Berlin, Germany,
September 2005.
[5] Y. Xing, R. Chandramouli, S.Mangold, and S. S. N, "Dynamic spectrum
access in open spectrum wireless networks," IEEE Journal on Selected
Areas in Communications, vol. 24, no. 3, pp. 626-637, 2006.
[6] Natasha Devroye, Mai Vu, and Vahid Tarokh "Achievable Rates and
Scaling Laws for Cognitive Radio Channels". EURASIP Journal on
Wireless Communications and Networking, Volume 2008.
[7] H. Gintis, Game Theory Evolving: A Problem-Centered Introduction to
Modeling Strategic Behavior. Princeton University Press, 2000.
[8] X. Jing and D. Raychaudhuri, "Spectrum co-existence of IEEE 802.11b
and 802.16a networks using CSCC etiquette protocol" in Proceedings of
the 1st IEEE Symposium on New Frontiers in Dynamic SpectrumAccess
Networks (DySPAN -05), pp. 243-250, Baltimore, Md, USA, November
2005.
[9] Dipankar Raychaudhuri and Xiangpeng Jing. "A spectrum etiquette
protocol for efficient coordination of radio devices in unlicensed bands".
14th IEEE PIMRC2003, September 2003.
[10] G. Bianchi, "Performance analysis of the IEEE 802.11 distributed
coordination function" IEEE Journal on Selected Areas in
Communications, vol. 18, no. 3, pp. 535-547, 2000.
[11] Industrie Canada, "Gestion du spectrum et telecommunication." Site
internet, http://www.ic.gc.ca/eic/site/smt-gst.nsf/fra/.
[12] T. A. Weiss and F. K. Jondral, "Spectrum pooling: an innovative
strategy for the enhancement of spectrum efficiency," IEEE
Communications Magazine, vol. 42, no. 3, pp. S8-S14, 2004.
[13] S. Gilbert, "Introduction to linear Algebra, "Wellesley-Cambridge
Press". 1998.
[14] S. Mangold and K. Challapali, "Coexistence of wireless networks in
unlicensed frequency bands". Wireless World Research Forum #9
Zurich Switzerland, July 2003.
[15] Steven De Jonc, Karl Tuyls and Katja Verbeeck "Artificial agents
learning human fairness". Proceedings of the 7th international joint
conference on Autonomous agents and multiagent systems, Volume 2
Pages: 863-870, 2008, ISBN: 978-0-9817381-1-6.
[16] Yiping Xing and R. Chandramouli Stefan Mangold and Sai Shankar N
"Analysis and Performance Evaluation of a Fair Channel Access
Protocol for Open Spectrum Wireless Networks". IEEE International
Conference, volume 2, pp. 1179-1183, May 2005 ISBN: 0-7803-8938-7.
[17] Durga P. Satapathy and Jon M. Peha "Spectrum Sharing Without
Licenses: Opportunities and Dangers" Proceedings of The
Telecommunications Policy Research Conference (TPRC), Section 3, pp.
15-29, 1996.
[18] C.T. Chou, Hyoil, K., Sai Shankar, N., and Shin, K. G., "Spectrum
agility radio for broadband applications" EETimes In Focus Article,
Aug. 23.
[19] C.T. Chou, Hyoil, K., Sai Shankar, N., and Shin, K. G., "Spectrum
agility radio : radio resource measurements for opportunistic spectrum
usage". IEEE Globecom 2004, Dallas TX, USA, Nov. 2004.
[20] C.T. Chou, Hyoil, K., Sai Shankar, N., and Shin, K. G., "What and how
much to gain from Spectrum Agility" Submitted to IEEE/ACM Trans.
On Networking, June 2004.
@article{"International Journal of Electrical, Electronic and Communication Sciences:59512", author = "Raoul Zamblé and Michel Babri and Souleymane Oumtanaga and Boubacar Barry and Claude Lishou", title = "Peaceful Coexistence of IEEE 802.11 and IEEE802.16 Standards in 5GHz Unlicensed Bands", abstract = "Cognitive radio devices have been considered as a key technology for next-generation of wireless communication. These devices in the context of IEEE 802.11 standards and IEEE 802.16 standards, can opportunistically utilize the wireless spectrum to achieve better user performance and improve the overall spectrumutilization efficiency, mainly in the unlicensed 5 GHz bands. However, opportunistic use of wireless spectrum creates news problems such as peaceful coexistence with other wireless technologies, such as the radiolocation systems, as well as understanding the influence of interference that each of these networks can create. In this paper, we suggest a dynamic access model that considerably reduces this interference and allows efficiency and fairness use of the wireless spectrum.
", keywords = "Dynamic access, exclusive access, spectrumopportunities, unlicensed band.", volume = "4", number = "7", pages = "1059-6", }
