WIMAX móvil
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Published:
2010-10-30
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Abstract
WiMAX móvil muestra una serie de características que lo hacen ideal para el despliegue en zonas rurales y en países en vías de desarrollo. En este trabajo se presentan las principales características de IEEE 802.16, se analiza el avance en tecnologías de antenas, diseño de Cross Layer, manejo de interferencia, scheduling y las aplicaciones para WiMAX Móvil.
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Scientific Paper
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References
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K. Cheng, “Introduction to Mobile WiMAX”, NTUEE Mobile Communications, 2007
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S. Shakkotta, et al, “Cross-Layer Design for Wireless Networks” IEEE Communications Magazine, volume 41, issue 10, October 2003.
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Bohge M., et al, Dynamic Resource Allocation in OFDM Systems: An Overview of Cross Layer Optimization Principles and Techniques, IEEE Network, volume 21, Issue 1, February 2007.
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Heung Yeom Jae and Hwan Lee Yong, Mitigation of Inter-Cell Interference in the WiMAX System. Mobile WiMAX Symposium, 2007, IEEE.
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So-In Chackchai, Tamimi Abdel-Karim, Scheduling in IEEE 802.16e Mobile WiMAX Networks: Key Issues and Survey, IEEE journal on Selected Areas in Communications, Volumen 27, Febrero 2009.
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Liangshan Ma, Dongyan Jia, The Competition and Cooperation of WiMAX, WLAN and e3G, Mobile Technology, Aplications and Systems, 2005.
Retnasothie Francis E., et al. “Wireless IPTV over WiMAX: Challenges and Applications”, Wireless and Microwave Technology Conference, 2006.
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Niyato Dusit, Hossain Ekram and Diamond Jeffrey, “IEEE 802.16/WiMAX-Based Broadband Wireless Access and Its Application for Telemedicine/E-Health services”, IEEE Wireless Communications, 2007.
Guainella E., et al., “WiMAX technology support for applications in environmental monitoring, fire prevention and telemedicine”. IEEE Mobile WiMAX Symposium, 2007.
WiMAX Extension to Isolated Research Data Networks (WEIRD), http://www. ist-weird.eu/
Burbank J, Kash W.T., “IEEE 802.16 Broadband Wireless Technology and its Applications to the Military Problem Space”. IEEE Military Communications Conference, 2005. MILCOM 2005.
J. Andrews, A. Ghosh, “Fundamentals of WiMAX: Understanding Broadband Wireless Networking”, chapter 2, Prentice Hall, 2007.
Chen Kwang-Cheng and B. de Marca Robert, “Mobile WiMAX”, chapter 2, John Wiley & Sons, 2008.
Paul Piggin, “Emerging Mobile WiMAX Antenna Technologies”, IEEE Communications Engineer, Volume 4, Issue 5, October-November 2006, page(s): 29-33.
Helmut Bôlcskei, “MIMO-OFDM Wireless Systems: Basics, Perspectives, and Challenges”, ETH Zurich, IEEE Wireless Communications, volume 13, issue 4, August 2006, page(s): 31-37.
Maode Ma, Current Technology Developments of WiMAX Systems, Springer, 2009.
L. Jungwon, et al., “Recent Advances in Technologies for the Evolution of mobile WiMAX” en: http://www.geocities.com/ jungwon1977/research/wimax_future_ mag.pdf.
Ghosh A., Wolter D.R., Andrews J.G., Chen, R.,” Broadband Wireless Access with WiMAX/802.16: Current performance, benchmarks and future potential”. IEEE Communications Magazine, volume 43, Issue 2, February 2005, page(s) 129-136.
K. Cheng, “Introduction to Mobile WiMAX”, NTUEE Mobile Communications, 2007
Broche Holger, et al., “Smart Antenas: State of the Art”, http://upcommons.upc. edu/e-prints/bitstream/2117/1547/4/ Smart.pdf
B. Muquet, et al, “MIMO Techniques for Mobile WiMAX Systems”, SEQUANS Communications White Paper, http://www. sequans.com/pdf/mimo_whitepaper.pdf J. Lee,
et al, “Generalized Co-Phasing for Multiple Transmit and Receive Antennas”, IEEE Transactions on Wireless Communications, volume 8, issue 4, April 2009.
Qi Wang, Abu Rgheff, “Cross-Layer Signalling for Next-Generation Wireless Systems”, IEEE Wireless Communications and Networking, volume 2, march 2003.
S. Shakkotta, et al, “Cross-Layer Design for Wireless Networks” IEEE Communications Magazine, volume 41, issue 10, October 2003.
J. Postel, “Internet control message protocol” RFC 792, September 1981
B-J “J” Kim “A network service providing wireless cannel information for adaptive mobile applications: part I: proposal,” Proc. IEEE ICC’01, Helsinki, Finland, June 2001.
Yi-Ting Mai, et al. “Cross Layer QoS Framework in IEEE 802.16 Network”, The 9th International Conference on Advanced Communication Technology, volume 3, February 2007.
J. Neng Hwang, et al., “Cross Layer End to End QoS for Scalable Video over Mobile WiMAX”, chapter 13 of the book “Mobile WiMAX”, 2008, John & Wiley
Bohge M., et al, Dynamic Resource Allocation in OFDM Systems: An Overview of Cross Layer Optimization Principles and Techniques, IEEE Network, volume 21, Issue 1, February 2007.
Ashagi, S. Murphy, L. Murphy, Mitigating Interference between IEEE 802.16 Systems Operating in License-exempt Mode, in Proc. of Wired/Wireless Internet Communications, 2005.
Heung Yeom Jae and Hwan Lee Yong, Mitigation of Inter-Cell Interference in the WiMAX System. Mobile WiMAX Symposium, 2007, IEEE.
Nicola Riato, Serrelli Federico, Sala Andrea, Capone Antonio, Interference Mitigation Strategies for WiMAX Networks. Wireless Communication Systems, 2007.
Yehia Hicham, Kamal Hany, Inter-System Interference Effect on WiMAX Network Performance. Information and Communication Technologies: From Theory to Applications, 2008. ICTTA 2008. 3rd International Conference on Information & Communication Technologies.
So-In Chackchai, Tamimi Abdel-Karim, Scheduling in IEEE 802.16e Mobile WiMAX Networks: Key Issues and Survey, IEEE journal on Selected Areas in Communications, Volumen 27, Febrero 2009.
Belghith Aymen, Nuaymi Loutfi, Comparison of WiMAX scheduling algorithms and proposals for the rtPS QoS class, Wireless Conference, 2008. EW 2008. 14th European.
Liangshan Ma, Dongyan Jia, The Competition and Cooperation of WiMAX, WLAN and e3G, Mobile Technology, Aplications and Systems, 2005.
Retnasothie Francis E., et al. “Wireless IPTV over WiMAX: Challenges and Applications”, Wireless and Microwave Technology Conference, 2006.
She James, et al. “IPTV over WiMAX: Key Success Factors, Challenges and Solutions”. IEEE Communications Magazine, August 2007, Volume 45, Issue 8.
Odd Inge, et al. “Delivery of On-Demand Video Services in Rural Area via IEEE 802.16 Broadband Wireless Access Networks”. IEEE International Workshop on Modeling Analysis and Simulation of Wireless and Mobile Systems. Proceedings of the 2nd ACM international workshop on Wireless multimedia networking and performance modeling, 2006.
Kalle Ritesh, Das Debabrata and Lele Abhijit. “On the Performance of Triple Play over http://ieeexplore.ieee.org/xpl/ RecentIssue.jsp?punumber=35 802.16e Based Networks for Rural Environments”, IEEE Asia-Pacific Conference on Communications. 2007. APCC 2007.
Tsitserov Dimitri, Markarian Garik, Manuylov Ivan, “Real-Time Video Distribution over WiMAX Networks”, accedido en: http://www.cms.livjm.ac.uk/pgnet2008/ Proceeedings/Papers/2008019.pdf
Niyato Dusit, Hossain Ekram and Diamond Jeffrey, “IEEE 802.16/WiMAX-Based Broadband Wireless Access and Its Application for Telemedicine/E-Health services”, IEEE Wireless Communications, 2007.
Guainella E., et al., “WiMAX technology support for applications in environmental monitoring, fire prevention and telemedicine”. IEEE Mobile WiMAX Symposium, 2007.
WiMAX Extension to Isolated Research Data Networks (WEIRD), http://www. ist-weird.eu/
Burbank J, Kash W.T., “IEEE 802.16 Broadband Wireless Technology and its Applications to the Military Problem Space”. IEEE Military Communications Conference, 2005. MILCOM 2005.