Analysis of Power Saving Class II Traffic in IEEE 802.16E with Multiple Sleep State and Balking

[1] Baek S., Choi B.D., Performance of an effcient sleep mode operation for IEEE 802.16m, Journal of Industrial and Management Optimization, 7, 3, 2011, 623-639.10.3934/jimo.2011.7.623Search in Google Scholar

[2] Chen C.Y., Hsu C.H., Feng K.T., Performance analysis and comparison of sleep mode operation for IEEE 802.16m advanced broadband wireless networks, Proceedings of the IEEE 21st International Symposium on Personal Indoor and Mobile Radio Communications, 2010, 1425-1430.Search in Google Scholar

[3] Han K., Choi S., Performance Analysis of Sleep Mode Operation in IEEE 802.16e Mobile BroadBand Wireless Access Systems, The 12th Asia-Pacifc Conference on Communications, 2006, 1141-1145.Search in Google Scholar

[4] Hwang E., Kim K.J., Son J.J., Choi B.D., The power saving mechanism with binary exponential traffc indications in the IEEE 802.16e/m, Queueing Systems, 62, 3, 2009, 197-227.10.1007/s11134-009-9122-0Search in Google Scholar

[5] Hwang E., Kim K.J., Son J.J., Choi B.D., The power-saving mechanism with pe-riodic traffc indications in the IEEE 802.16e/m, IEEE Transactions on Vehicular Technology, 59, 1, 2010, 319-334.10.1109/TVT.2009.2032193Search in Google Scholar

[6] IEEE 802.16 Working Group, IEEE Standard for Local and Metropolitan Area Networks. Part 16: Air Interface for Fixed and Mobile Broadband Wireless Ac-cess Systems. Amendment 3: Management Plane Procedures and Services, IEEE Standard 802, 2006.Search in Google Scholar

[7] Jang J., Han K., Choi S., Adaptive power saving strategies for IEEE 802.16 e mobile broadband wireless access, In Communications, APCC'06. Asia-Pacifc Conference, 2006, 1-5.10.1109/APCC.2006.255806Search in Google Scholar

[8] Javed U., Suchara M., He J., Rexford J., Multipath protocol for delay-sensitive traffc, In Communication Systems and Networks and Workshops, COMSNETS, 2009, 1-8.10.1109/COMSNETS.2009.4808885Search in Google Scholar

[9] Jin S., Yue W., Performance analysis and evaluation for power saving class type III in IEEE 802.16e network, Journal of Industrial and Management Optimization, 6, 3, 2010, 691-708.10.3934/jimo.2010.6.691Search in Google Scholar

[11] Jones C.E., Sivalingam K.M., Agrawal P., Chen J.C., A survey of energy effcient network protocols for wireless networks, International Journal of wireless networks, 7, 4, 2001, 343-358.10.1023/A:1016627727877Search in Google Scholar

[12] Lee J., Cho D., An optimal power-saving class II for VoIP traffc and its perfor-mance evaluations in IEEE 802.16 e, Computer Communications, 31, 14, 2008, 3204-3208.10.1016/j.comcom.2008.04.029Search in Google Scholar

[13] Lee K., Mun Y., Enhanced power saving mechanism for Type I and Type II power saving classes in IEEE 802.16e, IEICE Transactions on Communications, E94-B, 9, 2011, 2642-2645.10.1587/transcom.E94.B.2642Search in Google Scholar

[14] Rardin R.L., Optimization in Operations Research, Prentice Hall, 1999.Search in Google Scholar

[15] Seo J.B., Lee S.Q., Park N.H., Lee H.W., Cho C.H., Performance Analysis of Sleep Mode Operation in IEEE 802.16e, Proc. IEEE VTC, 2, 2004, 1169-1173.Search in Google Scholar

[16] Wongthavarawat K., Ganz A., Packet scheduling for QoS support in IEEE 802.16 broadband wireless access systems, International Journal of Communication Systems, 16, 1, 2003, 81-96.10.1002/dac.581Search in Google Scholar

[17] Yue D., Zhang Y., Yue W., Optimal performance analysis of an M/M/1/N queue system with balking, reneging and server vacation, International Journal of Pure and Applied Mathematics, 28, 1, 2008, 101-115.Search in Google Scholar

[18] Zhang Y., Performance modeling of energy management mechanism in IEEE 802.16e mobile WiMAX, Wireless Communications and Networking Conference, 2007, 3205-3209.10.1109/WCNC.2007.591Search in Google Scholar