The Effect of Tmax in Energy Consumption in 0IEEE 802.16e with Traffic Load
Energy consumption is an important design issue for
Mobile Subscriber Station (MSS) in the standard IEEE 802.16e.
Because mobility of MSS implies that energy saving becomes an
issue so that lifetime of MSS can be extended before re-charging.
Also, the mechanism in efficiently managing the limited energy is
becoming very significant since a MSS is generally energized by
battery. For these, sleep mode operation is recently specified in the
MAC (Medium Access Control) protocol. In order to reduce the
energy consumption, we focus on the sleep-mode and wake-mode of
the MAC layer, which are included in the IEEE 802.16 standards [1-
2].
[1] Draft IEEE Standard for Local and metropolitan area networks, Part 16:
Air Interface for Broadband Wireless Access Systems, IEEE Standard,
May, 2004.
[2] Stalling W. Data and computer communication, Prentice Hall, 2002.
[3] Ron Olexa, "Implementing 802.11, 802.16 and 802.20 Wireless
networks, planning, Troubleshooting and Operations", Newness,
Elsevier, USA, 2005.
[4] IEEE Standard for Local and Metropolitan Area Networks, Part 16,
IEEE Standard, Apr. 8, 2002.
[5] Michel Barbeau, "WiMax/802.16 Threat Analysis", 2005 ACM,
http://www.scs.carleton.ca /barbeau/publications/iq2-barbeau.pdf.
[6] Loutfi Nuaymi, "WiMAX: Technology for Broadband Wireless Access",
Jhan Wilely and Sons, USA, 2007.
[7] Andrew S. Tanenbaum, Computer Network, 3rd Eddision, Prentice Hall,
2000.
[8] Sayandev Mukherjee, Kin K. Leung and George E. Rittenhouse,
"Protocol and control mechanisms to save terminal energy in IEEE
802.16 networks", Conference on Communications, Computers and
signal Processing, Page(s): 5 - 8, Issue, 24-26 Aug. 2005.
[9] Jun-Bae Seo, Seung-Que Lee, Hyong-Woo Lee, "Performance Analysis
of Sleep Mode Operation in IEEE802.16e", Vehicular Technology
Conference, Vol.2, pp. 1169-1173, 2004.
[10] Yan Zhang and Masayuki Fujise, "Energy Management in the IEEE
802.16e MAC", IEEE Communications Letters, VOL. 10, NO. 4, APRIL
2006.
[11] Yang Xiao, "Energy Saving Mechanism in the IEEE 802.16e Wireless
MAN", IEEE Communications Letters, VOL. 9, NO. 7, JULY 2005.
[12] Kwanghun Han and Sunghyun Choi, "Performance Analysis of Sleep
Mode Operation In IEEE 802.16e Mobile Broadband Wireless Access
Systems", Vehicular Technology Conference, 2006. VTC 2006-Spring.
IEEE 63rd.
[13] Jen Hui, Wei-Kuong, "Perdictive Dynamic Channel Allocation Sheme
for Improving Power Saving and Mobile in BWA Networks", mobile
network application magazian, springer, pp: 15-30, 2007.
[14] Mohammad Reza Sahebi, Arash Azizi Mazreah, Mahmood Fathy, Seyed
Javad Hosseini" The method to dynamically determine the optimal
parameter Tmin for energy saving in IEEE 802.16e, with light traffic
load", ICACTE Conference, PP. 754-758, 2008.
[1] Draft IEEE Standard for Local and metropolitan area networks, Part 16:
Air Interface for Broadband Wireless Access Systems, IEEE Standard,
May, 2004.
[2] Stalling W. Data and computer communication, Prentice Hall, 2002.
[3] Ron Olexa, "Implementing 802.11, 802.16 and 802.20 Wireless
networks, planning, Troubleshooting and Operations", Newness,
Elsevier, USA, 2005.
[4] IEEE Standard for Local and Metropolitan Area Networks, Part 16,
IEEE Standard, Apr. 8, 2002.
[5] Michel Barbeau, "WiMax/802.16 Threat Analysis", 2005 ACM,
http://www.scs.carleton.ca /barbeau/publications/iq2-barbeau.pdf.
[6] Loutfi Nuaymi, "WiMAX: Technology for Broadband Wireless Access",
Jhan Wilely and Sons, USA, 2007.
[7] Andrew S. Tanenbaum, Computer Network, 3rd Eddision, Prentice Hall,
2000.
[8] Sayandev Mukherjee, Kin K. Leung and George E. Rittenhouse,
"Protocol and control mechanisms to save terminal energy in IEEE
802.16 networks", Conference on Communications, Computers and
signal Processing, Page(s): 5 - 8, Issue, 24-26 Aug. 2005.
[9] Jun-Bae Seo, Seung-Que Lee, Hyong-Woo Lee, "Performance Analysis
of Sleep Mode Operation in IEEE802.16e", Vehicular Technology
Conference, Vol.2, pp. 1169-1173, 2004.
[10] Yan Zhang and Masayuki Fujise, "Energy Management in the IEEE
802.16e MAC", IEEE Communications Letters, VOL. 10, NO. 4, APRIL
2006.
[11] Yang Xiao, "Energy Saving Mechanism in the IEEE 802.16e Wireless
MAN", IEEE Communications Letters, VOL. 9, NO. 7, JULY 2005.
[12] Kwanghun Han and Sunghyun Choi, "Performance Analysis of Sleep
Mode Operation In IEEE 802.16e Mobile Broadband Wireless Access
Systems", Vehicular Technology Conference, 2006. VTC 2006-Spring.
IEEE 63rd.
[13] Jen Hui, Wei-Kuong, "Perdictive Dynamic Channel Allocation Sheme
for Improving Power Saving and Mobile in BWA Networks", mobile
network application magazian, springer, pp: 15-30, 2007.
[14] Mohammad Reza Sahebi, Arash Azizi Mazreah, Mahmood Fathy, Seyed
Javad Hosseini" The method to dynamically determine the optimal
parameter Tmin for energy saving in IEEE 802.16e, with light traffic
load", ICACTE Conference, PP. 754-758, 2008.
@article{"International Journal of Electrical, Electronic and Communication Sciences:55665", author = "Mohammadreza Sahebi and Arash Azizi Mazreah and Asadollah Shahbahrami and Bahram Bakhshi", title = "The Effect of Tmax in Energy Consumption in 0IEEE 802.16e with Traffic Load", abstract = "Energy consumption is an important design issue for
Mobile Subscriber Station (MSS) in the standard IEEE 802.16e.
Because mobility of MSS implies that energy saving becomes an
issue so that lifetime of MSS can be extended before re-charging.
Also, the mechanism in efficiently managing the limited energy is
becoming very significant since a MSS is generally energized by
battery. For these, sleep mode operation is recently specified in the
MAC (Medium Access Control) protocol. In order to reduce the
energy consumption, we focus on the sleep-mode and wake-mode of
the MAC layer, which are included in the IEEE 802.16 standards [1-
2].", keywords = "IEEE 802.16e, Sleep-mode, Wake-mode, Downlink,Mobile Subscriber Station.", volume = "4", number = "5", pages = "812-5", }