Information Technology Reference
In-Depth Information
Kyasanur, P., Jungmin, C., Chereddi, S., &
Vaidya, N. H. (2006). Multichannel mesh net-
works: challenges and protocols.
IEEE Wireless
Communication
,
13
(2), 30-36. doi:10.1109/
MWC.2006.1632478
So, J., & Vaidya, N. (2004). Multi-Channel MAC
for Ad Hoc Networks: Handling Multi-Channel
Hidden Terminals Using A Single Transceiver.
Proceedings of the 5th ACM international sympo-
sium on Mobile ad hoc networking and computing
(pp. 222 - 233).
Li, J., Haas, Z. J., Sheng, M., & Chen, Y. (2003).
Performance Evaluation of Modified IEEE 802.11
MAC for Multi-Channel Multi-Hop Ad Hoc
Network
. Proceedings of the 17th International
Conference on Advanced Information Networking
and Applications. (pp. 312-317).
IEEE Std 802.11e. (2004).
Medium Access Con-
trol (MAC) Enhancements for Quality of Service
(QoS)
. IEEE Draft for Wireless Medium Access
Control (MAC) and Physical Layer (PHY) Speci-
fications, / Draft 11.0.
Maheshwari, R., Gupta, H., & Samir, R. (2006).
Multichannel MAC Protocols for Wireless Net-
works
. Proceedings of the 3
rd
IEEE Communica-
tion Society on Sensor and Ad Hoc Communica-
tions Networks (pp. 393-401).
Tzamaloukas, A., & Garcia-Luna-Aceves, J. J.
(2001). A Receiver-Initiated Collision-Avoidance
Protocol for Multi-Channel Networks.
Proceed-
ings of the 20
th
IEEE INFOCOM
(pp. 189-198).
Ying, Z., Ananda, A. L., & Jacob, L. (2003). A
QoS Enabled MAC Protocol for Multi-Hop Ad
Hoc Wireless Networks.
Proceeding of IEEE
International Conference on Performance, Com-
puting, and Communications
(IPCCC).
Myers, A. D. (2002). Hybrid MAC Protocols For
Mobile Ad Hoc Networks.
PhD thesis, Computer
Science, University of Texas at Dallas
.
Qiang, Q., Jacob, L., Radhakrishna Pillai, R., &
Prabhakaran, B. (2002). MAC Protocol Enhance-
ments for QoS Guarantee and Fairness over the
IEEE 802.11 Wireless LAN.
Proceeding of the
Conference on Computer Communication Net-
work (ICCNC).
Zhang, J., Zhou, G., Huang, C., Son, S. H., &
Stankovic, J. A. (2007). TMMAC: An Energy
Efficient Multi- Channel MAC Protocol for Ad
Hoc Networks.
Proceedings of IEEE International
Conference on Communications
(pp. 24-28).
Rajendran, V., Obraczka, K., & Garcia-Luna-
Aceves, J. J. (2003). Energy-Efficient, Collision-
Free Medium Access Control for Wireless Sensor
Networks.
Proceedings of the First ACM Confer-
ence on Embedded Networked Sensor Systems
(SenSys).
Zhou, G., Huang, C., Yan, T., He, T., Stankovic,
J. A., & Abdelzaher, T. (2006). MMSN: Multi-
Frequency Media Access Control for Wireless
Sensor Networks.
Proceedings of the 25th IEEE
INFOCOM
(pp. 1-13).
Zhou, G., Huang, C., Yan, T., He, T., Stankovic,
J. A., & Abdelzaher, T. (2006). MMSN: Multi-
Frequency Media Access Control for Wireless
Sensor Networks.
Proceedings of the 25
th
IEEE
INFOCOM
(pp. 1-13).
Rhee, I., Warrier, A., Aia, M., & Min, J. (2005).
ZMAC: a Hybrid MAC for Wireless Sensor
Networks.
Proceedings of the 3rd international
conference on Embedded networked sensor sys-
tems
(pp. 90-101).
This work was previously published in International Journal of Grid and High Performance Computing (IJGHPC), Volume 1,
Issue 4, edited by Emmanuel Udoh & Ching-Hsien Hsu, pp. 40-56, copyright 2009 by IGI Publishing (an imprint of IGI Global).
Search WWH ::
Custom Search