Notice of Violation of IEEE Publication PrinciplesAnalysis of QoS in next generation wireless networks

Notice of Violation of IEEE Publication Principles

"Analysis of QoS in Next Generation Wireless Networks"

by Zhifeng Chen, Qiaoming Zhu, Peide Qian, and Fengyan Chen
in the Proceedings of the 2nd International Conference on Power Electronics and Intelligent Transportation Systems, November 2009, pp. 216-219

After careful and considered review of the content and authorship of this paper by a duly constituted expert committee, this paper has been found to be in violation of IEEE\´s Publication Principles.

This paper is a duplication of the original text from the paper cited below. The original text was copied without attribution (including appropriate references to the original author(s) and/or paper title) and without permission. Zhifeng Chen was found to be responsible for the misconduct.

Due to the nature of this violation, reasonable effort should be made to remove all past references to this paper, and future references should be made to the following article:

"IPv6-Based Dynamic Coordinated Call Admission Control Mechanism over Integrated Wireless Networks"
by Sheng-Tzong Cheng, Jian-Liang Lin
in the IEEE Journal on Selected Areas in Communications, Vol 23, No 11, November 2005, pp. 2093-2103

IP technology will play a key role in next generation wireless networks, which face the great challenge of integration in order to provide seamless service to users anywhere and anytime. On the basis of the architecture for Qos in next generation wireless network, a coordinated call admission control mechanism was presented, providing an end-to-end RSVP context transfer for real-time applications to overcome the weakness of the context transfer protocol which cannot meet the need of end-to-end QoS mechanisms because the contexts were only transferred between the previous and new access routers. This mechanism decreased the delay caused by re-initiate QoS signaling from scratch to reestablish QoS forwarding process, - nd minimized the handover service disruption.