Tehuang LiuWANJIUN LIAO2018-09-102018-09-102008-07http://scholars.lib.ntu.edu.tw/handle/123456789/342703https://www.scopus.com/inward/record.uri?eid=2-s2.0-84911061334&doi=10.4108%2fICST.QSHINE2008.3941&partnerID=40&md5=30e73ee1910660f6b773636e64709068In this paper, we focus on call admission control (CAC) in IEEE 802.11 multi-radio multi-rate multi-channel (MR2-MC) wireless mesh networks (WMNs). CAC is the key component of QoS routing protocols. The goal of CAC is to protect existing flows from QoS violations and fully utilize available radio resource on channels. We propose a CAC mechanism, called Contention-Aware Multi-channel Call Admission Control (CMC), for MR2-MC WMNs based on IEEE 802.11 DCF. CMC is fully distributed, relies on local information to estimate the residual bandwidth of a path, and can be integrated into existing routing protocols for MR2-MC WMNs to provide QoS. We evaluate the performance of CMC via ns-2 simulations. The results show that CMC can precisely predict the end-to-end residual bandwidths of paths, successfully protects existing flows from QoS violations, and fully utilizes the bandwidths on channels. © Copyright 2008 ICST.Call admission control; Multi-channel; Multi-radio; Multi-rate; Wireless mesh networks[SDGs]SDG16Bandwidth; Congestion control (communication); Local area networks; Mobile telecommunication systems; Quality of service; Routing protocols; Standards; Wireless mesh networks (WMN); Local information; Multi rate; Multi-channel; Multi-radio; NS-2 simulations; QoS routing protocol; Residual bandwidths; Wireless Mesh networks (WMNs); MESH networkingconference paper10.4108/ICST.QSHINE2008.39412-s2.0-84911061334WOS:000263978900003