Exact admission control for networks with a bounded delay service
IEEE/ACM Transactions on Networking (TON)
An uplink CDMA system architecture with diverse QoS guarantees for heterogeneous traffic
IEEE/ACM Transactions on Networking (TON)
A unified wireless LAN architecture for real-time and non-real-time communication services
IEEE/ACM Transactions on Networking (TON)
Performance of packet voice transmission using IEEE 802.16 protocol
IEEE Wireless Communications
Optimal multiplexing on a single link: delay and buffer requirements
IEEE Transactions on Information Theory
Quality of service support in IEEE 802.16 networks
IEEE Network: The Magazine of Global Internetworking
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This paper studies real-time traffic support in IEEE 802.16-based backhaul networks, where each subscriber station (SS) may be responsible for forwarding packets for a number of real-time voice connections. In an 802.16-based network, the SS requests bandwidth to the base station (BS) in the uplink, and bandwidth grants are sent back from the BS through the downlink. The 802.16 standard specifies that the bandwidth requests are for individual connections and pass only the number of bytes requested from each connection. The standard does not specify a resource allocation strategy. In this paper we propose a simple enhancement to the bandwidth request mechanism in 802.16 for supporting packet voice traffic. First, the SS combines the bandwidth requests of multiple connections associated to it and sends aggregate bandwidth requests to the BS. This makes the bandwidth request process more efficient by saving transmission time of both the BS and the SSs. Second, in order to facilitate the BS to make resource allocation decisions, the aggregate bandwidth requests include information about the latency requirements of buffered real-time packets at the SSs. We propose three different bandwidth request and packet scheduling schemes, each of which requires a different amount of information to be included in the bandwidth requests. Our results show that there is an optimum point about how much delay information the SS should report to the BS in order to best utilize the uplink resources while providing satisfactory real-time performance for the voice traffic.