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引用次数: 2
摘要
介质访问控制(MAC)协议的时扩多址(TSMA)家族在确定的有界延迟内为每个节点提供有保证的信道访问(参见Chlamtac, I.和Farago, a ., IEEE/ACM Trans.)。论网络,第2卷,第2期。1,第23-9页,1994;Chlamtac et al., ACM/IEEE Trans。《网络》,第5卷,第5期。6,第804-12页,1997)。在TSMA中,延迟界仅随网络大小N呈对数增长,但随最大节点度D: O(D/sup 2/ (log/sup 2/ N/log/sup 2/ D)呈二次增长。我们建议使用拓扑控制算法来约束移动自组织网络中的最大节点度,否则由于移动性而变化很大。我们表明,当TSMA运行在拓扑被控制的网络上时,它是支持多媒体应用的理想MAC协议。
Mobility independent medium access control in support of multimedia
The time-spread multiple-access (TSMA) family of medium access control (MAC) protocols provides guaranteed channel access to each node within a deterministically bounded delay (see Chlamtac, I. and Farago, A., IEEE/ACM Trans. on Networking, vol.2, no.1, p.23-9, 1994; Chlamtac et al., ACM/IEEE Trans. on Networking, vol.5, no.6, p.804-12, 1997). In TSMA, the delay bound grows only logarithmically with network size, N, but quadratically with the maximum node degree, D: O(D/sup 2/ (log/sup 2/ N/log/sup 2/ D)). We propose the use of a topology control algorithm to bound the maximum node degree within a mobile ad hoc network which can otherwise vary widely due to mobility. We show that when TSMA runs on top of a network whose topology is controlled, it is an ideal MAC protocol to support multimedia applications.
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