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Paper detail

Laxity-Based Opportunistic Scheduling with Flow-Level Dynamics and Deadlines

Many data applications in the next generation cellular networks, such as content precaching and video progressive downloading, require flow-level quality of service (QoS) guarantees. One such requirement is deadline, where the transmission task needs to be completed before the application-specific time. To minimize the number of uncompleted transmission tasks, we study laxity-based scheduling policies in this paper. We propose a Less-Laxity-Higher-Possible-Rate (L$^2$HPR) policy and prove its asymptotic optimality in underloaded identical-deadline systems. The asymptotic optimality of L$^2$HPR can be applied to estimate the schedulability of a system and provide insights on the design of scheduling policies for general systems. Based on it, we propose a framework and three heuristic policies for practical systems. Simulation results demonstrate the asymptotic optimality of L$^2$HPR and performance improvement of proposed policies over greedy policies.

preprint2012arXivOpen access
Huasen WuYouguang ZhangXin Liu
math.ITInformation Theory
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Huasen WuYouguang ZhangXin Liu

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