无线实时环境中时延控制和能量管理的自适应碎片化

International Conference on Wireless Algorithms, Systems and Applications (WASA 2007) Pub Date : 2007-08-01 DOI:10.1109/WASA.2007.140

D. Rajan, C. Poellabauer

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引用次数: 9

摘要

无线环境的典型特征是信道条件不可预测和不可靠。在这种环境中，网络绑定数据的碎片化是一种常用的技术，可以提高数据传输成功的概率，并减少由于重新传输而产生的能量开销。与碎片和随后的碎片重新组装有关的总体延迟常常被忽略，这对参与应用程序的实时保证具有重大影响。这项工作研究了由于在源设备的链路层(IEEE 802.11中的MAC层)执行碎片而引入的延迟，以及它们对移动应用程序(例如，媒体流)的端到端延迟约束的影响。基于观察到的效果，本工作提出了一种基于反馈的自适应方法，该方法选择最优分片大小，以(a)满足分布式应用的端到端延迟要求;(b)通过增加传输成功的概率来最小化源设备的能耗，从而减少重新传输及其相关成本。

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Adaptive Fragmentation for Latency Control and Energy Management in Wireless Real-time Environments

Wireless environments are typically characterized by unpredictable and unreliable channel conditions. In such environments, fragmentation of network-bound data is a commonly adapted technique to improve the probability of successful data transmissions and reduce the energy overheads incurred due to re-transmissions. The overall latencies involved with fragmentation and consequent re-assembly of fragments are often neglected which bear significant effects on the real-time guarantees of the participating applications. This work studies the latencies introduced as a result of the fragmentation performed at the link layer (MAC layer in IEEE 802.11) of the source device and their effects on end-to-end delay constraints of mobile applications (e.g., media streaming). Based on the observed effects, this work proposes a feedback-based adaptive approach that chooses an optimal fragment size to (a) satisfy end-to-end delay requirements of the distributed application and (b) minimize the energy consumption of the source device by increasing the probability of successful transmissions, thereby reducing re-transmissions and their associated costs.

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International Conference on Wireless Algorithms, Systems and Applications (WASA 2007)

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