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引用次数: 5
摘要
基于G.R. Cantieni et al.,(2005)中的模型,我们开发了一个分析模型来评估IEEE 802.11 DCF的非饱和能耗。该模型明确地考虑了载波感知机制和成功传输帧后的额外后退间隔,在饱和条件下可以忽略。推导了连续帧之间能量消耗的概率生成函数。数值算例表明,当帧生成概率小于某个临界值时,大部分能量浪费在载波感知上,而窃听发送给另一个用户的帧所消耗的能量占大部分。
Analysis of energy consumption of IEEE 802.11 DCF under non-saturation conditions
We develop an analytic model to evaluate non-saturation energy consumption of IEEE 802.11 DCF, based on the model in G.R. Cantieni et al., (2005). The model explicitly takes into account both the carrier sensing mechanism and an additional backoff interval after successful frame transmission, which can be ignored under saturation conditions. The probability generating function with respect to energy consumed between consecutive frame generations is derived. Numerical example shows that most of the energy is wasted in carrier sensing when the frame generation probability is smaller than some critical value and that the energy consumed in overhearing a frame destined to another user occupies the major part otherwise.
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