数字通信中粒子滤波的最优采样

2008 IEEE 9th Workshop on Signal Processing Advances in Wireless Communications Pub Date : 2008-07-06 DOI:10.1109/SPAWC.2008.4641685

S. Barembruch, Aurélien Garivier, É. Moulines

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引用次数: 7

摘要

粒子滤波已成功地用于数字通信中固定滞后或固定间隔平滑分布的逼近，并进行近似最大似然推断。因为状态空间是有限的，所以在每一步都可以考虑任何给定粒子的所有子代(路径)。因为每个粒子通常有几个可能的后代，后代的种群比初始种群大;因此，需要通过在所有这些子代中选择粒子位置并计算适当的权重来构建新的粒子群。本文提出了一种新的无偏选择算法，该算法可以最小化相对于一般距离函数的期望损失。在盲反卷积设置中，通过模拟将与卡方距离和Kullback-Leibler散度相关的选择方案与仅保留最佳权重的确定性方案进行比较。

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On optimal sampling for particle filtering in digital communication

Particle filtering has been successfully used to approximate the fixed-lag or fixed-interval smoothing distributions in digital communication and to perform approximate maximum likelihood inference. Because the state-space is finite, it is possible at each step to consider all the offsprings (path) of any given particle. Because each particle has typically several possible offsprings, the population of offsprings is larger than the initial population; it is thus required to construct a novel particle swarm by selecting, among all these offsprings, particle positions and computing appropriate weights. We propose here a novel unbiased selection algorithm, which minimizes the expected loss with respect to general distance functions. In a blind deconvolution setting, the selection schemes associated to the Chi-Square distance and the Kullback-Leibler divergence are compared by simulations to the deterministic scheme that keep only the best weights.

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2008 IEEE 9th Workshop on Signal Processing Advances in Wireless Communications

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