高斯源在有噪声平稳混合中的渐近最优恢复:最小噪声最大分离解

A. Weiss, A. Yeredor
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引用次数: 1

摘要

我们解决了在半盲情况下从噪声混合物中分离源的问题,该情况具有平稳的、时间变化的高斯源和已知的光谱。在这种嘈杂的模型中,出现了一个关于期望目标的困境。一方面,提供最小干扰源比(ISR)的“最大分离”解决方案通常会受到明显的残余噪声的影响。另一方面,最佳最小均方误差(MMSE)估计将产生真实源的“最小失真”版本的估计,通常以折衷的ISR为代价。基于未知底层模型参数的最大似然(ML)估计,我们提出了两种基于ML的源估计。一个渐近地与源的MMSE估计一致,而另一个渐近地与(无偏)该模型的“最小噪声最大分离”解决方案。我们证明了后者的渐近最优性,并给出了相应的cram - rao下界。我们讨论了所提出的估计的主要性质的差异,并利用模拟结果实证地证明了它们。
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Asymptotically Optimal Recovery of Gaussian Sources from Noisy Stationary Mixtures: the Least-noisy Maximally-separating Solution
We address the problem of source separation from noisy mixtures in a semi-blind scenario, with stationary, temporally-diverse Gaussian sources and known spectra. In such noisy models, a dilemma arises regarding the desired objective. On one hand, a "maximally separating" solution, providing the minimal attainable Interference-to-Source-Ratio (ISR), would often suffer from significant residual noise. On the other hand, optimal Minimum Mean Square Error (MMSE) estimation would yield estimates which are the "least distorted" versions of the true sources, often at the cost of compromised ISR. Based on Maximum Likelihood (ML) estimation of the unknown underlying model parameters, we propose two ML-based estimates of the sources. One asymptotically coincides with the MMSE estimate of the sources, whereas the other asymptotically coincides with the (unbiased) "least-noisy maximally-separating" solution for this model. We prove the asymptotic optimality of the latter and present the corresponding Cramér-Rao lower bound. We discuss the differences in principal properties of the proposed estimates and demonstrate them empirically using simulation results.
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