缺失数据的平移不变子空间跟踪

Myung Cho, Yuejie Chi
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引用次数: 1

摘要

子空间跟踪是信号处理中的一个重要问题,在无线通信、视频监控、雷达和声纳源定位等领域都有广泛的应用。近年来,人们认识到即使在数据向量部分观测到且有许多缺失条目的情况下,也可以可靠地估计和跟踪低维子空间,这在处理高维、高速率数据以减少采样需求时是非常可取的。本文的动机是观察到底层的低维子空间可能具有由数据的物理模型引起的额外结构特性,如果利用得当,可以大大提高子空间的跟踪性能。作为一个案例研究,本文研究了在幺正线性阵列中,信号位于由Vandermonde矩阵的列所张成的子空间中,从次采样观测中跟踪到达方向的问题。我们通过将数据向量映射到潜在的Hankel矩阵来利用平移不变结构,然后通过利用其低秩性质对Hankel矩阵进行跟踪。通过数值仿真验证了该方法在跟踪速度和敏捷性方面优于现有的不利用附加移位不变结构的子空间跟踪方法。
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Shift-invariant Subspace Tracking with Missing Data
Subspace tracking is an important problem in signal processing that finds applications in wireless communications, video surveillance, and source localization in radar and sonar. In recent years, it is recognized that a low-dimensional subspace can be estimated and tracked reliably even when the data vectors are partially observed with many missing entries, which is greatly desirable when processing high-dimensional and high-rate data to reduce the sampling requirement. This paper is motivated by the observation that the underlying low-dimensional subspace may possess additional structural properties induced by the physical model of data, which if harnessed properly, can greatly improve subspace tracking performance. As a case study, this paper investigates the problem of tracking direction-of-arrivals from subsampled observations in a unitary linear array, where the signals lie in a subspace spanned by columns of a Vandermonde matrix. We exploit the shift-invariant structure by mapping the data vector to a latent Hankel matrix, and then perform tracking over the Hankel matrices by exploiting their low-rank properties. Numerical simulations are conducted to validate the superiority of the proposed approach over existing subspace tracking methods that do not exploit the additional shift-invariant structure in terms of tracking speed and agility.
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