QR 分解的随机扰动分析及其应用

IF 1.7 3区 数学 Q2 MATHEMATICS, APPLIED Advances in Computational Mathematics Pub Date : 2024-10-02 DOI:10.1007/s10444-024-10198-5
Tianru Wang, Yimin Wei
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引用次数: 0

摘要

从前瞻性的角度分析了 QR 分解的扰动。扰动误差近似于高概率的一阶扰动扩展,其中假设扰动是随机的。与之前使用弗罗贝尼斯规范的规范扰动边界不同,我们的技术用于开发频谱规范,以及 QR 分解随机扰动的条目扰动边界。与经典的最坏情况扰动边界相比,统计结果趋于更严格(在期望的意义上)和更现实。新的扰动边界适用于统计和通信领域的各种问题。在本文中,我们考虑了高斯扰动下杠杆分数的扰动边界、低秩矩阵恢复的概率保证和误差边界,以及张量 CUR 型分解的误差上限。我们还利用扰动边界改进了多输入多输出(MIMO)系统中汤姆林森-原岛(Tomlinson-Harashima)预编码的鲁棒性设计。
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A stochastic perturbation analysis of the QR decomposition and its applications

The perturbation of the QR decompostion is analyzed from the probalistic point of view. The perturbation error is approximated by a first-order perturbation expansion with high probability where the perturbation is assumed to be random. Different from the previous normwise perturbation bounds using the Frobenius norm, our techniques are used to develop the spectral norm, as well as the entry-wise perturbation bounds for the stochastic perturbation of the QR decomposition. The statistics tends to be tighter (in the sense of the expectation) and more realistic than the classical worst-case perturbation bounds. The novel perturbation bounds are applicable to a wide range of problems in statistics and communications. In this paper, we consider the perturbation bound of the leverage scores under the Gaussian perturbation, the probability guarantees and the error bounds of the low rank matrix recovery, and the upper bound of the errors of the tensor CUR-type decomposition. We also apply our perturbation bounds to improve the robust design of the Tomlinson-Harashima precoding in the Multiple-Input Multiple-Output (MIMO) system.

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来源期刊
CiteScore
3.00
自引率
5.90%
发文量
68
审稿时长
3 months
期刊介绍: Advances in Computational Mathematics publishes high quality, accessible and original articles at the forefront of computational and applied mathematics, with a clear potential for impact across the sciences. The journal emphasizes three core areas: approximation theory and computational geometry; numerical analysis, modelling and simulation; imaging, signal processing and data analysis. This journal welcomes papers that are accessible to a broad audience in the mathematical sciences and that show either an advance in computational methodology or a novel scientific application area, or both. Methods papers should rely on rigorous analysis and/or convincing numerical studies.
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