Simplified Information Geometry Approach for Massive MIMO-OFDM Channel Estimation -- Part II: Convergence Analysis

arXiv - CS - Information Theory Pub Date : 2024-01-04 DOI:arxiv-2401.02037

Jiyuan Yang, Yan Chen, Mingrui Fan, Xiqi Gao, Xiang-Gen Xia, Dirk Slock

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Abstract

In Part II of this two-part paper, we prove the convergence of the simplified information geometry approach (SIGA) proposed in Part I. For a general Bayesian inference problem, we first show that the iteration of the common second-order natural parameter (SONP) is separated from that of the common first-order natural parameter (FONP). Hence, the convergence of the common SONP can be checked independently. We show that with the initialization satisfying a specific but large range, the common SONP is convergent regardless of the value of the damping factor. For the common FONP, we establish a sufficient condition of its convergence and prove that the convergence of the common FONP relies on the spectral radius of a particular matrix related to the damping factor. We give the range of the damping factor that guarantees the convergence in the worst case. Further, we determine the range of the damping factor for massive MIMO-OFDM channel estimation by using the specific properties of the measurement matrices. Simulation results are provided to confirm the theoretical results.

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用于大规模 MIMO-OFDM 信道估计的简化信息几何方法 -- 第二部分：收敛性分析

对于一般的贝叶斯推理问题，我们首先证明了公共二阶自然参数（SONP）的迭代与公共一阶自然参数（FONP）的迭代是分离的。因此，可以独立检验公共 SONP 的收敛性。我们的研究表明，在初始化满足特定但较大范围的条件下，无论阻尼系数的值如何，公共 SONP 都是收敛的。对于普通 FONP，我们建立了其收敛的充分条件，并证明普通 FONP 的收敛依赖于与阻尼因子相关的特定矩阵的谱半径。我们给出了在最坏情况下保证收敛的阻尼系数范围。此外，我们还利用主题测量矩阵的特定属性，确定了用于大规模 MIMO-OFDM 信道估计的阻尼系数范围。仿真结果证实了理论结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Information Theory

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