基于事件的延迟投影行随机方法,用于时变图上的分布式约束优化

IF 8.6 1区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS
Mingqi Xing;Dazhong Ma;Huaguang Zhang;Xiangpeng Xie
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引用次数: 0

摘要

本文研究了在权重随时间变化的不平衡有向图上进行事件触发通信的分布式约束优化问题。本文考虑了一种更广义的网络模型,即通信拓扑可能是可变的,且随时间变化不平衡,代理间的信息流受时变通信延迟的影响,且代理无需准确了解其外度信息。为应对上述挑战,我们提出了一种新颖的离散时间分布式事件触发延迟子梯度算法。为便于进行收敛分析,我们采用了一种仅达成共识的 "虚拟 "代理技术,动态调整其状态(活跃或休眠),以确保代理之间的信息流无延迟。此外,还提出了一种增强方法,以确保增强的时变权重矩阵是行随机的。研究表明,在合理的通信延迟和事件触发阈值条件下,代理的局部决策变量会收敛到相同的最优解。数值示例显示了所提算法的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Event-Based Delayed Projection Row-Stochastic Method for Distributed Constrained Optimization Over Time-Varying Graphs
This article investigates the distributed constrained optimization problem with event-triggered communication over time-varying weight-unbalanced directed graphs. A more generalized network model is considered where the communication topology may be variable and unbalanced over time, the information flows across agents are subject to time-varying communication delays, and agents are not required to know their out-degree information accurately. To address the above challenges, we propose a novel discrete-time distributed event-triggered delay subgradient algorithm. To facilitate convergence analysis, a consensus-only “virtual” agent technique is employed, dynamically adjusting its state (active or asleep) to ensure a delay-free information flow among agents. Additionally, an augmentation approach is proposed to ensure that the augmented time-varying weight matrix is row-stochastic. It is shown that the agents’ local decision variables converge to the same optimal solution, in the case of reasonable communication delays and event-triggering thresholds. Numerical examples show the efficiency of the proposed algorithm.
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来源期刊
IEEE Transactions on Systems Man Cybernetics-Systems
IEEE Transactions on Systems Man Cybernetics-Systems AUTOMATION & CONTROL SYSTEMS-COMPUTER SCIENCE, CYBERNETICS
CiteScore
18.50
自引率
11.50%
发文量
812
审稿时长
6 months
期刊介绍: The IEEE Transactions on Systems, Man, and Cybernetics: Systems encompasses the fields of systems engineering, covering issue formulation, analysis, and modeling throughout the systems engineering lifecycle phases. It addresses decision-making, issue interpretation, systems management, processes, and various methods such as optimization, modeling, and simulation in the development and deployment of large systems.
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