具有量化通信的分布式聚合优化

IF 0.9 4区计算机科学 Q4 COMPUTER SCIENCE, CYBERNETICS

Kybernetika Pub Date : 2022-04-07 DOI:10.14736/kyb-2022-1-0123

Ziqin Chen, Shu Liang

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引用次数: 8

摘要

本文主要研究通信瓶颈条件下的聚合优化问题。聚合优化是使局部代价函数的和最小。每个代价函数不仅依赖于局部状态变量，而且依赖于全局状态变量函数的和。目标是在没有中央协调器的情况下，通过分布式计算和代理网络上的本地高效通信来解决聚合优化问题。利用变量跟踪方法寻找全局状态变量，采用量化方案减少优化过程中的通信开销，提出了一种新的分布式量化算法D-QAGT，在有限位通信条件下跟踪最优变量。虽然量化可能会丢失传输信息，但我们的算法仍然可以以线性收敛速度获得精确的最优解。通过一个最优布局问题的仿真实验，验证了理论结果的正确性。

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Distributed aggregative optimization with quantized communication

In this paper, we focus on an aggregative optimization problem under communication bottleneck. The aggregative optimization is to minimize the sum of local cost functions. Each cost function depends on not only local state variables but also the sum of functions of global state variables. The goal is to solve the aggregative optimization problem through distributed computation and local eﬃcient communication over a network of agents without a central coordinator. Using the variable tracking method to seek the global state variables and the quantization scheme to reduce the communication cost spent in the optimization process, we develop a novel distributed quantized algorithm, called D-QAGT, to track the optimal variables with ﬁnite bits communication. Although quantization may lose transmitting information, our algorithm can still achive the exact optimal solution with linear convergence rate. Simulation experiments on an optimal placement problem is carried out to verify the correctness of the theoretical results.

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来源期刊

Kybernetika 工程技术-计算机：控制论

CiteScore

1.30

自引率

20.00%

发文量

审稿时长

6 months

期刊介绍： Kybernetika is the bi-monthly international journal dedicated for rapid publication of high-quality, peer-reviewed research articles in fields covered by its title. The journal is published by Nakladatelství Academia, Centre of Administration and Operations of the Czech Academy of Sciences for the Institute of Information Theory and Automation of The Czech Academy of Sciences. Kybernetika traditionally publishes research results in the fields of Control Sciences, Information Sciences, Statistical Decision Making, Applied Probability Theory, Random Processes, Operations Research, Fuzziness and Uncertainty Theories, as well as in the topics closely related to the above fields.