在多样化全局模型上进行具有自适应中央加速功能的定制联合学习

IF 10.2 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Lei Zhao, Lin Cai, Wu-Sheng Lu
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引用次数: 0

摘要

我们考虑的是一种与其他机器进行协作学习的环境,其中每台机器都有自己的利益。如何在具有不同需求的机器之间进行有效协作,使每个参与者的利益最大化,是联合学习(FL)面临的一个挑战。在联合学习中,全局模型试图从每台机器获取知识,而将所有局部模型聚合成一个最优解对某些机器来说可能并不可取。为了有效利用其他机器的知识,同时获得针对单个机器的定制解决方案,我们提出了具有多样化全局模型的加速联合训练程序。基于联合随机方差降低梯度(FSVRG)框架,我们提出了基于模型的分组机制与自适应中央加速(MA-FSVRG)和基于梯度的分组机制与自适应中央加速(GA-FSVRG),以应对异构需求的挑战。仿真结果表明,提议的 MA-FSVRG 和 GA-FSVRG 比最先进的 FL 基线更具优势。与 GA-FSVRG 相比,MA-FSVRG 表现出更高的性能稳定性,并显著节省了本地计算成本。另一方面,GA-FSVRG 获得了更高的测试精度和更快的收敛速度,尤其是在单机参与度有限的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tailored Federated Learning With Adaptive Central Acceleration on Diversified Global Models.

We consider a setting engaging in collaborative learning with other machines where each individual machine has its own interests. How to effectively collaborate among machines with diverse requirements to maximize the profits of each participant poses a challenge in federated learning (FL). Our studies are motivated by the observation that in FL the global model attempts to acquire knowledge from each individual machine, while aggregating all local models into one optimal solution may not be desirable for some machines. To effectively leverage the knowledge of others while obtaining the customized solution for individual machine, we propose the accelerated federated training procedures with diversified global models. Based on the federated stochastic variance reduced gradient (FSVRG) framework, we propose the model-based grouping mechanism with adaptive central acceleration (MA-FSVRG) and gradients-based grouping mechanism with adaptive central acceleration (GA-FSVRG) to tackle the challenges of heterogeneous demands. The simulation results demonstrate the advantages of the proposed MA-FSVRG and GA-FSVRG over the state-of-the-art FL baselines. MA-FSVRG exhibits greater stability in performance and significant cost savings in local computation expenses compared to GA-FSVRG. On the other hand, GA-FSVRG attains higher test accuracy and faster convergence speed, particularly in scenarios with limited individual machine participation.

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来源期刊
IEEE transactions on neural networks and learning systems
IEEE transactions on neural networks and learning systems COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
CiteScore
23.80
自引率
9.60%
发文量
2102
审稿时长
3-8 weeks
期刊介绍: The focus of IEEE Transactions on Neural Networks and Learning Systems is to present scholarly articles discussing the theory, design, and applications of neural networks as well as other learning systems. The journal primarily highlights technical and scientific research in this domain.
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