Enabling efficient and low-effort decentralized federated learning with the EdgeFL framework

IF 3.8 2区 计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Information and Software Technology Pub Date : 2024-10-17 DOI:10.1016/j.infsof.2024.107600
Hongyi Zhang , Jan Bosch , Helena Holmström Olsson
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引用次数: 0

Abstract

Context:

Federated Learning (FL) has gained prominence as a solution for preserving data privacy in machine learning applications. However, existing FL frameworks pose challenges for software engineers due to implementation complexity, limited customization options, and scalability issues. These limitations prevent the practical deployment of FL, especially in dynamic and resource-constrained edge environments, preventing its widespread adoption.

Objective:

To address these challenges, we propose EdgeFL, an efficient and low-effort FL framework designed to overcome centralized aggregation, implementation complexity and scalability limitations. EdgeFL applies a decentralized architecture that eliminates reliance on a central server by enabling direct model training and aggregation among edge nodes, which enhances fault tolerance and adaptability to diverse edge environments.

Methods:

We conducted experiments and a case study to demonstrate the effectiveness of EdgeFL. Our approach focuses on reducing weight update latency and facilitating faster model evolution on edge devices.

Results:

Our findings indicate that EdgeFL outperforms existing FL frameworks in terms of learning efficiency and performance. By enabling quicker model evolution on edge devices, EdgeFL enhances overall efficiency and responsiveness to changing data patterns.

Conclusion:

EdgeFL offers a solution for software engineers and companies seeking the benefits of FL, while effectively overcoming the challenges and privacy concerns associated with traditional FL frameworks. Its decentralized approach, simplified implementation, combined with enhanced customization and fault tolerance, make it suitable for diverse applications and industries.
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利用 EdgeFL 框架实现高效、低功耗的分散式联合学习
背景:作为一种在机器学习应用中保护数据隐私的解决方案,联合学习(FL)的地位日益突出。然而,由于实施复杂、定制选项有限以及可扩展性问题,现有的联合学习框架给软件工程师带来了挑战。这些限制阻碍了 FL 的实际部署,尤其是在动态和资源受限的边缘环境中,从而阻碍了 FL 的广泛应用。目标:为了应对这些挑战,我们提出了 EdgeFL,一个高效、低功耗的 FL 框架,旨在克服集中式聚合、实施复杂性和可扩展性的限制。EdgeFL采用分散式架构,通过在边缘节点之间直接进行模型训练和聚合,消除了对中央服务器的依赖,从而增强了容错能力和对多样化边缘环境的适应性。结果:我们的研究结果表明,EdgeFL在学习效率和性能方面优于现有的FL框架。结论:EdgeFL 为寻求 FL 优势的软件工程师和公司提供了一种解决方案,同时有效克服了与传统 FL 框架相关的挑战和隐私问题。其分散式方法、简化的实施以及增强的定制和容错能力,使其适用于各种应用和行业。
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来源期刊
Information and Software Technology
Information and Software Technology 工程技术-计算机:软件工程
CiteScore
9.10
自引率
7.70%
发文量
164
审稿时长
9.6 weeks
期刊介绍: Information and Software Technology is the international archival journal focusing on research and experience that contributes to the improvement of software development practices. The journal''s scope includes methods and techniques to better engineer software and manage its development. Articles submitted for review should have a clear component of software engineering or address ways to improve the engineering and management of software development. Areas covered by the journal include: • Software management, quality and metrics, • Software processes, • Software architecture, modelling, specification, design and programming • Functional and non-functional software requirements • Software testing and verification & validation • Empirical studies of all aspects of engineering and managing software development Short Communications is a new section dedicated to short papers addressing new ideas, controversial opinions, "Negative" results and much more. Read the Guide for authors for more information. The journal encourages and welcomes submissions of systematic literature studies (reviews and maps) within the scope of the journal. Information and Software Technology is the premiere outlet for systematic literature studies in software engineering.
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