From Distributed Machine Learning To Federated Learning: In The View Of Data Privacy And Security

October 19, 2020 Β· Declared Dead Β· πŸ› Concurrency and Computation

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Authors Sheng Shen, Tianqing Zhu, Di Wu, Wei Wang, Wanlei Zhou arXiv ID 2010.09258 Category cs.DC: Distributed Computing Citations 100 Venue Concurrency and Computation Last Checked 4 months ago
Abstract
Federated learning is an improved version of distributed machine learning that further offloads operations which would usually be performed by a central server. The server becomes more like an assistant coordinating clients to work together rather than micro-managing the workforce as in traditional DML. One of the greatest advantages of federated learning is the additional privacy and security guarantees it affords. Federated learning architecture relies on smart devices, such as smartphones and IoT sensors, that collect and process their own data, so sensitive information never has to leave the client device. Rather, clients train a sub-model locally and send an encrypted update to the central server for aggregation into the global model. These strong privacy guarantees make federated learning an attractive choice in a world where data breaches and information theft are common and serious threats. This survey outlines the landscape and latest developments in data privacy and security for federated learning. We identify the different mechanisms used to provide privacy and security, such as differential privacy, secure multi-party computation and secure aggregation. We also survey the current attack models, identifying the areas of vulnerability and the strategies adversaries use to penetrate federated systems. The survey concludes with a discussion on the open challenges and potential directions of future work in this increasingly popular learning paradigm.
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