Federated Learning and Its Role in the Privacy Preservation of IoT Devices

Federated learning (FL) is a cutting-edge artificial intelligence approach. It is a decentralized problem-solving technique that allows users to train using massive data. Unprocessed information is stored in advanced technology by a secret confidentiality service, which incorporates machine learning...

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Bibliographic Details
Published inFuture internet Vol. 14; no. 9; p. 246
Main Authors Alam, Tanweer, Gupta, Ruchi
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2022
Subjects
Access control
Algorithms
Artificial intelligence
Communications networks
Datasets
Federated learning
Internet of Things
Learning
Machine learning
Neural networks
Privacy
Scientific papers
security
Servers
Software
System effectiveness
Trends
Asia-Pacific region
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Summary:Federated learning (FL) is a cutting-edge artificial intelligence approach. It is a decentralized problem-solving technique that allows users to train using massive data. Unprocessed information is stored in advanced technology by a secret confidentiality service, which incorporates machine learning (ML) training while removing data connections. As researchers in the field promote ML configurations containing a large amount of private data, systems and infrastructure must be developed to improve the effectiveness of advanced learning systems. This study examines FL in-depth, focusing on application and system platforms, mechanisms, real-world applications, and process contexts. FL creates robust classifiers without requiring information disclosure, resulting in highly secure privacy policies and access control privileges. The article begins with an overview of FL. Then, we examine technical data in FL, enabling innovation, contracts, and software. Compared with other review articles, our goal is to provide a more comprehensive explanation of the best procedure systems and authentic FL software to enable scientists to create the best privacy preservation solutions for IoT devices. We also provide an overview of similar scientific papers and a detailed analysis of the significant difficulties encountered in recent publications. Furthermore, we investigate the benefits and drawbacks of FL and highlight comprehensive distribution scenarios to demonstrate how specific FL models could be implemented to achieve the desired results.
ISSN:1999-5903
1999-5903
DOI:10.3390/fi14090246