Federated Learning (FL) has emerged as a revolutionary paradigm in the context of artificial intelligence, enabling the training of models in a decentralized manner and ensuring data privacy and security. This paper aims to conduct an in-depth analysis of Federated Learning, exploring the fundamental concepts, benefits and challenges. Case studies in healthcare will be illustrated to demonstrate how FL can improve medical image analysis, monitoring via wearable devices, and drug discovery while preserving patient confidentiality. Finally, challenges related to data heterogeneity, security, and communication complexity, especially in edge computing and IoT environments, are examined and how they can be mitigated through the use of pattern. Additionally, a new Centralized Data Loader approach will be discussed.
Ammirata Germano, Gennaro Pezzullo, Contino Salvatore, Di Martino Beniamino , Pirrone Roberto (2025). Federated Learning Framework for Privacy-Preserving AI in Healthcare. In Advanced Information Networking and Applications, Proceedings of the 39th International Conference on Advanced Information Networking and Applications (AINA-2025), Volume 6 (pp. 316-325). Springer [10.1007/978-3-031-87778-0_31].
Federated Learning Framework for Privacy-Preserving AI in Healthcare
Ammirata Germano;Contino Salvatore
;Pirrone Roberto
2025-04-16
Abstract
Federated Learning (FL) has emerged as a revolutionary paradigm in the context of artificial intelligence, enabling the training of models in a decentralized manner and ensuring data privacy and security. This paper aims to conduct an in-depth analysis of Federated Learning, exploring the fundamental concepts, benefits and challenges. Case studies in healthcare will be illustrated to demonstrate how FL can improve medical image analysis, monitoring via wearable devices, and drug discovery while preserving patient confidentiality. Finally, challenges related to data heterogeneity, security, and communication complexity, especially in edge computing and IoT environments, are examined and how they can be mitigated through the use of pattern. Additionally, a new Centralized Data Loader approach will be discussed.
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