A Robust Privacy-Preserving Federated Learning Model Against Model Poisoning Attacks

Yazdinejad, Abbas; Dehghantanha, Ali; Karimipour, Hadis; Srivastava, Gautam; Parizi, Reza M.

doi:10.1109/tifs.2024.3420126

articleIEEE Transactions on Information Forensics and SecurityJan 1, 2024Closed access

A Robust Privacy-Preserving Federated Learning Model Against Model Poisoning Attacks

AYAbbas Yazdinejad ADAli Dehghantanha HKHadis Karimipour GSGautam Srivastava RMReza M. Parizi

University of Guelph · University of Calgary · +2 more institutions

Indexed incrossref

Abstract

Although federated learning offers a level of privacy by aggregating user data without direct access, it remains inherently vulnerable to various attacks, including poisoning attacks where malicious actors submit gradients that reduce model accuracy. In addressing model poisoning attacks, existing defense strategies primarily concentrate on detecting suspicious local gradients over plaintext. However, detecting non-independent and identically distributed encrypted gradients poses significant challenges for existing methods. Moreover, tackling computational complexity and communication overhead becomes crucial in privacy-preserving federated learning, particularly in the context of encrypted gradients. To…

Citation impact

305

total citations

FWCI: 95.21
Percentile: 100%
References: 0

Citations per year

Authors

5

Topics & keywords

Topics

Keywords

Computer science
Computer security
Data modeling
Privacy protection
Information privacy
Internet privacy
Database

UN Sustainable Development Goals

Gender equality

No related works found for this paper.