Open AccessPosted Content
A Survey on Federated Learning Systems: Vision, Hype and Reality for Data Privacy and Protection
TL;DR: A comprehensive review of federated learning systems can be found in this paper, where the authors provide a thorough categorization of the existing systems according to six different aspects, including data distribution, machine learning model, privacy mechanism, communication architecture, scale of federation and motivation of federation.
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Abstract: Federated learning has been a hot research topic in enabling the collaborative training of machine learning models among different organizations under the privacy restrictions. As researchers try to support more machine learning models with different privacy-preserving approaches, there is a requirement in developing systems and infrastructures to ease the development of various federated learning algorithms. Similar to deep learning systems such as PyTorch and TensorFlow that boost the development of deep learning, federated learning systems (FLSs) are equivalently important, and face challenges from various aspects such as effectiveness, efficiency, and privacy. In this survey, we conduct a comprehensive review on federated learning systems. To achieve smooth flow and guide future research, we introduce the definition of federated learning systems and analyze the system components. Moreover, we provide a thorough categorization for federated learning systems according to six different aspects, including data distribution, machine learning model, privacy mechanism, communication architecture, scale of federation and motivation of federation. The categorization can help the design of federated learning systems as shown in our case studies. By systematically summarizing the existing federated learning systems, we present the design factors, case studies, and future research opportunities.
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Citations
A survey on security and privacy of federated learning
Viraaji Mothukuri,Reza M. Parizi,Seyedamin Pouriyeh,Yan Huang,Ali Dehghantanha,Gautam Srivastava,Gautam Srivastava +6 more
TL;DR: This paper aims to provide a comprehensive study concerning FL’s security and privacy aspects that can help bridge the gap between the current state of federated AI and a future in which mass adoption is possible.
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Model-Contrastive Federated Learning
Qinbin Li,Bingsheng He,Dawn Song +2 more
- 01 Jun 2021
TL;DR: Zhang et al. as discussed by the authors proposed model-contrastive federated learning (MOON) to correct the local training of individual parties, i.e., conducting contrastive learning in model-level.
Federated Learning for Internet of Things: A Comprehensive Survey
TL;DR: In this paper, a comprehensive survey of the emerging applications of federated learning in IoT networks is provided, which explores and analyzes the potential of FL for enabling a wide range of IoT services, including IoT data sharing, data offloading and caching, attack detection, localization, mobile crowdsensing and IoT privacy and security.
A Survey on Federated Learning: The Journey From Centralized to Distributed On-Site Learning and Beyond
Sawsan Abdulrahman,Hanine Tout,Hakima Ould-Slimane,Azzam Mourad,Chamseddine Talhi,Mohsen Guizani +5 more
TL;DR: In this article, a survey of federated learning (FL) topics and research fields is presented, including core system models and designs, application areas, privacy and security, and resource management.
641
Federated Learning: A Survey on Enabling Technologies, Protocols, and Applications.
TL;DR: A more thorough summary of the most relevant protocols, platforms, and real-life use-cases of FL is provided to enable data scientists to build better privacy-preserved solutions for industries in critical need of FL.
References
•Posted Content
Differential Privacy-enabled Federated Learning for Sensitive Health Data
Olivia Choudhury,Aris Gkoulalas-Divanis,Theodoros Salonidis,Issa Sylla,Yoonyoung Park,Grace Hsu,Amar K. Das +6 more
TL;DR: A federated learning framework that can learn a global model from distributed health data held locally at different sites and uses a differential privacy mechanism to further protect the model from potential privacy attacks is introduced.
207
FDML: A Collaborative Machine Learning Framework for Distributed Features
Yaochen Hu,Di Niu,Jianming Yang,Shengping Zhou +3 more
- 25 Jul 2019
TL;DR: Experimental results have demonstrated that the proposed FDML system can be used to significantly enhance app recommendation in Tencent MyApp by leveraging user and item features from other apps, while preserving the locality and privacy of features in each individual app to a high degree.
202
•Proceedings Article
MODELDB: A System for Machine Learning Model Management.
Manasi Vartak
- 01 Jan 2017
TL;DR: The ongoing work on ModelDB, a novel end-to-end system for the management of machine learning models, is described, which introduces a common layer of abstractions to represent models and pipelines, and the ModelDB frontend allows visual exploration and analyses of models via a web-based interface.
•Posted Content
Local Differential Privacy based Federated Learning for Internet of Things
TL;DR: This article proposes to integrate federated learning and local differential privacy (LDP) to facilitate the crowdsourcing applications to achieve the machine learning model, and proposes four LDP mechanisms to perturb gradients generated by vehicles.
198
•Posted Content
Chameleon: A Hybrid Secure Computation Framework for Machine Learning Applications
M. Sadegh Riazi,Christian Weinert,Oleksandr Tkachenko,Ebrahim M. Songhori,Thomas Schneider,Farinaz Koushanfar +5 more
TL;DR: Chameleon combines the best aspects of generic SFE protocols with the ones that are based upon additive secret sharing, and improves the efficiency of mining and classification of encrypted data for algorithms based upon heavy matrix multiplications.
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