Interpretable Data Fusion for Distributed Learning: A Representative Approach via Gradient Matching

Interpretable Data Fusion for Distributed Learning: A Representative Approach via Gradient Matching

This paper introduces a representative-based approach for distributed learning that transforms multiple raw data points into a virtual representation. Unlike traditional distributed learning methods such as Federated Learning, which do not offer human interpretability, our method makes complex machi...

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Bibliographic Details
Published in:2024 27th International Conference on Information Fusion (FUSION) pp. 1 - 8
Main Authors: Fan, Mengchen, Geng, Baocheng, Li, Keren, Wang, Xueqian, Varshney, Pramod K.
Format: Conference Proceeding
Language:English
Published: ISIF 08-07-2024
Subjects:
Computer aided instruction
Data fusion
Distance learning
Distributed databases
distributed learning
Federated learning
Human computer interaction
human integrated AI
Human-machine systems
interpretability
Machine intelligence
Simulation
Training
Transforms
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Summary:This paper introduces a representative-based approach for distributed learning that transforms multiple raw data points into a virtual representation. Unlike traditional distributed learning methods such as Federated Learning, which do not offer human interpretability, our method makes complex machine learning processes accessible and comprehensible. It achieves this by condensing extensive datasets into digestible formats, thus fostering intuitive human-machine interactions. Additionally, this approach maintains privacy and communication efficiency, and it matches the training performance of models using raw data. Simulation results show that our approach is competitive with or outperforms traditional Federated Learning in accuracy and convergence, especially in scenarios with complex models and a higher number of clients. This framework marks a step forward in integrating human intuition with machine intelligence, which potentially enhances human-machine learning interfaces and collaborative efforts.
DOI:10.23919/FUSION59988.2024.10706324