Federated Learning With Position-Aware Neurons

Xin-Chun Li; Yi-Chu Xu; Shaoming Song; bingshuai Li; Yinchuan Li; Yunfeng Shao; De-Chuan Zhan

2022 CVPR CVPR 2022

Federated Learning With Position-Aware Neurons

Abstract

Federated Learning (FL) fuses collaborative models from local nodes without centralizing users' data. The permutation invariance property of neural networks and the non-i.i.d. data across clients make the locally updated parameters imprecisely aligned, disabling the coordinate-based parameter averaging. Traditional neurons do not explicitly consider position information. Hence, we propose Position-Aware Neurons (PANs) as an alternative, fusing position-related values (i.e., position encodings) into neuron outputs. PANs couple themselves to their positions and minimize the possibility of dislocation, even updating on heterogeneous data. We turn on/off PANs to disable/enable the permutation invariance property of neural networks. PANs are tightly coupled with positions when applied to FL, making parameters across clients pre-aligned and facilitating coordinate-based parameter averaging. PANs are algorithm-agnostic and could universally improve existing FL algorithms. Furthermore, "FL with PANs" is simple to implement and computationally friendly.

🌉 Interdisciplinary Bridge — Artificial Intelligence and Deep Learning and Machine Learning

🧭 Keyword Pioneer — position-aware neuron

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Xin-Chun Li , Yi-Chu Xu , Shaoming Song , bingshuai Li , Yinchuan Li , Yunfeng Shao , De-Chuan Zhan

Topics

Artificial Intelligence > Learning Paradigms > Federated Learning Deep Learning > Architectures > Neural Networks Machine Learning > Application Areas > Model Compression Machine Learning > Learning Types > Federated Learning Artificial Intelligence > Core AI > Efficient Computing Deep Learning > Optimization & Theory > Neural Network Optimization Deep Learning > Learning Types > Representation Learning

Keywords

federated learning distributed training model averaging client-server architecture position encoding permutation invariance parameter averaging neural network position-aware neuron

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