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Main Authors: Syu, Jia-Hao, Lin, Jerry Chun-Wei, Yu, Philip S.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.12133
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author Syu, Jia-Hao
Lin, Jerry Chun-Wei
Yu, Philip S.
author_facet Syu, Jia-Hao
Lin, Jerry Chun-Wei
Yu, Philip S.
contents As more and more automatic vehicles, power consumption prediction becomes a vital issue for task scheduling and energy management. Most research focuses on automatic vehicles in transportation, but few focus on automatic ground vehicles (AGVs) in smart factories, which face complex environments and generate large amounts of data. There is an inevitable trade-off between feature diversity and interference. In this paper, we propose Distributed Multi-Head learning (DMH) systems for power consumption prediction in smart factories. Multi-head learning mechanisms are proposed in DMH to reduce noise interference and improve accuracy. Additionally, DMH systems are designed as distributed and split learning, reducing the client-to-server transmission cost, sharing knowledge without sharing local data and models, and enhancing the privacy and security levels. Experimental results show that the proposed DMH systems rank in the top-2 on most datasets and scenarios. DMH-E system reduces the error of the state-of-the-art systems by 14.5% to 24.0%. Effectiveness studies demonstrate the effectiveness of Pearson correlation-based feature engineering, and feature grouping with the proposed multi-head learning further enhances prediction performance.
format Preprint
id arxiv_https___arxiv_org_abs_2501_12133
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Distributed Multi-Head Learning Systems for Power Consumption Prediction
Syu, Jia-Hao
Lin, Jerry Chun-Wei
Yu, Philip S.
Machine Learning
As more and more automatic vehicles, power consumption prediction becomes a vital issue for task scheduling and energy management. Most research focuses on automatic vehicles in transportation, but few focus on automatic ground vehicles (AGVs) in smart factories, which face complex environments and generate large amounts of data. There is an inevitable trade-off between feature diversity and interference. In this paper, we propose Distributed Multi-Head learning (DMH) systems for power consumption prediction in smart factories. Multi-head learning mechanisms are proposed in DMH to reduce noise interference and improve accuracy. Additionally, DMH systems are designed as distributed and split learning, reducing the client-to-server transmission cost, sharing knowledge without sharing local data and models, and enhancing the privacy and security levels. Experimental results show that the proposed DMH systems rank in the top-2 on most datasets and scenarios. DMH-E system reduces the error of the state-of-the-art systems by 14.5% to 24.0%. Effectiveness studies demonstrate the effectiveness of Pearson correlation-based feature engineering, and feature grouping with the proposed multi-head learning further enhances prediction performance.
title Distributed Multi-Head Learning Systems for Power Consumption Prediction
topic Machine Learning
url https://arxiv.org/abs/2501.12133