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Multi-task Domain Adaptation for Computation Offloading in Edge-intelligence Networks

Machine Learning 2025-01-15 v1 Artificial Intelligence

Abstract

In the field of multi-access edge computing (MEC), efficient computation offloading is crucial for improving resource utilization and reducing latency in dynamically changing environments. This paper introduces a new approach, termed as Multi-Task Domain Adaptation (MTDA), aiming to enhance the ability of computational offloading models to generalize in the presence of domain shifts, i.e., when new data in the target environment significantly differs from the data in the source domain. The proposed MTDA model incorporates a teacher-student architecture that allows continuous adaptation without necessitating access to the source domain data during inference, thereby maintaining privacy and reducing computational overhead. Utilizing a multi-task learning framework that simultaneously manages offloading decisions and resource allocation, the proposed MTDA approach outperforms benchmark methods regarding mean squared error and accuracy, particularly in environments with increasing numbers of users. It is observed by means of computer simulation that the proposed MTDA model maintains high performance across various scenarios, demonstrating its potential for practical deployment in emerging MEC applications.

Keywords

Cite

@article{arxiv.2501.07585,
  title  = {Multi-task Domain Adaptation for Computation Offloading in Edge-intelligence Networks},
  author = {Runxin Han and Bo Yang and Zhiwen Yu and Xuelin Cao and George C. Alexandropoulos and Chau Yuen},
  journal= {arXiv preprint arXiv:2501.07585},
  year   = {2025}
}
R2 v1 2026-06-28T21:05:04.551Z