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Autori principali: Yuan, Hua, Meng, Xuran, Wang, Qiufeng, Xia, Shiyu, Xu, Ning, Yang, Xu, Wang, Jing, Geng, Xin, Rui, Yong
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2509.22056
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author Yuan, Hua
Meng, Xuran
Wang, Qiufeng
Xia, Shiyu
Xu, Ning
Yang, Xu
Wang, Jing
Geng, Xin
Rui, Yong
author_facet Yuan, Hua
Meng, Xuran
Wang, Qiufeng
Xia, Shiyu
Xu, Ning
Yang, Xu
Wang, Jing
Geng, Xin
Rui, Yong
contents Parameter transfer is a central paradigm in transfer learning, enabling knowledge reuse across tasks and domains by sharing model parameters between upstream and downstream models. However, when only a subset of parameters from the upstream model is transferred to the downstream model, there remains a lack of theoretical understanding of the conditions under which such partial parameter reuse is beneficial and of the factors that govern its effectiveness. To address this gap, we analyze a setting in which both the upstream and downstream models are ReLU convolutional neural networks (CNNs). Within this theoretical framework, we characterize how the inherited parameters act as carriers of universal knowledge and identify key factors that amplify their beneficial impact on the target task. Furthermore, our analysis provides insight into why, in certain cases, transferring parameters can lead to lower test accuracy on the target task than training a new model from scratch. To our best knowledge, our theory is the first to provide a dynamic analysis for parameter transfer and also the first to prove the existence of negative transfer theoretically. Numerical experiments and real-world data experiments are conducted to empirically validate our theoretical findings.
format Preprint
id arxiv_https___arxiv_org_abs_2509_22056
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Towards Understanding Feature Learning in Parameter Transfer
Yuan, Hua
Meng, Xuran
Wang, Qiufeng
Xia, Shiyu
Xu, Ning
Yang, Xu
Wang, Jing
Geng, Xin
Rui, Yong
Machine Learning
Parameter transfer is a central paradigm in transfer learning, enabling knowledge reuse across tasks and domains by sharing model parameters between upstream and downstream models. However, when only a subset of parameters from the upstream model is transferred to the downstream model, there remains a lack of theoretical understanding of the conditions under which such partial parameter reuse is beneficial and of the factors that govern its effectiveness. To address this gap, we analyze a setting in which both the upstream and downstream models are ReLU convolutional neural networks (CNNs). Within this theoretical framework, we characterize how the inherited parameters act as carriers of universal knowledge and identify key factors that amplify their beneficial impact on the target task. Furthermore, our analysis provides insight into why, in certain cases, transferring parameters can lead to lower test accuracy on the target task than training a new model from scratch. To our best knowledge, our theory is the first to provide a dynamic analysis for parameter transfer and also the first to prove the existence of negative transfer theoretically. Numerical experiments and real-world data experiments are conducted to empirically validate our theoretical findings.
title Towards Understanding Feature Learning in Parameter Transfer
topic Machine Learning
url https://arxiv.org/abs/2509.22056