Robust Fine-Tuning of Deep Neural Networks with Hessian-based Generalization Guarantees

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Estimated time to first reproduction: a few days. Risk flags: No repository-level reproducibility signals are currently available, Estimate is based on paper-only reproduction flow. No direct maintained implementation was found. Use the paper PDF and citation graph to design a baseline reproduction.

Haotian Ju, Dongyue Li, Hongyang R. Zhang

Published: Jun 6, 2022

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DOI Publisher

We consider fine-tuning a pretrained deep neural network on a target task. We study the generalization properties of fine-tuning to understand the problem of overfitting, which has often been observed (e.g., when the target dataset is small or when the training labels are noisy). Existing generalization measures for deep networks depend on notions such as distance from the initialization (i.e., the pretrained network ...

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) of the fine-tuned model and noise stability properties of deep networks. This paper identifies a Hessian-based distance measure through PAC-Bayesian analysis, which is shown to correlate well with observed generalization gaps of fine-tuned models. Theoretically, we prove Hessian distance-based generalization bounds for fine-tuned models. We also describe an extended study of fine-tuning against label noise, where overfitting remains a critical problem. We present an algorithm and a generalization error guarantee for this algorithm under a class conditional independent noise model. Empirically, we observe that the Hessian-based distance measure can match the scale of the observed generalization gap of fine-tuned models in practice. We also test our algorithm on several image classification tasks with noisy training labels, showing gains over prior methods and decreases in the Hessian distance measure of the fine-tuned model.

Technical details

Canonical key: doi-10.48550_arxiv.2206.02659

Cache status: Stale (SWR served)

Generated at: Jun 18, 2026, 9:41 PM

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HF provider: ok (mixed)

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We consider fine-tuning a pretrained deep neural network on a target task.

Implementation Evidence Summary

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Evidence disclosure

Evidence graph: 2 refs, 1 links.

Utility signals: depth 45/100, grounding 58/100, status medium.

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Start from related paper: Benign Overfitting in Classification: Provably Counter Label Noise with Larger Models.
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Time to first repro: a few days

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Last checked: Jun 18, 2026

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Fine-Tuning Algorithm Algorithm model

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Fine-Tuning dataset Overfitting dataset Algorithm benchmark

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Tasks

Overfitting, Generalization, Initialization, Hessian matrix, Computer science, Measure (data warehouse), Artificial neural network, Noise (video)

Methods

Algorithm

Domains

Artificial intelligence, Machine learning, Mathematics

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