Agreement Disagreement Guided Knowledge Transfer for Cross-Scene Hyperspectral Imaging
- URL: http://arxiv.org/abs/2512.08990v1
- Date: Mon, 08 Dec 2025 02:25:27 GMT
- Title: Agreement Disagreement Guided Knowledge Transfer for Cross-Scene Hyperspectral Imaging
- Authors: Lu Huo, Haimin Zhang, Min Xu,
- Abstract summary: We propose an Agreement Disagreement Guided Knowledge Transfer (ADGKT) framework to enhance cross-scene transfer.<n>The framework includes GradVac and LogitNorm, which align gradient directions to mitigate conflicts between source and target domains.<n>The disagreement component consists of a Disagreement Restriction (DiR) and an ensemble strategy, which capture diverse predictive target features.
- Score: 13.858601384061197
- License: http://creativecommons.org/licenses/by-nc-nd/4.0/
- Abstract: Knowledge transfer plays a crucial role in cross-scene hyperspectral imaging (HSI). However, existing studies often overlook the challenges of gradient conflicts and dominant gradients that arise during the optimization of shared parameters. Moreover, many current approaches fail to simultaneously capture both agreement and disagreement information, relying only on a limited shared subset of target features and consequently missing the rich, diverse patterns present in the target scene. To address these issues, we propose an Agreement Disagreement Guided Knowledge Transfer (ADGKT) framework that integrates both mechanisms to enhance cross-scene transfer. The agreement component includes GradVac, which aligns gradient directions to mitigate conflicts between source and target domains, and LogitNorm, which regulates logit magnitudes to prevent domination by a single gradient source. The disagreement component consists of a Disagreement Restriction (DiR) and an ensemble strategy, which capture diverse predictive target features and mitigate the loss of critical target information. Extensive experiments demonstrate the effectiveness and superiority of the proposed method in achieving robust and balanced knowledge transfer across heterogeneous HSI scenes.
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