Invariant Representation Guided Multimodal Sentiment Decoding with Sequential Variation Regularization
Abstract
Achieving consistent sentiment representation across diverse modalities remains a key challenge in multimodal sentiment analysis. However, rapid emotional fluctuations over time often introduce instability, leading to compromised prediction performance. To address this challenge, we propose a robust sentiment representation dual enhancement strategy that simultaneously enhances the temporal and modality dimensions, guided by targeted mechanisms in both forward and backward propagation. Specifically, in the modality dimension, we introduce a modality invariant fusion mechanism that fosters stable cross-modal representations, which aim to capture the common and stable representations shared across different modalities. In the temporal dimension, we impose a specialized sequential variation regularization term that regulates the model's learning trajectory during backward propagation, which is essentially total variation regularization degenerated into one-dimensional linear differences. Extensive experiments on three standard public datasets validate the effectiveness of our proposed approach.
Cite
@article{arxiv.2409.00143,
title = {Invariant Representation Guided Multimodal Sentiment Decoding with Sequential Variation Regularization},
author = {Guoyang Xu and Zhenxi Song and Junqi Xue and Yuxin Liu and Zirui Wang and Zhiguo Zhang},
journal= {arXiv preprint arXiv:2409.00143},
year = {2026}
}
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