LMR-CBT: learning modality-fused representations with CB-Transformer for multimodal emotion recognition from unaligned multimodal sequences

Learning modality-fused representations and processing unaligned multimodal sequences are meaningful and challenging in multimodal emotion recognition.Existing approaches use directional pairwise attention or a message hub to fuse language,visual,and audio modalities.However,these fusion methods are often quadratic in complexity with respect to the modal sequence length,bring redundant information and are not efficient.In this paper,we propose an efficient neural network to learn modality-fused representations with CB-Transformer(LMR-CBT)for multimodal emotion recognition from unaligned multi-modal sequences.Specifically,we first perform feature extraction for the three modalities respectively to obtain the local structure of the sequences.Then,we design an innovative asymmetric transformer with cross-modal blocks(CB-Transformer)that enables complementary learning of different modalities,mainly divided into local temporal learning,cross-modal feature fusion and global self-attention representations.In addition,we splice the fused features with the original features to classify the emotions of the sequences.Finally,we conduct word-aligned and unaligned experiments on three challenging datasets,IEMOCAP,CMU-MOSI,and CMU-MOSEI.The experimental results show the superiority and efficiency of our proposed method in both settings.Compared with the mainstream methods,our approach reaches the state-of-the-art with a minimum number of parameters.

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TACFN:Transformer-Based Adaptive Cross-Modal Fusion Network for Multimodal Emotion Recognition

The fusion technique is the key to the multimodal emotion recognition task.Recently,cross-modal attention-based fusion methods have demonstrated high performance and strong robustness.However,cross-modal attention suffers from redundant features and does not capture complementary features well.We find that it is not necessary to use the entire information of one modality to reinforce the other during cross-modal interaction,and the features that can reinforce a modality may contain only a part of it.To this end,we design an innovative Transformer-based Adaptive Cross-modal Fusion Network(TACFN).Specifically,for the redundant features,we make one modality perform intra-modal feature selection through a self-attention mechanism,so that the selected features can adaptively and efficiently interact with another modality.To better capture the complementary information between the modalities,we obtain the fused weight vector by splicing and use the weight vector to achieve feature reinforcement of the modalities.We apply TCAFN to the RAVDESS and IEMOCAP datasets.For fair comparison,we use the same unimodal representations to validate the effectiveness of the proposed fusion method.The experimental results show that TACFN brings a significant performance improvement compared to other methods and reaches the state-of-the-art performance.All code and models could be accessed from https://github.com/shuzihuaiyu/TACFN.