Related papers: Completed Feature Disentanglement Learning for Multimodal MRIs Analysis

Completed Feature Disentanglement Learning for Multimodal MRIs Analysis

URL: http://arxiv.org/abs/2407.04916v1
Date: Sat, 6 Jul 2024 01:49:38 GMT
Title: Completed Feature Disentanglement Learning for Multimodal MRIs Analysis
Authors: Tianling Liu, Hongying Liu, Fanhua Shang, Lequan Yu, Tong Han, Liang Wan,
Abstract summary: Feature disentanglement (FD)-based methods have achieved significant success in multimodal learning (MML) We propose a novel Complete Feature Disentanglement (CFD) strategy that recovers the lost information during feature decoupling. Specifically, the CFD strategy not only identifies modality-shared and modality-specific features, but also decouples shared features among subsets of multimodal inputs.
Score: 36.32164729310868
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Multimodal MRIs play a crucial role in clinical diagnosis and treatment. Feature disentanglement (FD)-based methods, aiming at learning superior feature representations for multimodal data analysis, have achieved significant success in multimodal learning (MML). Typically, existing FD-based methods separate multimodal data into modality-shared and modality-specific features, and employ concatenation or attention mechanisms to integrate these features. However, our preliminary experiments indicate that these methods could lead to a loss of shared information among subsets of modalities when the inputs contain more than two modalities, and such information is critical for prediction accuracy. Furthermore, these methods do not adequately interpret the relationships between the decoupled features at the fusion stage. To address these limitations, we propose a novel Complete Feature Disentanglement (CFD) strategy that recovers the lost information during feature decoupling. Specifically, the CFD strategy not only identifies modality-shared and modality-specific features, but also decouples shared features among subsets of multimodal inputs, termed as modality-partial-shared features. We further introduce a new Dynamic Mixture-of-Experts Fusion (DMF) module that dynamically integrates these decoupled features, by explicitly learning the local-global relationships among the features. The effectiveness of our approach is validated through classification tasks on three multimodal MRI datasets. Extensive experimental results demonstrate that our approach outperforms other state-of-the-art MML methods with obvious margins, showcasing its superior performance.

Related papers

Supervised Multi-Modal Fission Learning [19.396207029419813]
Learning from multimodal datasets can leverage complementary information and improve performance in prediction tasks. We propose a Multi-Modal Fission Learning model that simultaneously identifies globally joint, partially joint, and individual components.
arXiv Detail & Related papers (2024-09-30T17:58:03Z)
Asynchronous Multimodal Video Sequence Fusion via Learning Modality-Exclusive and -Agnostic Representations [19.731611716111566]
We propose a Multimodal fusion approach for learning modality-Exclusive and modality-Agnostic representations. We introduce a predictive self-attention module to capture reliable context dynamics within modalities. A hierarchical cross-modal attention module is designed to explore valuable element correlations among modalities. A double-discriminator strategy is presented to ensure the production of distinct representations in an adversarial manner.
arXiv Detail & Related papers (2024-07-06T04:36:48Z)
Modality Prompts for Arbitrary Modality Salient Object Detection [57.610000247519196]
This paper delves into the task of arbitrary modality salient object detection (AM SOD) It aims to detect salient objects from arbitrary modalities, eg RGB images, RGB-D images, and RGB-D-T images. A novel modality-adaptive Transformer (MAT) will be proposed to investigate two fundamental challenges of AM SOD.
arXiv Detail & Related papers (2024-05-06T11:02:02Z)
Joint Multimodal Transformer for Emotion Recognition in the Wild [49.735299182004404]
Multimodal emotion recognition (MMER) systems typically outperform unimodal systems. This paper proposes an MMER method that relies on a joint multimodal transformer (JMT) for fusion with key-based cross-attention.
arXiv Detail & Related papers (2024-03-15T17:23:38Z)
FedMM: Federated Multi-Modal Learning with Modality Heterogeneity in Computational Pathology [3.802258033231335]
Federated Multi-Modal (FedMM) is a learning framework that trains multiple single-modal feature extractors to enhance subsequent classification performance. FedMM notably outperforms two baselines in accuracy and AUC metrics.
arXiv Detail & Related papers (2024-02-24T16:58:42Z)
Joint Self-Supervised and Supervised Contrastive Learning for Multimodal MRI Data: Towards Predicting Abnormal Neurodevelopment [5.771221868064265]
We present a novel joint self-supervised and supervised contrastive learning method to learn the robust latent feature representation from multimodal MRI data. Our method has the capability to facilitate computer-aided diagnosis within clinical practice, harnessing the power of multimodal data.
arXiv Detail & Related papers (2023-12-22T21:05:51Z)
Unified Multi-modal Unsupervised Representation Learning for Skeleton-based Action Understanding [62.70450216120704]
Unsupervised pre-training has shown great success in skeleton-based action understanding. We propose a Unified Multimodal Unsupervised Representation Learning framework, called UmURL. UmURL exploits an efficient early-fusion strategy to jointly encode the multi-modal features in a single-stream manner.
arXiv Detail & Related papers (2023-11-06T13:56:57Z)
Exploiting Modality-Specific Features For Multi-Modal Manipulation Detection And Grounding [54.49214267905562]
We construct a transformer-based framework for multi-modal manipulation detection and grounding tasks. Our framework simultaneously explores modality-specific features while preserving the capability for multi-modal alignment. We propose an implicit manipulation query (IMQ) that adaptively aggregates global contextual cues within each modality.
arXiv Detail & Related papers (2023-09-22T06:55:41Z)
A Low-rank Matching Attention based Cross-modal Feature Fusion Method for Conversational Emotion Recognition [56.20144064187554]
This paper develops a novel cross-modal feature fusion method for the Conversational emotion recognition (CER) task. By setting a matching weight and calculating attention scores between modal features row by row, LMAM contains fewer parameters than the self-attention method. We show that LMAM can be embedded into any existing state-of-the-art DL-based CER methods and help boost their performance in a plug-and-play manner.
arXiv Detail & Related papers (2023-06-16T16:02:44Z)
Exploiting modality-invariant feature for robust multimodal emotion recognition with missing modalities [76.08541852988536]
We propose to use invariant features for a missing modality imagination network (IF-MMIN) We show that the proposed model outperforms all baselines and invariantly improves the overall emotion recognition performance under uncertain missing-modality conditions.
arXiv Detail & Related papers (2022-10-27T12:16:25Z)
Meta-modal Information Flow: A Method for Capturing Multimodal Modular Disconnectivity in Schizophrenia [11.100316178148994]
We introduce a method that takes advantage of multimodal data in addressing the hypotheses of disconnectivity and dysfunction within schizophrenia (SZ) We propose a modularity-based method that can be applied to the GGM to identify links that are associated with mental illness across a multimodal data set. Through simulation and real data, we show our approach reveals important information about disease-related network disruptions that are missed with a focus on a single modality.
arXiv Detail & Related papers (2020-01-06T18:46:41Z)

This list is automatically generated from the titles and abstracts of the papers in this site.