Less Is More: Infrared and Visible Images Fusion via Semantic-Guided Mixture of Multi-Feature Experts

Infrared (IR) and visible image fusion (IVIF) has become prevalent in recent years. By leveraging the complementary characteristics of infrared and visible images, we can obtain visually-appealing fused images, which further facilitate subsequent scene understanding and object detection from day to night. Integrating complementary information while simultaneously eliminating redundancy is a crucial challenge in fusion. Most of available deep learning based methods, after being trained, execute static inference on all pairs of infrared and visible images. They struggle to effectively handle redundancy of modality across diverse scenarios, resulting in superfluous information such as thermal noise in infrared images and artifacts in visible images. In this paper, we propose an IVIF method based on a semantic-guided mixture of multi-feature experts, where multiple types of features are extracted, each assigned to a dedicated expert network specialized in processing a specific type of features. Through an expert routing mechanism, these experts are chosen dynamically, ensuring that the most significant features of each image modality are routed to a specific group of experts. In order to align fusion task with subsequent semantic segmentation task, we introduce a segmentation head to semantically guide the selection of the complementary features. Extensive experiments on five infrared and visible image fusion and segmentation benchmarks demonstrate the effectiveness of our method, both for image fusion and subsequent semantic segmentation tasks. The code will be available at https://github.com/ZhilongNiu/SD-MoMFE.