SAV-SE: Scene-aware Audio-Visual Speech Enhancement with Selective State Space Model
This addresses the problem of speech enhancement in scenarios where facial or lip movements are occluded or distant, offering a novel approach for applications in noisy environments.
The paper tackles speech enhancement by using contextual visual cues from the surrounding environment, such as objects or scenes in synchronized video, to identify and filter out noise types, achieving superior performance over competitive methods on public datasets like MUSIC, AVSpeech, and AudioSet.
Speech enhancement plays an essential role in various applications, and the integration of visual information has been demonstrated to bring substantial advantages. However, the majority of current research concentrates on the examination of facial and lip movements, which can be compromised or entirely inaccessible in scenarios where occlusions occur or when the camera view is distant. Whereas contextual visual cues from the surrounding environment have been overlooked: for example, when we see a dog bark, our brain has the innate ability to discern and filter out the barking noise. To this end, in this paper, we introduce a novel task, i.e. SAV-SE. To our best knowledge, this is the first proposal to use rich contextual information from synchronized video as auxiliary cues to indicate the type of noise, which eventually improves the speech enhancement performance. Specifically, we propose the VC-S$^2$E method, which incorporates the Conformer and Mamba modules for their complementary strengths. Extensive experiments are conducted on public MUSIC, AVSpeech and AudioSet datasets, where the results demonstrate the superiority of VC-S$^2$E over other competitive methods. We will make the source code publicly available. Project demo page: https://AVSEPage.github.io/