Audio-Visual Class-Incremental Learning
This addresses the challenge of incremental learning in multimodal AI systems, specifically for audio-visual video recognition, with incremental contributions to handling forgetting in class-incremental scenarios.
The paper tackles the problem of audio-visual class-incremental learning for video recognition, showing that joint audio-visual modeling improves performance but current methods fail to preserve semantic similarity and correlations as incremental steps grow, and proposes AV-CIL with Dual-Audio-Visual Similarity Constraint and Visual Attention Distillation, achieving significant outperformance over existing methods on three new datasets.
In this paper, we introduce audio-visual class-incremental learning, a class-incremental learning scenario for audio-visual video recognition. We demonstrate that joint audio-visual modeling can improve class-incremental learning, but current methods fail to preserve semantic similarity between audio and visual features as incremental step grows. Furthermore, we observe that audio-visual correlations learned in previous tasks can be forgotten as incremental steps progress, leading to poor performance. To overcome these challenges, we propose AV-CIL, which incorporates Dual-Audio-Visual Similarity Constraint (D-AVSC) to maintain both instance-aware and class-aware semantic similarity between audio-visual modalities and Visual Attention Distillation (VAD) to retain previously learned audio-guided visual attentive ability. We create three audio-visual class-incremental datasets, AVE-Class-Incremental (AVE-CI), Kinetics-Sounds-Class-Incremental (K-S-CI), and VGGSound100-Class-Incremental (VS100-CI) based on the AVE, Kinetics-Sounds, and VGGSound datasets, respectively. Our experiments on AVE-CI, K-S-CI, and VS100-CI demonstrate that AV-CIL significantly outperforms existing class-incremental learning methods in audio-visual class-incremental learning. Code and data are available at: https://github.com/weiguoPian/AV-CIL_ICCV2023.