Causality Model for Semantic Understanding on Videos
It addresses performance drops in video semantic understanding for AI applications, but appears incremental as it applies existing causal principles to specific video tasks.
The paper tackles the problem of video understanding being hindered by data imbalance and distribution shifts, proposing causal modeling to improve robustness in Video Relation Detection and Video Question Answering tasks.
After a decade of prosperity, the development of video understanding has reached a critical juncture, where the sole reliance on massive data and complex architectures is no longer a one-size-fits-all solution to all situations. The presence of ubiquitous data imbalance hampers DNNs from effectively learning the underlying causal mechanisms, leading to significant performance drops when encountering distribution shifts, such as long-tail imbalances and perturbed imbalances. This realization has prompted researchers to seek alternative methodologies to capture causal patterns in video data. To tackle these challenges and increase the robustness of DNNs, causal modeling emerged as a principle to discover the true causal patterns behind the observed correlations. This thesis focuses on the domain of semantic video understanding and explores the potential of causal modeling to advance two fundamental tasks: Video Relation Detection (VidVRD) and Video Question Answering (VideoQA).