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[bibtex]@InProceedings{Wang_2024_WACV, author = {Wang, Shuo and Li, Jing and Zhao, Zibo and Lian, Dongze and Huang, Binbin and Wang, Xiaomei and Li, Zhengxin and Gao, Shenghua}, title = {TSP-Transformer: Task-Specific Prompts Boosted Transformer for Holistic Scene Understanding}, booktitle = {Proceedings of the IEEE/CVF Winter Conference on Applications of Computer Vision (WACV)}, month = {January}, year = {2024}, pages = {925-934} }
TSP-Transformer: Task-Specific Prompts Boosted Transformer for Holistic Scene Understanding
Abstract
Holistic scene understanding includes semantic segmentation, surface normal estimation, object boundary detection, depth estimation, etc. The key aspect of this problem is to learn representation effectively, as each subtask builds upon not only correlated but also distinct attributes. Inspired by visual-prompt tuning, we propose a Task-Specific Prompts Transformer, dubbed TSP-Transformer, for holistic scene understanding. It features a vanilla transformer in the early stage and tasks-specific prompts transformer encoder in the lateral stage, where tasks-specific prompts are augmented. By doing so, the transformer layer learns the generic information from the shared parts and is endowed with task-specific capacity. First, the tasks-specific prompts serve as induced priors for each task effectively. Moreover, the task-specific prompts can be seen as switches to favor task-specific representation learning for different tasks. Extensive experiments on NYUD-v2 and PASCAL-Context show that our method achieves state-of-the-art performance, validating the effectiveness of our method for holistic scene understanding.
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