DenseScan: Advancing 3D Scene Understanding with 2D Dense Annotation
- URL: http://arxiv.org/abs/2512.00226v1
- Date: Fri, 28 Nov 2025 22:02:10 GMT
- Title: DenseScan: Advancing 3D Scene Understanding with 2D Dense Annotation
- Authors: Zirui Wang, Tao Zhang,
- Abstract summary: We introduce DenseScan, a novel dataset with detailed multi-level descriptions generated by an automated pipeline.<n>Our approach enables dense captioning of scene elements, ensuring comprehensive object-level descriptions that capture context-sensitive details.<n>By coupling geometric detail with semantic richness, DenseScan broadens the range of downstream tasks, from detailed visual-language navigation to interactive question answering.
- Score: 24.911632300638534
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: 3D understanding is a key capability for real-world AI assistance. High-quality data plays an important role in driving the development of the 3D understanding community. Current 3D scene understanding datasets often provide geometric and instance-level information, yet they lack the rich semantic annotations necessary for nuanced visual-language tasks.In this work, we introduce DenseScan, a novel dataset with detailed multi-level descriptions generated by an automated pipeline leveraging multi-view 2D images and multimodal large language models (MLLMs). Our approach enables dense captioning of scene elements, ensuring comprehensive object-level descriptions that capture context-sensitive details. Furthermore, we extend these annotations through scenario-based question generation, producing high-level queries that integrate object properties, spatial relationships, and scene context. By coupling geometric detail with semantic richness, DenseScan broadens the range of downstream tasks, from detailed visual-language navigation to interactive question answering. Experimental results demonstrate that our method significantly enhances object-level understanding and question-answering performance in 3D environments compared to traditional annotation pipelines. We release both the annotated dataset and our annotation pipeline to facilitate future research and applications in robotics, augmented reality, and beyond. Through DenseScan, we aim to catalyze new avenues in 3D scene understanding, allowing researchers and practitioners to tackle the complexities of real-world environments with richer, more contextually aware annotations.
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