Language Driven Occupancy Prediction
- URL: http://arxiv.org/abs/2411.16072v1
- Date: Mon, 25 Nov 2024 03:47:10 GMT
- Title: Language Driven Occupancy Prediction
- Authors: Zhu Yu, Bowen Pang, Lizhe Liu, Runmin Zhang, Qihao Peng, Maochun Luo, Sheng Yang, Mingxia Chen, Si-Yuan Cao, Hui-Liang Shen,
- Abstract summary: We introduce LOcc, an effective and generalizable framework for open-vocabulary occupancy prediction.
Our pipeline presents a feasible way to dig into the valuable semantic information of images.
LOcc effectively uses the generated language ground truth to guide the learning of 3D language volume.
- Score: 11.208411421996052
- License:
- Abstract: We introduce LOcc, an effective and generalizable framework for open-vocabulary occupancy (OVO) prediction. Previous approaches typically supervise the networks through coarse voxel-to-text correspondences via image features as intermediates or noisy and sparse correspondences from voxel-based model-view projections. To alleviate the inaccurate supervision, we propose a semantic transitive labeling pipeline to generate dense and finegrained 3D language occupancy ground truth. Our pipeline presents a feasible way to dig into the valuable semantic information of images, transferring text labels from images to LiDAR point clouds and utimately to voxels, to establish precise voxel-to-text correspondences. By replacing the original prediction head of supervised occupancy models with a geometry head for binary occupancy states and a language head for language features, LOcc effectively uses the generated language ground truth to guide the learning of 3D language volume. Through extensive experiments, we demonstrate that our semantic transitive labeling pipeline can produce more accurate pseudo-labeled ground truth, diminishing labor-intensive human annotations. Additionally, we validate LOcc across various architectures, where all models consistently outperform state-ofthe-art zero-shot occupancy prediction approaches on the Occ3D-nuScenes dataset. Notably, even based on the simpler BEVDet model, with an input resolution of 256 * 704,Occ-BEVDet achieves an mIoU of 20.29, surpassing previous approaches that rely on temporal images, higher-resolution inputs, or larger backbone networks. The code for the proposed method is available at https://github.com/pkqbajng/LOcc.
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