RaSim: A Range-aware High-fidelity RGB-D Data Simulation Pipeline for Real-world Applications

RaSim: A Range-aware High-fidelity RGB-D Data Simulation Pipeline for Real-world Applications

In robotic vision, a de-facto paradigm is to learn in simulated environments and then transfer to real-world applications, which poses an essential challenge in bridging the sim-to-real domain gap. While mainstream works tackle this problem in the RGB domain, we focus on depth data synthesis and dev...

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Hauptverfasser: Liu, Xingyu, Zhang, Chenyangguang, Wang, Gu, Zhang, Ruida, Ji, Xiangyang
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Computer Vision and Pattern Recognition
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Zusammenfassung:In robotic vision, a de-facto paradigm is to learn in simulated environments and then transfer to real-world applications, which poses an essential challenge in bridging the sim-to-real domain gap. While mainstream works tackle this problem in the RGB domain, we focus on depth data synthesis and develop a range-aware RGB-D data simulation pipeline (RaSim). In particular, high-fidelity depth data is generated by imitating the imaging principle of real-world sensors. A range-aware rendering strategy is further introduced to enrich data diversity. Extensive experiments show that models trained with RaSim can be directly applied to real-world scenarios without any finetuning and excel at downstream RGB-D perception tasks.
DOI:10.48550/arxiv.2404.03962