Ming Li, Xiong Yang, Chaofan Wu, Jiaheng Li, Pinzhi Wang, Xuejiao Hu, Sidan Du, Yang Li
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引用次数: 0
Abstract
Omnidirectional Depth Estimation has broad application prospects in fields
such as robotic navigation and autonomous driving. In this paper, we propose a
robotic prototype system and corresponding algorithm designed to validate
omnidirectional depth estimation for navigation and obstacle avoidance in
real-world scenarios for both robots and vehicles. The proposed HexaMODE system
captures 360$^\circ$ depth maps using six surrounding arranged fisheye cameras.
We introduce a combined spherical sweeping method and optimize the model
architecture for proposed RtHexa-OmniMVS algorithm to achieve real-time
omnidirectional depth estimation. To ensure high accuracy, robustness, and
generalization in real-world environments, we employ a teacher-student
self-training strategy, utilizing large-scale unlabeled real-world data for
model training. The proposed algorithm demonstrates high accuracy in various
complex real-world scenarios, both indoors and outdoors, achieving an inference
speed of 15 fps on edge computing platforms.
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