Unsupervised Vision and Vision-motion Calibration Strategies for PointGoal Navigation in Indoor Environment

10/02/2022
by   Yijun Cao, et al.
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PointGoal navigation in indoor environment is a fundamental task for personal robots to navigate to a specified point. Recent studies solved this PointGoal navigation task with near-perfect success rate in photo-realistically simulated environments, under the assumptions with noiseless actuation and most importantly, perfect localization with GPS and compass sensors. However, accurate GPS signal can not be obtained in real indoor environment. To improve the pointgoal navigation accuracy in real indoor, we proposed novel vision and vision-motion calibration strategies to train visual and motion path integration in unsupervised manner. Sepecifically, visual calibration computes the relative pose of the agent from the re-projection error of two adjacent frames, and then replaces the accurate GPS signal with the path integration. This pseudo position is also used to calibrate self-motion integration which assists agent to update their internal perception of location and helps improve the success rate of navigation. The training and inference process only use RGB, depth, collision as well as self-action information. The experiments show that the proposed system achieves satisfactory results and outperforms the partially supervised learning algorithms on the popular Gibson dataset.

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