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Unsupervised deep learning based ego motion estimation with a downward facing camera

Maximilian Gilles, Sascha Ibrahimpasic

发表年份
2021
引用次数
7
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摘要

Abstract Knowing the robot's pose is a crucial prerequisite for mobile robot tasks such as collision avoidance or autonomous navigation. Using powerful predictive models to estimate transformations for visual odometry via downward facing cameras is an understudied area of research. This work proposes a novel approach based on deep learning for estimating ego motion with a downward looking camera. The network can be trained completely unsupervised and is not restricted to a specific motion model. We propose two neural network architectures based on the Early Fusion and Slow Fusion design principle: “EarlyBird” and “SlowBird”. Both networks share a Spatial Transformer layer for image warping and are trained with a modified structural similarity index (SSIM) loss function. Experiments carried out in simulation and for a real world differential drive robot show similar and partially better results of our proposed deep learning based approaches compared to a state-of-the-art method based on fast Fourier transformation.

关键词

Artificial intelligenceOdometryComputer scienceComputer visionImage warpingDeep learningArtificial neural networkMotion estimationRobotMobile robot

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