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Robust Robotic Pouring using Audition and Haptics

Hongzhuo Liang, Chuangchuang Zhou, Shuang Li, Xiaojian Ma, Norman Hendrich, Timo Gerkmann, Fuchun Sun, Marcus Stoffel, Jianwei Zhang

202021 citationsDOIOpen Access PDF

Abstract

Robust and accurate estimation of liquid height lies as an essential part of pouring tasks for service robots. However, vision-based methods often fail in occluded conditions while audio-based methods cannot work well in a noisy environment. We instead propose a multimodal pouring network (MP-Net) that is able to robustly predict liquid height by conditioning on both audition and haptics input. MP-Net is trained on a self-collected multimodal pouring dataset. This dataset contains 300 robot pouring recordings with audio and force/torque measurements for three types of target containers. We also augment the audio data by inserting robot noise. We evaluated MP-Net on our collected dataset and a wide variety of robot experiments. Both network training results and robot experiments demonstrate that MP-Net is robust against noise and changes to the task and environment. Moreover, we further combine the predicted height and force data to estimate the shape of the target container.

Topics & Concepts

Haptic technologyRobotComputer scienceArtificial intelligenceTask (project management)Computer visionNoise (video)Robotic armHuman–computer interactionTeleroboticsWork (physics)Variety (cybernetics)Noise measurementRoboticsService robotTraining setRobustness (evolution)Speech recognitionActivity recognitionTask analysisMatching (statistics)Tactile and Sensory InteractionsTeleoperation and Haptic SystemsRobot Manipulation and Learning
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