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Multi-Task Learning for Industrial Mobile Robot Perception Using a Simulated Warehouse Dataset

Dimitrios Arapis, Andrea Vallone, Milad Jami, Lazaros Nalpantidis

Year
2023
Citations
2

Abstract

Autonomous industrial mobile robots need advanced perception capabilities to operate safely and human-compliantly in shared working environments. To achieve a high-level understanding of the mobile robots' surroundings, this paper investigates Multi-Task Learning approaches to process multiple tasks simultaneously and potentially improve the generalization performance. Our work alleviates the scarcity of datasets that are relevant for industrial settings by introducing and making publicly available a simulated warehouse dataset (Warehous-eSIM) covering semantic segmentation, depth estimation and surface normals estimation tasks. We collect and examine numerous MTL task-balancing techniques for industrial mobile robot perception. Our experiments show that MTL methods that have shown superior performance on different computer vision datasets fail to improve over the single-task learning setup in our scenario. This implies that the performance of those approaches is very dependent on the considered dataset, which further highlights the value of introducing new relevant datasets focused on industrial mobile robot environments.

Keywords

Computer scienceTask (project management)Mobile robotRobotArtificial intelligenceMachine learningMulti-task learningPerceptionHuman–computer interactionProcess (computing)

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