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    Please use this identifier to cite or link to this item: https://tkuir.lib.tku.edu.tw/dspace/handle/987654321/125266


    Title: Vision-based mobile collaborative robot incorporating a multi-camera localization system
    Authors: Hsu;C, -C.;Hwang;P, -J.;Wang;W, -Y.;Wang;Y, -T.;Lu, and;C, -K.
    Keywords: Collaborative robot(cobot);mobile cobot;multicamera localization;natural language processing(NLP)
    Date: 2023-08-07
    Issue Date: 2024-03-12 12:06:15 (UTC+8)
    Publisher: Institute of Electrical and Electronics Engineers
    Abstract: As the Industry 4.0 landscape unfolds, collaborative robots (cobots) play an important role in intelligent manufacturing. Compared with industrial robots, cobots are more flexible and intuitive in programming, especially for industrial and home service applications; however, there are still issues to be solved, including understanding human intention in a natural way, adaptability to execute tasks, and robot mobility in a working environment. As an attempt to solve the problems aforementioned, in this article, we propose a modularized solution for mobile cobot systems, where the cobot equipped with a multicamera localization scheme for self-localization can understand the human intention via human voice commands to execute the tasks in an unseen scenario in a small-area working environment. As far as intention understanding is concerned, we devise a natural language processing approach to establish an action base to describe human commands. According to the action base, the robot can then execute the tasks by planning a trajectory with the help of an object localization module, which integrates the point cloud and the object detected by YOLOv4 to locate the object’s position in 3-D space. Depending on where the cobot interacts with the object, the cobot might need to navigate around the working environment. Thus, we also establish a low-cost and high-efficiency multicamera localization system with ArUco markers to locate the mobile cobot in a larger sensing area. The experimental results show that the proposed vision-based mobile cobot can successfully interact with a human operator to assemble a wooden chair in a small workshop.
    Relation: IEEE Sensors Journal 23(18), p.21853-21861
    DOI: 10.1109/JSEN.2023.3300301
    Appears in Collections:[Department of Artificial Intelligence] Journal Article

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