We present early pilot-studies of a new international project, developing advanced robotics to handle nuclear waste. Despite enormous remote handling requirements, there has been remarkably little use of robots by the nuclear industry. The few robots deployed have been directly teleoperated in rudimentary ways, with no advanced control methods or autonomy. Most remote handling is still done by an aging workforce of highly skilled experts, using 1960s style mechanical Master-Slave devices. In contrast, this paper explores how novice human operators can rapidly learn to control modern robots to perform basic manipulation tasks; also how autonomous robotics techniques can be used for operator assistance, to increase throughput rates, decrease errors, and enhance safety. We compare humans directly teleoperating a robot arm, against human-supervised semi-autonomous control exploiting computer vision, visual servoing and autonomous grasping algorithms. We show how novice operators rapidly improve their performance with training; suggest how training needs might scale with task complexity; and demonstrate how advanced autonomous robotics techniques can help human operators improve their overall task performance. An additional contribution of this paper is to show how rigorous experimental and analytical methods from human factors research, can be applied to perform principled scientific evaluations of human test-subjects controlling robots to perform practical manipulative tasks.


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    Title :

    Towards advanced robotic manipulation for nuclear decommissioning: a pilot study on tele-operation and autonomy


    Contributors:
    Marturi, N (author) / Rastegarpanah, A (author) / Takahashi, C (author) / Adjigble, M (author) / Stolkin, R (author) / Zurek, S (author) / Kopicki, M (author) / Talha, M (author) / Kuo, JA (author) / Bekiroglu, Y (author)

    Publication date :

    2017-05-23


    Remarks:

    In: Madhavan, Raj and Bhavani, Rao R, (eds.) Proceedings of the 2016 International Conference on Robotics and Automation for Humanitarian Applications (RAHA). (pp. pp. 78-85). IEEE: India: Kollam. (2017)


    Type of media :

    Paper


    Type of material :

    Electronic Resource


    Language :

    English



    Classification :

    DDC:    629



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