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Thread: Rising STAR, miniautre highly reconfigurable robot, Bio-Inspired and Medical Robotics Lab, Ben Gurion University of the Negev, Beersheba, Israel

  1. #1

    Rising STAR, miniautre highly reconfigurable robot, Bio-Inspired and Medical Robotics Lab, Ben Gurion University of the Negev, Beersheba, Israel

    Rising STAR - Rising Sprawl-Tuned Autonomous Robot

    Developer - Bio-Inspired and Medical Robotics Lab

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    Rising STAR, a miniautre highly reconfigurable robot

    Published on Jun 20, 2018

    Rising STAR (RSTAR) is a new highly reconfigurable robot fitted with both sprawling and 4bar extension mechanisms.

    RSTAR is capable of crawling over and under different obstacles using different techniques. It can extend it height and width by 3 fold and move its center of mass in the foreaft direction enabling it to climb over obstacles higher than its own wheels. It can also perform a turtle gait to crawl over challenging terrain without rotating its wheels.

    Developed at the Ben Gurion University of the Negev By David Zarrouk and Liran Yehezkel and published in IEEE RAL and ICRA 2018.

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    Article "Meet the new creepy, crawly search-and-rescue robot"
    RSTAR, developed by researchers at Ben-Gurion University, can navigate large obstacles and carry payloads necessary for search-and-rescue operations.

    August 21, 2018

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    Parent robot (BIG STAR) collaborating with a child robot (RSTAR)

    Jan 14, 2021

    A new parent STAR robot is presented. The parent robot has a tail on which the child robot can climb. By collaborating together, the two robots can reach locations that neither can reach on its own. the parent robot can also supply the child robot with energy by recharging its batteries. The parent STAR can dispatch and recuperate the child STAR automatically (when aligned). The robots are fitted with sensors and controllers and have automatic capabilities but make no decisions on their own.
    Designed at the Bio-inspired and Medical Robotics Lab at the Ben Gurion University of the Negev.
    By D. Yacobi, L. Yehezkel, O. Inbar, and D. Zarrouk, "Design and modeling of a parent Big STAR robot platform that carries a child RSTAR", Applied Sciences MDPI 2020.

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    RSTAR robot climbing in circular and rectangular pipes

    Mar 29, 2022

    This video describes the climbing of RSTAR in a pipe.
    Climbing in a pipe is very tricky if you do not use a robot specifically designed for climbing. The transitioning between one configuration to another requires low friction while climbing requires high friction.
    The transitions require to simultaneously control different mechanisms. Therefore, automatic climbing was more efficient than radio control by a human operator.
    "Analysis of climbing in circular and rectangular pipes with a reconfigurable sprawling robot" by Ori Inbar and David Zarrouk, Mechanism and Machine Theory, 2022.
    sciencedirect.com/science/article/pii/S0094114X2200101X

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