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- Title
Ground Adaptability of Crawler Mobile Robots with Sub-Crawler Rotary Joint Compliance.
- Authors
Watanabe, Ayaka; Mitsuhashi, Tomonori; Okugawa, Masayuki; Ogane, Katsuji; Kimura, Tetsuya; Kinugasa, Tetsuya; Ohtsubo, Yoshikazu
- Abstract
Remote-controlled mobile robots are expected to be used in difficult- or impossible-to-access environments for inspection workers and responders, such as in investigations and search activities at accident/disaster sites and inspection/investigation work at plants/infrastructure. Among ground mobile robots, crawler mobile robots with sub-crawlers (also known as ground-adaptive crawler robots) excel at in-ground adaptability and stack escape; however, their operators require advanced remote-control technology and experience. Therefore, the introduction of semi-autonomous control to assist the operator is required. In this study, the principle of the pushing-up sequence and the possibility of mobiligence emerging from interaction with obstacles caused by the robot movement were described. In addition, the sub-crawler rotary joint's compliance, which significantly contributes to ground adaptability, was hypothesized, and a compliance control system design method that uses the sub-crawler constraint angle as a design condition was proposed. It was confirmed that the model robot for the evaluation, which used the proposed method, could adapt to unknown obstacles without measuring their height and shape and traverse them based on experimental results. In addition, based on the numerical calculation results, it was determined that the optimum solution for the restriction angle of the sub-crawler was approximately 35°–50° from the perspective of propulsive force and tumble stability.
- Subjects
MOBILE robots; ROBOT motion; NUMERICAL calculations; SYSTEMS design; ROBOTS
- Publication
Journal of Robotics & Mechatronics, 2024, Vol 36, Issue 3, p732
- ISSN
0915-3942
- Publication type
Article
- DOI
10.20965/jrm.2024.p0732