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다관절 유영로봇에 적용하기 위한 물방개의 유영패턴 분석

Swimming pattern analysis of a Diving beetle for Aquatic Locomotion Applying to Articulated Underwater Robots

  • Kim, Hee-Joong (Mechatronics Engineering, Chungnam National University) ;
  • Lee, Ji-Hong (Mechatronics Engineering, Chungnam National University)
  • 투고 : 2012.09.05
  • 심사 : 2012.11.01
  • 발행 : 2012.11.30

초록

In these days, researches about underwater robots have been actively in progress for the purposes of ocean detection and resource exploration. Unlike general underwater robots such as ROV(Remotely Operated Vehicle) and AUV(Autonomous Underwater Vehicle) which have propellers, an articulated underwater robot which is called Crabster has been being developed in KORDI(Korea Ocean Research & Development Institute) with many cooperation organizations since 2010. The robot is expected to be able to walk and swim under the sea with its legs. Among many researching fields of this project, we are focusing on a swimming section. In order to find effective swimming locomotion for the robot, we approached this subject in terms of Biomimetics. As a model of optimized swimming organism in nature, diving beetles were chosen. In the paper, swimming motions of diving beetles were analyzed in viewpoint of robotics for applying them into the swimming motion of the robot. After modeling the kinematics of diving beetle through robotics engineering technique, we obtained swimming patterns of the one of living diving beetles, and then compared them with calculated optimal swimming patterns of a robot leg. As the first trial to compare the locomotion data of legs of the diving beetle with a robot leg, we have sorted two representative swimming patterns such as forwarding and turning. Experimental environment has been set up to get the motion data of diving beetles. The experimental equipment consists of a transparent aquarium and a high speed camera. Various swimming motions of diving beetles were recorded with the camera. After classifying swimming patterns of the diving beetle, we can get angular data of each joint on hind legs by image processing software, Image J. The data were applied to an optimized algorithm for swimming of a robot leg which was designed by robotics engineering technique. Through this procedure, simulated results which show trajectories of a robot leg were compared with trajectories of a leg of a diving beetle in desired directions. As a result, we confirmed considerable similarity in the result of trajectory and joint angles comparison.

키워드

참고문헌

  1. Daehyun Kim, Jihong Lee, Seok‐young Kim, Jong Hwa Lee, Bong‐Hwan Jeon, Optimal Swimming pattern Research for underwater Robot, Department of Mechatronics Engineering Chung‐Nam National university and Martime & Ocean Engineering Research institute in Korea, 2011
  2. Huosheng Hu, Biologically Inspired Design of Autonomous Robotic Fish at Essex, Department of Computer Science, University of Essex, Colchester CO4 3SQ, United Kingdom, 2006
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  4. Chang‐Hyun Chung, Sang‐Hyo Lee, Kyoung‐Sik Kim, You‐Sung Cha, and Young‐Sun Ryuh, Optimization of Input Parameters by Using DOE for Dynamic Analysis of Bio‐inspired Robotic Fish 'Ichthus', University of Science & Technology, Korea Institute of Industrial Technology, 2010
  5. MotionScope M1.0.3, Software of transferring video images, Citing Internet sources URL http://redrake.com/
  6. Image J, Image processing software, Citing Internet sources URL http://rsbweb.nih.gov/ij/
  7. Bong‐Hwan Jeon, Modeling and Drag‐Optimized Joint Motion Planning of Underwater Robotic Arms, ph. D dissertation, Chung‐Nam National University in Korea, 1996
  8. Daehyun Kim, Jihong Lee, Jong Hwa Lee, Bong‐ Hwan Jeon, Underwater robot leg design based on analysis for the swimming pattern of underwater diology, Department of Mechatronics Engineering Chung‐Nam National university and Martime&Ocean Engineering Research institute in Korea, 2011
  9. Daehyun Kim, Jihong Lee, Bong‐Hwan Jeon, Optimazation simulation considering swimming pattern analysis of underwater biology and fluid drag coefficients, Department of Mechatronics Engineering Chung‐Nam National university and Martime&Ocean Engineering Research institute in Korea, 2012

피인용 문헌

  1. Controllable water surface to underwater transition through electrowetting in a hybrid terrestrial-aquatic microrobot vol.9, pp.1, 2018, https://doi.org/10.1038/s41467-018-04855-9
  2. 유영과 보행이 가능한 생체모방 수중 로봇의 설계개념과 근사모델을 활용한 모의실험 vol.9, pp.1, 2012, https://doi.org/10.7746/jkros.2014.9.1.057
  3. 생체모방기술을 접목한 파라미터 공간에서의 로봇제어 기법 vol.12, pp.5, 2012, https://doi.org/10.20910/jase.2018.12.5.16