한국해양공학회지 (Journal of Ocean Engineering and Technology)

  • 제36권1호
  • /
  • Pages.50-60
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  • 2022
  • /
  • 1225-0767(pISSN)
  • /
  • 2287-6715(eISSN)
한국해양공학회 (Korean Society of Ocean Engineers)
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Study on Extension of the 6-DOF Measurement Area for a Model Ship by Developing Auto-tracking Technology for Towing Carriage in Deep Ocean Engineering Tank

  • Jung, Jae-sang (Korea Research Institute of Ship & Ocean Engineering (KRISO)) ;
  • Lee, Young-guk (Korea Research Institute of Ship & Ocean Engineering (KRISO)) ;
  • Seo, Min-guk (Korea Research Institute of Ship & Ocean Engineering (KRISO)) ;
  • Park, In-Bo (Korea Research Institute of Ship & Ocean Engineering (KRISO)) ;
  • Kim, Jin-ha (Korea Research Institute of Ship & Ocean Engineering (KRISO)) ;
  • Kang, Dong-bae (ENC system. Corp.)
  • 투고 : 2021.08.03
  • 심사 : 2021.12.30
  • 발행 : 2022.02.28
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초록

The deep ocean engineering basin (DOEB) of the Korea Research Institute of Ship and Ocean Engineering (KRISO) is equipped with an extreme-environment reproduction facility that can analyze the motion characteristics of offshore structures and ships. In recent years, there have been requirements for a wide range of six-degree-of-freedom (6-DOF) motion measurements for performing maneuvering tests and free-running tests of target objects (offshore structures or ships). This study introduces the process of developing a wide-area motion measurement technology by incorporating the auto-tracking technology of the towing carriage system to overcome the existing 6-DOF motion measurement limitation. To realize a wide range of motion measurements, the automatic tracking control system of the towing carriage in the DOEB was designed as a speed control method. To verify the control performance, the characteristics of the towing carriage according to the variation in control gain were analyzed. Finally, a wide range of motions was tested using a model test object (a remotely operated vehicle (ROV)), and the wide-area motion measurement technology was implemented using an automatic tracking control system for a towing carriage.

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참고문헌

  1. Hirano, S., & Kasai, Y. (1965). Automatic Control of the Ship Model Towing Carriage (I). Bulletin of University of Osaka Prefecture, Series A, Engineering and Aatural Sciences, 13(2), 145-158. http://doi.org/10.24729/00008918
  2. Shin, J.-I., Yang, J.-M., Park, H.-W., Kim, J.-S., & Kim, H.-C. (2005). A Study on the Resistance Characteristics of a Stepped Planing Hull Using a High-speed Towing System. Journal of the Society of Naval Architects of Korea, 42(4), 341-349. https://doi.org/10.3744/SNAK.2005.42.4.341
  3. Kim, Y.M. (2015). System Modeling and Control of Wire-driven High-speed Towing Carriage for Uniform Speed (Master's Thesis). University of Seoul National University.
  4. Kim, J.S., & Kim, H.C. (2016). On the Design of Cantilever Type High Speed Towing Carriage with Excellent Acceleration Performance. Journal of the Society of Naval Architects of Korea, 53(3), 228-236. https://doi.org/10.3744/SNAK.2016.53.3.228
  5. Pena, F.L., Diaz, A.D., Gonzalez, M.M., & Torres, B.P. (2015). An Automatic Track Control for an Autonomous Model for Towing Tank Tests. Proceedings of the 16th International Congress of the International Maritime Association of the Mediterranean, Pula, Croatia, 93-98. Retrieved from https://www.researchgate.net/publication/282649896
  6. Malas, B., Banks, J., Cappelletto, J., & Thornton, B. (2019). Applications of Motion Capture Technology in a Towing Tank. Proceedings of The 6th International Conference on Advanced Model Measurement Technology for The Maritime Industry (AMT'19), Rome, Italy. Retrieved from https://www.amt19.com/conference-programme
  7. Pena, F.L., Gonzalez, M.M., Deibe, A., Pena, D., & Orjales, F. (2013). An Autonomous Scale Ship Model for Towing Tank Testing. Proceedings of 2013 IEEE 7th International Conference on Intelligent Data Acquisition and Advanced Computing Systems (IDAACS), 25-29. http://doi.org/10.1109/IDAACS.2013.6662633