수중 다중 로봇 분야의 최신 연구 동향

  • 여태경 (한국해양연구원 해양시스템연구부) ;
  • 홍섭 (한국해양연구원 해양시스템연구부) ;
  • 전봉환 (한국해양연구원 해양시스템연구부)
  • Published : 2010.03.25

Abstract

대부분의 다중 로봇(Multi-robots) 시스템은 환경적으로 단일로봇의 운용을 포함하지만, 수많은 연구가들은 제시된 임무를 완수하기 위하여 로봇 그룹이 협력함으로써 나타나는 잠재적 장점에 주목하게 되었다. 미지의 해성 탐사(Exploring), 물체 일기(Object pushing), 그리고 유독성 폐기물 첨소와 같은 작업을 수행하기 위해서는, 매우 복잡한 로봇을 사용하기 보다는 소형이며 간단한 다수의 로봇을 사용하는 것이 보다 효과적이다.

Keywords

References

  1. R. R. Murphy, "Introductin to AI Robotics," A Bradford Book, 2000.
  2. R. A. Brooks "A Robust Layered Control Systern for a Mobile Robot," lEEE Journal of Robotics and Automation, vol. 2, no. 1, pp. 14-23, 1986. https://doi.org/10.1109/JRA.1986.1087032
  3. Y. Uny Cao, AIex S. Fumkunaga,and A. B. Kahng, "Cooperative Mobile Robotics: Antecedents and Directions," Autonomous Robots, vol 4,pp.1-23, 1997.
  4. G. Dudek, Michael R. M. Jenkin, Evangelos Milios, and David Wilke, "A Taxonomy for Multi-Agent Robotics," Autonomous Robots, vol. 3, pp. 375-397, 1996.
  5. L. locchi, D. Nardi, and M.Salerno, "Reactivity and Deliberation: A sruvey on Multi-Robot System," Lecture Notes in Computer Science, Springer Berlin/Heidelberg, pp. 9-32, 2001.
  6. T. Arai, E. Pagello, and L. E. Parker, "'Guest Editorial Advances in Multirobot Systems," IEEE Tranctions on Robotics and Automation vol.18,no.5,pp.655-661,2002. https://doi.org/10.1109/TRA.2002.806024
  7. Lynne E. Parker, "Current research in multi-robot systems,'' Artif Life Robotics, voI.7,pp.1-5,2003. https://doi.org/10.1007/BF02480877
  8. S. Verret, "Current State of the Art in Multi-robot Systems,'' Defence Research and Development Canada, 2005.
  9. C. V. Alt, " Autonomous Underwater Vehicles," The Autonomous Underwater Lagrangian Plaiforms and Sensor Workshop,2003.
  10. J. Yuh, 'Design and Control of Autonomous Underwater Robots: A Survey," Autonomous Robots, vol. 8, pp. 7-24, 2000 https://doi.org/10.1023/A:1008984701078
  11. S. G. Chappell, J. C. Jalbert, P. Pietryka, and J. Duchesney, "Acoustic Communication Between Two Autonomous Underwater Vehicles," Proceedings of the 1994 Symposium on Autonomous Underwater Vehicle Technology, pp. 462-469, 1994.
  12. J. B. Sousa and F. L. Pereira, "A Generalized Vehicle Based Control Architecture for Multiple AUVs," MTS/IEEE Challenges of Our Changing Global Environment Conference, vol. 3, pp. 1643-1650,1995.
  13. J. E. Manley, "Multiple AUV Missions in the National Oceanic and Atomospheric Administration," IEEE/OES Autonomous Underwater Vehicle, pp. 20-25,2004.
  14. P. Baccou, B. Jouvencel, V. Creuze, and C. Rabaud, "Cooperative position and navigation for multiple AUV operations," MTS/IEEE Conference and Exhihition Oceans 2001, vol. 3, pp. 1816-1821, 2001.
  15. J. Curcio, J. Leonard, and A. Patrikalakis, "SCOUT - A Low Cost Autonomous Surface Craft for Research in Cooperative Autonomy, Proceedings of MTS/IEEE Oceans 2005, vol. 1, pp.725-729,2005.
  16. S. Willcox, D. Goldberg, J. Vaganay, and J. A. Curcio, "Multi-Vehicle Cooperative Navigation and Autonomy with the Blufin CADRE System," Proceedings of the 16th IFAC World Congress, pp. 20-22, 2006.
  17. A. Bar and J. J. Leonard, "Cooperative Localization for Autonomous Underwater Vehicles," International Journal of Robotics Research, vol.28, pp. 714-728,2009. https://doi.org/10.1177/0278364908100561
  18. A Bar,M. R. Walter, and J. J. Leonard, "Consistent Cooperative Location" IEEE International Conference On Robotics and Automation, pp.3415-3422, 2009.
  19. D. B. Edwards, T.A Bean, D. L. odell, and M. J. Anderson, "A Leader-Follower Algorithm for MuItiple AUV Formation," IEEE/OES Autonomous Underwlater Vehicles, pp. 40-46, 2004.
  20. T. Ikeda, T. Mita, and M. Yamakita, "Formation Control of Autonomous Underwater Vehicles," Proceedings of the 16th IFAC World Congress, vol. 16, 2005.
  21. E. Yang, D. Gu, and H. Hu, "improving the Formation-Keeping Performance of Multiple Autonomous Underwater Robotic Vehicles," Proceedings of IEEE Inter. Conference on Mechatronics & Automation, pp.1890-1895, 2005.
  22. E. Yang and D. Gu, "Nonlinear Formation-Keeping and Mooring Control of Multiple Autonomous Underwater Vehicles," IEEE/ASME Transactions on Mechatronics, vol. 12, no. 2, pp.164-178,2007. https://doi.org/10.1109/TMECH.2007.892826
  23. R Cui, S. S. Ge, B. V. How, and Y. S. Choo, "Leader-FolIower Formation Control of Underactuated AUVs with Leader Position Measurement," IEEE International Conference on Robotics and Automation, pp. 979-984, 2009.
  24. J. H. Li, B. H. Jun, and P. M. Lee, "Formation Control of Multiple Underactuated AUVs," Oceans 2007- EUROPE, pp. 1-5,2007.
  25. A. Jia and G. Li, "Formation Control Obstacle Avoidance Algorithm of Multiple Autonomous Underwater Vehicles(AUVs) Based on Potential Function and Behvior Rules, Proceedings of IEEE lnter. Conference on Automation and Logistics, pp. 569- 573,2007.
  26. S. P. Hou and C. C, Cheah, "'PD Control Scheme for Formation Control of MultipIe Autonomous Underwater Vehicles," IEEE/ASME Inter. Conference on Advanced Intelligent Mechatronics, pp. 356-361,2009.
  27. A. Martins, J. M. Almeida, and E. Silva, "Coordinated Maneuver for Gradient Search Using Multiple AUVs," Proceedings Oceans 2003, vol. 1, pp.347-352,2003.
  28. C. C. Sotzing, N. Johnson, and D. M. Lane, "Improving Multi-UV Coordination with Hierarchical Blackboard-Based Plan Representation," The 27th Workshop of the UK Planning and Scheduling Special Interest Group, 2008.
  29. I. S. Kulkarni and D. Pornpili, "Coordination of Autonomous Underwater Vehicles for Acoustic Image Acquisition," Proceedings of the 3th lnternational Workshop on Underwater Networks, pp. 27-34,2008.
  30. P. B. Sujit, J. Sousa, and F. L. Pereira, "UAV and AUVs Coordination for Ocean Exploration," OCEANS 2009-EUROPE, pp. 1-7,2009.
  31. A. P. Aguiar, R Ghabcheloo, A M. PascoaI, and C. Silvestre, "Coordinated Path-Following Control of Multiple Autonomous Underwater Vehicles," Proceedings of the 17th International Offshore and Polar Enginneering Conference, pp.1-7, 2007.
  32. X. Xiang, L. Lapierre, B. Jouvencel, and O. Parodi, "Coordinated Path Following Control of Multiple Nonholonomic VehicIes," OCEANS 2009-EUROPE, pp.1-7,2009.
  33. A Pascoal, P. Oliveira, C. Silvestre, L. Sebastiao, M. Rufino, and V. barroso, "Robotic ocean vehicles for marine science application: the European ASIMOV project," MTS/IEEE Conference and Exhibition Oceans 2000, vol. 1, pp. 409-415, 2000.
  34. L. Brignone, J. Alves, and J. Opderbecke, "GREX on trials: first experiences in multiple underwater vehicle coordination based on acoustic communication," OCEANS 2009-EUROPE, pp. 1-6, 2009.
  35. http://www.lag.ensieg.inpg.fr/connect/project.php
  36. B. M. Howe, P. Arabshahi, W. I. j. Fox, S. Roy, T' McGinnis, M. L. Boyd, A Gray, and Y. Chao, "A mart Sensor Web for Ocean Observation: System Design, Architecture, and Performance, NASA Earth Science Technology Conference, 2008.
  37. 박정홍, 심형원 전봉환, 김시문, 임용판, "두개의 종 추진기를 가즌 무인수상선의 수치 모델링과 PTP 제어," 한국해양공학회 2009 추계학술대회, pp.27-31, 2009.
  38. 전봉환, 이필엽, 박진영, 이판묵, 임용곤, "자율운항 주중로봇(AUV) '이심이'의 시스템 설계와 제어," 한국로봇학회, 제6권 제4호, pp.1-10, 2009.