로봇학회논문지 (The Journal of Korea Robotics Society)

  • 제7권1호
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  • Pages.29-34
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  • 2012
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  • 1975-6291(pISSN)
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  • 2287-3961(eISSN)
한국로봇학회 (Korea Robotics Society)
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광범위 환경에서 EKF-SLAM의 일관성 향상을 위한 새로운 관찰모델

A new Observation Model to Improve the Consistency of EKF-SLAM Algorithm in Large-scale Environments

  • 투고 : 2011.11.04
  • 심사 : 2012.01.10
  • 발행 : 2012.02.29
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초록

This paper suggests a new observation model for Extended Kalman Filter based Simultaneous Localization and Mapping (EKF-SLAM). Since the EKF framework linearizes non-linear functions around the current estimate, the conventional line model has large linearization errors when a mobile robot locates faraway from its initial position. On the other hand, the model that we propose yields less linearization error with respect to the landmark position and thus suitable in a large-scale environment. To achieve it, we build up a three-dimensional space by adding a virtual axis to the robot's two-dimensional coordinate system and extract a plane by using a detected line on the two-dimensional space and the virtual axis. Since Jacobian matrix with respect to the landmark position has small value, we can estimate the position of landmarks better than the conventional line model. The simulation results verify that the new model yields less linearization errors than the conventional line model.

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참고문헌

  1. T. Bailey, J. Nieto, J. Guivant, M. Stevens, and E. Nebot, "Consistency of the EKF-SLAM algorithm," in Proc. of IEEE/RSJ International Conference on Intelligent Robots and Systems, pp. 3562-3568, 2006.
  2. N. L. Doh, K. Lee, and C. Nam, "Novel Line Representation with Consistent Second Order Statistics for SLAM Applications," The 5th International Conference on the Advanced Mechatronics, pp. 253-258, 2010.
  3. J. Folkesson, P. Jensfelt, and H. I.Christensen, "The MSpace feature representation for SLAM," IEEE Trans. on Robotics, vol. 23, pp. 1024.1035, 2007. https://doi.org/10.1109/TRO.2007.903807
  4. A. Garulli, A. Giannitrapani, A. Rossi and A. Vicino, "Simultaneous localization and map building using linear features," Proc. of the 2nd European Conference on Mobile Robots, pp. 44-49, 2005.
  5. C. Fulgenzia, G. Ippolitib, and S. Longhi, "Experimental validation of FastSLAM algorithm integrated with a linear features based map," Mechatronics, vol. 19, pp. 609-616, 2009. pp. 44-49, 2005. https://doi.org/10.1016/j.mechatronics.2009.01.007
  6. Y. Choi, T. Lee and S. Oh, "A line feature based SLAM with low grade range sensors using geometric constraints and active exploration for mobile robot," Autonomous Robot, vol. 24, pp. 13-27, 2008. https://doi.org/10.1007/s10514-007-9050-y
  7. G P. Huang, A I . Mourikis and S I Roumeliotis, "Observability-based Rules for Designing Consistent EKF SLAM Estimators," International Journal of Robotics Research, vol. 29, pp. 502-528, 2009.

피인용 문헌

  1. 센서 융합을 통한 환경지도 기반의 강인한 전역 위치추정 vol.9, pp.2, 2014, https://doi.org/10.7746/jkros.2014.9.2.096
  2. 천장 영상지도 기반의 전역 위치추정 vol.9, pp.3, 2012, https://doi.org/10.7746/jkros.2014.9.3.170
  3. 국소 집단 최적화 기법을 적용한 비정형 해저면 환경에서의 비주얼 SLAM vol.9, pp.4, 2012, https://doi.org/10.7746/jkros.2014.9.4.197
  4. 소나 영상을 이용한 확률적 물체 인식 구조 기반 수중로봇의 위치추정 vol.9, pp.4, 2012, https://doi.org/10.7746/jkros.2014.9.4.232
  5. SLAM으로 작성한 지도 품질의 상대적/정량적 비교를 위한 방법 제안 vol.9, pp.4, 2012, https://doi.org/10.7746/jkros.2014.9.4.242