Journal of the Korea Computer Graphics Society (한국컴퓨터그래픽스학회논문지)

Korea Computer Graphics Society (한국컴퓨터그래픽스학회)
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Vehicle Animation Making Tools based on Simulation and Trajectory Library

차량 시뮬레이션과 경로 라이브러리에 기반한 차량 애니메이션 저작도구

  • Jeong, Jinuk (Computer Animation Lab, Hanyang University) ;
  • Kang, Daeun (Computer Animation Lab, Hanyang University) ;
  • Kwon, Taesoo (Computer Animation Lab, Hanyang University)
  • 정진욱 (컴퓨터 애니메이션 연구실, 한양대학교) ;
  • 강다은 (컴퓨터 애니메이션 연구실, 한양대학교) ;
  • 권태수 (컴퓨터 애니메이션 연구실, 한양대학교)
  • Received : 2017.11.08
  • Accepted : 2017.12.07
  • Published : 2017.12.08
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Abstract

In this paper, we suggest a novel physics-based real-time animation technique for vehicles, and introduce an easy and intuitive animation authoring tool which uses our proposed technique. After a user specifies a trajectory of a virtual car as input, our system produces a more accurate simulation faster than a previous research result. This is achieved by a trajectory splitting method based on directional features and a trajectory library. As a result, the user can create not only a car animation including lane changing and passing, but also a crash animation which is a rarely researched topic. Also, we propose a virtual car structure that approximates a real car's structure for real-time simulation, the resulting animation shows high plausibility such as a small vibration which occurs when the virtual car breaks and a deformation of when a car accident happens.

본 연구는 물리 기반의 자동차 애니에이션 기술을 연구하였으며, 일반인도 손쉽게 차량 애니에이션을 제작할 수 있도록 직관적인 저작도구를 제안하였다. 사용자가 직접 차량의 이동 경로 및 속도를 지정하면, 이동 경로의 방향적 특성에 기반한 시뮬레이션 구간 분할과 피드백 기반 주행 경로 탐색 기법을 통해 기존 연구보다 빠르고 정확한 주행 시뮬레이션을 수행하도록 하였다. 결과적으로 차선 변경 및 추월을 포함한 단순 주행 애니메이션뿐만 아니라 기존 관련 연구에는 없었던 차량 충돌 애니메이션 또한 제작할 수 있다. 아울러 차체 모델을 실제 차량과 유사하게 설계하였기 때문에, 제동 시 차량이 미세하게 혼들리는 현상이나 추돌 시 차량이 찌그러지는 현상 등 실제에 가까운 차량의 웅직임을 묘사할 수 있다.

Keywords

References

  1. KOBILAROV, Marin; CRANE, KEEnan; DESBRUN, Mathieu. Lie group integrators for animation and control of vehicles. ACM transactions on Graphics (TOG), 25.2: 16, 2009.
  2. SEWALL, Jason, et al. Continuum traffic simulation. In: Computer Graphics Forum, 29.2: 439, Blackwell Publishing Ltd, 2010.
  3. SEWALL, Jason; WILKIE, David; LIN, Ming C. Interactive hybrid simulation of large-scale traffic. In: ACM Transactions on Graphics (TOG), 30.6: 135, ACM, 2011.
  4. GARCIA.DORADO, Ignacio; G ALIAGA, D.; VUKKUSURI, S. Designing largescale interactive traffic animations for urban modeling In: Computer Graphics Forum, 33.2: 411, 2014.
  5. SEONG, Jin-Wook; KO, Seung-Wook; KWON, Taesoo, Vehicle Crash Simulation using Traajectory Optimization. Korea Computer Graphics Society, 21.5: 11, 2015.
  6. TERZOPOULOS, Demetri, et al. Elastically deformable models. In: ACM Siggraph Computer Graphics, 21.4: 205, ACM, 1987.
  7. COROS, Stelian, et al. Deformable objects alive!. ACM Transactions on Graphics (TOG), 31.4: 69, 2012.
  8. TAN, Jie; TURK, Greg; LIU, C. Karen. Soft body locomotion. ACM Transactions on Graphics (TOG), 31.4: 26, 2012.
  9. BARBIC, Jernej; POPOVIC, Jovan. Real-time control of physically based simulations using gentle forces. In: ACM transactions on graphics (TOG), 27.5: 163, ACM, 2008.
  10. SKOURAS, Melina, et al. Computational design of actuated deformable characters. ACM Transactions on Graphics (TOG), 32.4: 82, 2013.
  11. LIU, Libin, et al. Simulation and control of skeleton-driven soft body characters. ACM Transactions on Graphics (TOG), 32.6: 215, 2013
  12. JAIN, Sumit; LIU, C. Karen. Controlling physics-based characters using soft contacts. In: ACM Transactions on Graphics (TOG), 30.6: 163, ACM, 2011.
  13. KIM, Junggon; POLLARD, Nancy S. Fast simulation of skeleton-driven deformable body characters. ACM Transactions on Graphics (TOG), 30.5: 121, 2011.