Abstract
There are many limits like as shadowing occlusion and no lights in the video image detector systems. In order to make accurate detector system, we need to get rid of these problems specially accident detection system by using vehicle trace. In this paper, we introduce a method of overcoming shadow. And we propose the accurate accident detection system. We find the flow of vehicle trace is like as level spacing distribution as Wigner distribution. It is in the level statistics when we represent this vehicle trace avoidable. From this distribution we can derive a probability induced by different of position for each lane. Using this equation we can find abrupt state of vehicle flow comparing with normal flow. We shall show statistical results from some experiments for this system evaluation
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References
Akio Y, Chia-Hung Y, Jay Kuo C-C (2005) Robust vehicle and traffic information extraction for highway surveillance. EURASIP J Appl Signal Process 14:2305–2321
Coifman B, Beymer D, McLauchlan P, Malik J (1998) A real-time computer vision system for vehicle tracking and traffic surveillance. Transp Res Part C 6:271–288
Oh J, Min J (2008) Development of a real time video image processing system for vehicle tracking. J Korean Soc Road Eng 10(3):19–31
Liu H, Li J, Liu Q, Qian Y (2007) Shadow elimination in traffic video segmentation. In: MVA 2007 IAPR conference on machine vision applications, Tokyo Japan, 16–18 May 2007
Chen S-C, Shyu M-L, Peeta S, Zhang C. (2003) Learning-based spatio-temporal vehicle tracking and indexing for a transportation multimedia database system. IEEE Trans Intell Transp Syst 4(3):154–167
Oh J, Min J, Kim M, Cho H (2008) Development of an automatic traffic conflict detection system based on image tracking technology. Submitted to TRB
Koller D, Daniilidis K, Nagel H (1993) Model-based object tracking in monocular image sequences of road traffic scenes. In. J Comput Vision 10:257–281
Koller D, Weber J, Huang T, Malik J, Ogasawara G, Rao B, Russell S (1994) Towards robust automatic traffic scene analysis in real time. ICPR 1:126–131
Andrew S, Arun H, Ying-Li T, Lisa B, Sharath P, Ruud B (2006) Appearance models for occlusion handling. J Image Vis Comput 24(11):1233–1243
Cucchiara R, Grana C. Tardini G. Vezzani R (2004) Probabilistic people tracking for occlusion handling. In: Proceedings of the 17th international conference on ICPR 2004, vol 1, pp 132–135, 23–26 Aug 2004
Ismail H, David H, Larry SD (2000) W4: real-time surveillance of people and their activities. IEEE Trans Pattern Anal Mach Intell 22(8):809–830
Dockstader SL, Tekalp AM (2001) Multiple camera fusion for multi-object tracking. In Proceeding IEEE workshop on multi-object tracking, pp 95–102
Jose M, Andrew N, Alexandre B, Jose S-V (2004) Viewpoint independent detection of vehicle trajectories and lane geometry from uncalibrated traffic surveillance cameras. In: International conference on image analysis and recognition, Porto, Portugal, 29 Sep–Oct 1
Mei X, Chong-Zhao H, Lei Z (2007) Moving shadow detection and removal for traffic sequences. Intern J Autom Comput 4(1):38–46
Horprasert T, Harwood D, Davis L (1999) A statistical approach for real-time robust background subtraction and shadow detection. In: Proceeding 7th IEEE ICCV Frame-rate Workshop Corfu, pp 1–19
Avery RP, Zhang G, Wang Y, Nihan N (2007) An investigation into shadow removal from traffic images. In: TRB 2007 annual meeting CD-ROM
Rahul S (1993) RACCOON: a real-time autonomous car chaser operating optimally at night. In: Proceedings of IEEE intelligent vehicles
Samyong K, Se-young O, Kwangsoo K, Sang-cheol P, Kyongha P (2005) Front and rear vehicle detection and tracking in the day and night time using vision and sonar sensors. In: Proceedings of 12th world congress of ITS, 6–10 Nov 2005
Kim Z (2008) Real time object tracking based on dynamic feature grouping with background subtraction. In: Proceeding IEEE conference on computer vision and pattern recognition
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Lee, I.J. (2013). An Abrupt Signal Detection as Accident Detection by Hamiltonian Eigenvalue on Highway CCTV Traffic Signal. In: Kim, K., Chung, KY. (eds) IT Convergence and Security 2012. Lecture Notes in Electrical Engineering, vol 215. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-5860-5_39
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DOI: https://doi.org/10.1007/978-94-007-5860-5_39
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