參考文獻 |
[1] Alonso, J. D., E. R. Vidal, A. Rotter, and M. Muhlenberg, "Lane-change decision aid system based on motion-driven vehicle tracking," IEEE Trans. Vehicular Technology vol.57, no.5, pp.2736-2746, Sep. 2008.
[2] Bertozzi, M. and A. Broggi, "GOLD: A parallel real-time stereo vision system for generic obstacle and lane detection," IEEE Trans. on Image Processing, vol.7, no.1, pp.62-81, 1998.
[3] Bertozzi, M., A. Broggi, A. Fascioli, and A. Tibaldi, "An evolutionary approach to lane markings detection in road environments," in Proc. 6th Congress of the Italian Association for Artificial Intelligence, Siena, Italy, Sep.10-13, 2002, pp.627-636.
[4] Borkar, A., M. Hayes, and M. T. Smith, "Lane detection and tracking using a layered approach," in Proc. 11th Int. Conf. Advances Concepts for Intelligent Vision Systems, Bordeaux, France, Sep.28-Oct.2, 2009, pp.474-484.
[5] Borkar, A., M. Hayes, and M. T. Smith, "Robust lane detection and tracking with RANSAC and Kalman filter," in Proc. 16th Int. Conf. Image Processing, Cairo, Egypt, Nov.7-10, 2009, pp.3261-3264.
[6] Borkar, A., M. Hayes, and M. T. Smith, "A novel lane detection system with efficient ground truth generation," IEEE Trans. Intelligent Transportation Systems, vol.13, no.1, pp.365-374, 2012.
[7] Broggi, A., M. Bertozzi, A. Fascioli, C. G. L. Bianco, and A. Piazzi, "Visual perception of obstacles and vehicles for platooning," IEEE Trans. Intelligent Transportation Systems, vol.1, no.3, pp.164-176, Sep. 2000.
[8] Chien, J.-C., J.-D. Lee, and L.-C. Liu, "A fuzzy rules-based driver assistance system," Mathematical Problems in Engineering, vol.2015, p.14, 2015.
[9] El Ansari, M., S. Mousset, and A. Bensrhair, "Temporal consistent real-time stereo for intelligent vehicles," Pattern Recognition Letters, vol.31, no.11, pp.1226-1238, Aug. 2010.
[10] Guiducci, A., "Parametric model of the perspective projection of a road with applications to lane keeping and 3D road reconstruction," Computer Vision and Image Understanding, vol.73, no.3, pp.414-427, 1999.
[11] Guiducci, A., "Camera calibration for road applications," Computer Vision and Image Understanding, vol.79, no.2, pp.250-266, 2000.
[12] Huang, X., M. Jack, and Y. Ariki, Hidden Markov Models for Speech Recognition, Edinburgh University Press, Edinburgh, UK, 1990.
[13] Jazayeri, A., H. Cai, J. Y. Zheng, and M. Tuceryan, "Vehicle detection and tracking in car video based on motion model," IEEE Trans. Intelligent Transportation Systems, vol.12, no.2, pp.583-595, Jun. 2011.
[14] Kastner, R., T. Michalke, J. Adamy, J. Fritsch, and C. Goerick, "Task-based environment interpretation and system architecture for next generation ADAS," IEEE Intelligent Transportation Systems Magazine, vol.3, no.4, pp.20-33, 2011.
[15] Kilicarslan, M. and J. Y. Zheng, "Towards collision alarming based on visual motion," in Proc. IEEE Conf. on Intelligent Transportation Systems, Anchorage, AK, Sep. 16-19, 2012, pp.654-659.
[16] Lin, C.-W., 3D Visual Geometry-based Lane Departure Warning System and Error Analysis on Lateral Offsets, Ph.D., Info. Eng. Dept., National Central University, Chungli, 2013.
[17] Sivaraman, S. and M. M. Trivedi, "Combining monocular and stereo-vision for real-time vehicle ranging and tracking on multilane highways," in Proc. IEEE Conf. on Intelligent Transportation Systems, Washington DC, Oct.5-7 2011, pp.1249-1254.
[18] Sivaraman, S. and M. M. Trivedi, "Looking at vehicles on the road: a survey of vision-based vehicle detection, tracking, and behavior analysis," IEEE Trans. Intelligent Transportation Systems, vol.14, no.4, pp.1773-1795, Dec. 2013.
[19] Sun, Z., G. Bebis, and R. Miller, "On-road vehicle detection: a review," IEEE Trans. Pattern Analysis and Machine Intelligence, vol.28, no.5, pp.694-711, May 2006.
[20] Surgailis, T., A. Valinevicius, V. Markevicius, D. Navikas, and D. Andriukaitis, "Avoiding forward car collision using stereo vision system," Elektronika ir Elektrotechnika, vol.18, no.8, pp.37-40, 2012.
[21] Toulminet, G., M. Bertozzi, S. Mousset, A. Bensrhair, and A. Broggi, "Vehicle detection by means of stereo vision-based obstacles features extraction and monocular pattern analysis," IEEE Trans. Image Processing, vol.15, no.8, pp.2364-2375, Aug. 2006.
[22] Tsai, Y.-S., Light-and-weather-adpated Forward Collision Warning System, Master, Info. Eng. Dept., National Central University, Chungli, 2013.
[23] Tseng, D.-C., Monocular Computer Vision Aided Road Vehicle Driving for Safety, U.S. Patent, Jul. 20, 2004.
[24] Zadeh, L. A., "The role of fuzzy logic in the management of uncertainty in expert systems," Fuzzy Sets and Systems, vol.11, no.1-3, pp.197-198, 1983.
[25] Zadeh, L. A., "Toward a theory of fuzzy information granulation and its centrality in human reasoning and fuzzy logic," Fuzzy Sets and Systems, vol.90, no.2, pp.111-127, 1997.
[26] Zhu, Y., D. Comaniciu, M. Pellkofer, and T. Koehler, "Reliable detection of overtaking vehicles using robust information fusion," IEEE Trans. Intelligent Transportation Systems, vol.7, no.4, pp.401-414, Dec. 2006.
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