參考文獻 |
[1] Araki, S., T. Matsuoka, H. Takemura, and N. Yokoya, “Real-time tracking of multiple moving objects in moving camera image sequences using robust statistics,” in Proc. IEEE Int’l Conf. on Pattern Recognition, Brisbane, Australia, Aug.16-20, 1998, pp.1433-1435.
[2] Araki, S., T. Matsuoka, N. Yokoya, and H. Takemura, "Real-time tracking of multiple moving object contours in a moving camera image sequence," IEICE Trans. on Information and Systems, Vol.E83-D, No.7 pp.1583-1591, July 2000.
[3] Bensrhair, A., M. Bertozzi, A. Broggi, P. Miche, and S. Mousset, G. Toulminet, “A cooperative approach to vision-based vehicle detection,” in Proc. IEEE Conf. on Intelligent Transportation Systems, Oakland, CA, Aug.25-29, 2001, pp.207-212.
[4] Bensrhair, A., A. Bertozzi, A. Broggi, A. Fascioli, S. Mousset, and G. Toulminet, “Stereo vision-based feature extraction for vehicle detection,” in Proc. IEEE Intelligent Vehicle Sym., Versailles, France, June 7-21, 2002, pp.465-470.
[5] Bertozzi, M. and A. Broggi, “Real-time lane and obstacle detection on the GOLD system,” in Proc. IEEE Intelligent Vehicles Sym., Tokyo, Japan, Sep.19-20, 1996, pp.213-218.
[6] Bertozzi, M., A. Broggi, and S. Castelluccio, “A real-time oriented system for vehicle detection,” Journal of Systems Architecture, pp.317-325, Mar. 1997.
[7] Bertozzi, M., A. Broggi, G. Conte, and A. Fascioli, “Obstacle and lane detection on ARGO,” in Proc. IEEE Conf. on Intelligent Transportation System, Boston, MA, Nov.9-12, 1997, pp.1010-1015.
[8] Bertozzi, M. and A. Broggi, “GOLD: a parallel real-time stereo vision system for generic obstacle and lane detection,” IEEE Trans. Image Processing, vol.7, pp.62-81, Jan. 1998.
[9] Bertozzi, M., A. Broggi, A. Fascioli, and S. Nichele, “Stereo vision-based vehicle detection,” in Proc. IEEE Intelligent Vehicles Sym., Dearborn, MI, Oct.3-5, 2000, pp.39-44.
[10] Betke, M., E. Haritaoglu, and L. S. Davis, “Multiple vehicle detection and tracking in hard real time,” in Proc. IEEE Intelligent Vehicles Sym., Tokyo, Japan, Sep.19-20, 1996, pp.351–356.
[11] Betke, M., E. Haritaoglu and L. S. Davis, "Real-time multiple vehicle detection and tracking from a moving vehicle," IEEE Trans. Machine Vision and Applications, pp.69-83, Sep. 2000.
[12] Broggi, A., M. Bertozzi, A. Fascioli, C. Guarino Lo Bianco, and A. Piazzi, “Visual perception of obstacles and vehicles for platooning,” IEEE Trans. Intelligent Transportation Systems, vol.1, pp.164-176, Sep. 2000.
[13] Bucher, T., C. Curio, J. Edelbrunner, C. Igel, D. Kastrup, I. Leefken, G. Lorenz, A. Steinhage, and W. von Seelen, “Image processing and behavior planning for intelligent vehicles,” IEEE Trans. Industrial Electronics, vol.50, Issue.1, pp.62-75, Feb. 2003.
[14] Chapuis, R., F. Marmoiton, R. Aufrere, F. Collange, and J. Derutin, “Road detection and vehicles tracking by vision for an on-board ACC system in the VELAC vehicle,” in Proc. IEEE Int’l Conf. on Information Fusion, Paris, France, July 10-13, 2000, pp.11-18.
[15] Chern, M.-Y. and B.-Y. Shyr, “Locating nearby vehicles on highway at daytime based on the front vision of a moving car,” in Proc. IEEE Conf. on Robotics and Automation, Taipei, Taiwan, Sep.14-19, 2003, pp.2085-2090.
[16] Chu J., L. Ji, L. Guo, Libibing, and R. Wang, “Study on method of detecting preceding vehicle based on monocular camera,” in Proc. IEEE Intelligent Vehicles Sym., Parma, Italy, June 14-17, 2004, pp.750-755.
[17] Clady, X., F. Collange, F. Jurie, and P. Martinet, “Cars detection and tracking with a vision sensor,” in Proc. IEEE Intelligent Vehicles Sym., Columbus, Ohio, June 9-11, 2003, pp.593-598.
[18] Du, Y. and N.P. Papanikolopoulos, “Real-time vehicle following through a novel symmetry-based approach,” in Proc. IEEE Int’l Conf. on Robotics and Automation, Albuquerque, NM, Apr.20-25, 1997, pp.3160-3165.
[19] Dubuisson M. P., S. Lakshmanan, and A. K. Jain, “Vehicle segmentation and classification using deformable templates," IEEE Trans. Pattern Analysis and Machine Intelligence, vol.18, Issue 3, pp.293-308, Mar. 1996.
[20] Ferryman J., A. Worrall, G. Sullivan, and K. Baker, “A generic deformable model for vehicle recognition,” in Proc. Conf. on British Machine Vision, Birmingham, Sep.11-14, 1995, pp.127-136.
[21] Giachetti, A., M. Campani, and V. Torre, “The use of optical flow for road navigation,” IEEE Trans. on Robotics and Automation, vol.14, pp.34-48, Feb. 1998.
[22] Goerick, C., N. Detlev, and M. Werner, “Artificial neural networks in real-time car detection and tracking applications,” IEEE Trans. Pattern Recognition Letters, vol.17, pp.335-343, Apr. 1996.
[23] Heisele, B. and W. Ritter, “Obstacle detection based on color blob flow,” in Proc. IEEE Intelligent Vehicles Sym., Detroit, MI, Sep.25-26, 1995, pp.282-286.
[24] Hoffmann, C., T. Dang, and C. Stiller, “Vehicle detection fusing 2D visual features,” in Proc. IEEE Intelligent Vehicles Sym., Parma, Italy, June 14-17, 2004, pp.280-285.
[25] Hu, Z., and K. Uchimura, “Tracking cycle: a new concept for simultaneous tracking of multiple moving objects in a typical traffic scene,” in Proc. IEEE Intelligent Vehicles Sym., Dearborn, MI, Oct.3-5, 2000, pp.233–239.
[26] Huang, S.-S., C.-J. Chen, P.-Y. Hsiao, and L.-C. Fu, ”On-board vision system for lane recognition and front-vehicle detection to enhance driver's awareness,” in Proc. IEEE Int’l Conf. on Robotics and Automation, New Orleans, Apr.26 - May 1, 2004, pp.2456-2461.
[27] Kalinke, T., C. Tzomakas, and W. von Seelen, “A texture-based object detection and an adaptive model-based classification,” in Proc. IEEE Intelligent Vehicles Sym., Stuttgart, Germany, Oct. 1998, pp.143-148.
[28] Koller, D., N. Heinze, and H. Nagel, “Algorithmic characterization of vehicle trajectories from image sequences by motion verbs,” in Proc. IEEE Int’l Conf. on Computer Vision and Pattern Recognition, Maui, HI, June 3-6, 1991, pp.90-95.
[29] Kyo, S., T. Koga, K. Sakurai, and S. Okazaki, “A robust vehicle detecting and tracking system for wet weather conditions using the IMAP-VISION image processing board,” in Proc. IEEE Int’l Conf. on Intelligent Transportation Systems, Tokyo, Japan, Oct.5-8, 1999, pp.423-428.
[30] Meier, E. B. and F. Ade, “Tracking cars in range image sequences,” in Proc. IEEE Conf. on Intelligent Transportation System, Boston, MA, Nov.9-12, 1997, pp.105-110.
[31] Raboisson, S. and P. Schmouker, “Obstacle detection in highway environment by color CCD camera and image processing prototype installed in a vehicle,” in Proc. IEEE Intelligent Vehicles Sym., Paris, France, Oct.24-26, 1994, pp.44-49.
[32] Regensburger, U., and V. Graefe, “Visual recognition of obstacles on roads,” in Proc. IEEE Int’l Conf. on Intelligent Robots and Systems, Munich, Germany, Sep.12-16, 1994, pp.980-987.
[33] Rojas, J. C., and J. D. Crisman, “Vehicle detection in color images,” in Proc. IEEE Conf. on Intelligent Transportation System, Boston, MA, Nov.9-12, 1997, pp.403-408.
[34] Schwarzinger, M., T. Zielke, D. Noll, M. Brauckmann, and W. von Seelen, “Vision-based car-following detection tracking and identification,” in Proc. IEEE Intelligent Vehicles Sym., Detroit, MI, June 29 - July 1, 1992, pp.24-29.
[35] Seol, S.-W., J.-H. Jang, H.-S. Kim, C.-H. Lee, and K.-G. Nam, “An automatic detection and tracking system of moving objects using double difference based motion estimation,” in Proc. on Int’l Technical Conf. on Circuits/Systems, Computers and Communications, Phoenix Park, Korea, July 7-9, 2003, pp.260-263.
[36] Srinivasa, N., “Vision-based vehicle detection and tracking method for forward collision warning in automobiles,” in Proc. IEEE Intelligent Vehicle Sym., Malibu, CA, Jun.17-21, 2002, pp.626-631.
[37] Sun, Z., G. Bebis, and R. Miller, "On-road vehicle detection using optical sensors: A review," in IEEE Int’l Conf. on Intelligent Transportation Systems, Washington, DC, Oct.3-6, 2004, pp.585-590.
[38] Van Leeuwen, M. B. and F. C. A. Groen, Vehicle Detection with A Mobile Camera, Technical report, Computer Science Institute, Univ. of Amsterdam, Netherlands, Oct. 2001.
[39] Van Leuven J., M. B. van Leeuwen, and F. C. A. Groen, “Real time vehicle tracking in image sequences,” in Proc. IEEE Int’l Conf. on Instrumentation and Measurement Technology, Budapest, Hungary, May 21-23, 2001, pp.2049-2054.
[40] Wetzel, D., H. Niemann, and S. Richter, “An image sequence analysis system for driver assistance,” in Proc. IEEE Conf. on Intelligent Information Systems, Brisbane, Australia, Nov.29 - Dec.2, 1994, pp.150–154.
[41] Willersinn, D., and W. Enkelmann, “Robust obstacle detection and tracking by motion analysis,” in Proc. IEEE Conf. on Intelligent Transportation System, Boston, MA, Nov.9-12, 1997, pp.717-722.
[42] Wu, J. and X. Zhang, “A PCA classifier and its application in vehicle detection,” in Proc. IEEE Int’l Conf. on Neural Networks, vol.1, Washington, DC, July 15-19, 2001, pp.600-604.
[43] Zehang, S., G. Bebis, and R. Miller, “On-road vehicle detection using Gabor filters and support vector machines,” in Proc. Int’l Conf. on Digital Signal Processing, Greece, July 1-3, 2002, pp.1019-1022.
[44] Zehang, S., R. Miller, G. Bebis, and D. DiMeo, “A real-time precrash vehicle detection system,” in Proc. IEEE Conf. on Applications of Computer Vision, Orlando, FL, Dec.3-4, 2002, pp.171-176.
[45] Zhihong, Z. and M. Songde, “An efficient vision system for multiple car tracking,” in Proc. IEEE Int’l Conf. on Pattern Recognition, Quebec, Canada Aug.11-15, 2002, pp.609-612.
[46] Zielke, T., M. Brauckmann, and W. Von Seelen, “Intensity and edge-based symmetry detection with an application to car-following,” Image Understanding, vol.58, no.2, pp.177-190, 1993. |