|
REFERENCES[1]S.-C. Pei, C.-W. Ko, and M.-S. Su, “Global motion estimation in model-based image coding by tracking three-dimensional contour feature point,” IEEE Trans. Circuits and Systems for Video Technology, vol. 8, no. 2, pp. 181-190, 1998. [2]K. Aizawa and T. S. Huang, “Model-based image coding: advanced video coding techniques for very low bit-rate applications,” Proceedings of the IEEE, vol. 83, no. 2, pp. 259-271, 1995.[3]A. Lanitis, C. J. Taylor, and T. F. Cootes, “Automatic interpretation and coding of face images using flexible models,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 19, no. 7, pp. 743-756, 1997.[4]P. M. Antoszczyszyn, J. M. Hannah, and P. M. Grant, “Facial feature model fitting in semantic-based scene analysis,” Electronics Letters, vol. 33, no. 10, pp. 855-857, 1995.[5]T. Akimoto, Y. Suenaga, and R. S. Wallace, “Automatic creation of 3D facial models,” IEEE Computer Graphic and Applications, pp. 16-22, 1993.[6]P. Eisert and B. Girod, “Analyzing facial expressions for virtual conferencing,” IEEE Computer Graphic and Applications, 18, pp. 70-78, 1998.[7]S.-Y. Lee, Y.-K. Ham, and R.-H. Park, “Recognition of human front faces using knowledge-based feature extraction and neuro-fuzzy algorithm,” Pattern Recognition, vol. 29, no. 11, pp. 1863-1876, 1994.[8]C.-L. Huang and C.-W. Chen, “Human facial feature extraction for face interpretation and recognition,” Pattern Recognition, vol. 25, no. 12, pp. 1435-1444, 1992.[9]Z. Mao and A. J. Naftel, “Improved area-based stereo matching using an image segmentation approach for 3-D facial imaging,” Proc. Sixth International Conference on Image Processing and Its Applications, vol. 2, pp. 478-482, 1997.[10]T. N. L. and David J. Oherg, “A conceptural reality model,” IEEE Computer Graphic and Applications, vol. 14, no. 1, pp. 23-29, 1994.[11]H. H. S. Ip and L.-J. Yin, “Arbitrary facial views generation from two orthogonal facial images,” in IEEE Int. Conf. System, Man and Cybernetic, vol. 2, pp. 1079-1084, 1995.[12]T. Vetter, “Synthesis of novel views from a single face image,” International Journal of Computer Vision, vol. 28, no. 2, pp. 103-116, 1998.[13]D. Terzopoulos and H. Waters, ”Analysis and synthesis of facial image sequences using physical and anatomical models,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 15, no. 6, pp. 569-579, 1998.[14]C. Liu and H. Wechsler, “Evolutionary pursuit and its application to face recognition,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 22, no. 6, pp. 570-582, 2000.[15]L. Sirovich and M. Kirby, “Low-dimensional procedure for the characterisation of human faces,” J. Optical Soc. of Am., vol. 4, pp. 519-524, 1987.[16]M. Kirby and L. Sirovich, “Application of the Karhunen-Loéve procedure for the characterisation of human faces,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 12, pp. 831-835, 1990.[17]P.N. Belhumeur, J.P. Hespanha, and D.J. Kriegman, “Eigenfaces vs. Fisherfaces: recognition using class specific linear projection,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 19, no. 7, pp. 711-720, 1997.[18]K.K. Sung and T. Poggio, “Learning human face detection in cluttered scenes,” Computer Analysis of Image and Patterns, pp. 432-439, 1995.[19]S. Lawrence, C.L. Giles, A.C. Tsoi, and A.D. Back, “Face recognition: a convolutional neural-network approach,” IEEE Trans. Neural Networks, vol. 8, pp. 98-113, 1997.[20]Y. Gao and M. K.H. Leung, “Face recognition using line edge map,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 24, no. 6, 2002.[21]F. Samaria and F. Fallside, “Face identification and feature extraction using hidden Markov models,” in Image Processing: Theory and Application. G. Vernazza, ed., Elsevier, 1993.[22]C. S. Choi, T. Okazaki, H. Harashima, and T. Takebe, “A system of analyzing and synthesizing facial images,” in Proc. IEEE Int. Symposium of Circuit and Systems (ISCAS91), pp. 2665-2668, 1991.[23]M. J. Tones and T. Poggio, “Multidimensional morphable models: a framework for representing and matching object classes,” International Journal of Computer Vision, vol. 2, no. 9, pp. 107-131, 1998.[24]T. Ezzat and T. Poggio, “Facial analysis and synthesis using image-based model,” in Proc. Second International Conference on Automatic Face and Gesture Recognition, pp. 116-121, 1996.[25]P. Besl, “Active optical range image sensors,” Machine Vision Appl., vol. 1, pp. 127-152, 1988.[26]S. T. Young et al., “Three-dimensional surface digitizer for facial contour capture,” IEEE Engineering in Medicine and Biology, pp. 125-128, 1994.[27]Y. Aoki and S. Hashimoto, “Physical facial model based on 3-D-CT data for facial image analysis and synthesis,” in Proc. IEEE Int. Conf. Automat. Face Gesture Recognit., pp. 448-453, 1998.[28]T.-S. Huang and C.-H. Lee, “Motion and structure from orthographic projections,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 11, no. 5, pp. 536-540, 1989.[29]L.-A. Tang and T. S. Huang, “Automatic construction of 3D human face models based on 2D images,” in IEEE Proc. Int. Conf. Image Processing, vol. 3, pp. 467-470, 1996.[30]S. Luo and R. W. King, “Automatic human modeling in model-base facial image coding,” Proc. of Conf. on Intelligent Info. Sys., pp. 174-177, 1996.[31]K. Aizawa, H. Harashima, and T. Saito, “Model-based analysis synthesis image coding (MBASIC) system for a person’s face,” Signal Processing: Image Communication, vol. 1, pp. 139-152, 1989.[32]G. Chow and X. Li, “Towards a system for automatic facial feature detection,” Pattern Recognition 26, pp. 1739-1755, 1993.[33]M. J. T. Reinders, B. Sankur, and J. C. A. van der Lubbe, “Transformation of a general 3D facial model to actual scene face,” in Proc. 11th IAPR Int. Conf. Pattern Recognition, vol. III. Conf. C: Image, Speech and Signal Analysis, pp. 75-78, 1992.[34]F. I. Parke, “Parameterized models for facial animation,” IEEE Computer Graphic and Applications, pp. 61-68, 1982.[35]H. Li, P. Roivainen, and R. Forchheimer, “3-D motion estimation in model-based facial image coding,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 15, no. 6, pp. 545-555, 1993.[36]N. Kruger, M. Potzsch, and C. von der Malsburg, “Determination of face position and pose with a learned representation based on labeled graphs,” Image and Vision Computing, vol. 15, pp. 665-673, 1997.[37]A. Gee and R. Cipolla, “Determining the gaze of faces in images,” Image and Vision Computing, 12, pp. 639-647, 1994.[38]R. Lopez and T. S. Huang, “3D head pose computation from 2D images: templates versus features,” in IEEE Proc. Int. Conf. Image Processing, vol. 2, pp. 599-602, 1995.[39]C. S. Choi and T. Takebe, “Analysis and synthesis of facial image sequence in model-based coding,” IEEE Trans. Video Technol., vol. 4, pp. 257-275, 1994.[40]B. Sarkar, C.-H. Meng, “Parameter optimization in approximating curves and surfaces to measurement data,” Computer Aided Geometric Design, vol. 8, pp. 267-290, 1991.[41]L. Fang, D. Gossard, “Reconstruction of smooth parametric surfaces from unorganized data points, SPIE,” in Curves and Surfaces in Computer Vision and Graphics 3. J. Warren, ed., vol. 1830, pp. 173-182, 1992.[42]M. Eck, H. Hoppe, “Automatic reconstruction of B-spline surface of arbitrary topological types,” in Proc. Computer Graphics (SIGGRAPH), pp. 325-334, 1996.[43]H. Suzuki, S. Takeuchi, and T. Kanai, “Subdivision surface fitting to a range of points,” in Proc. Seventh Pacific Conference, Computer Graphics and Applications, vol. 322, pp. 158-167, 1999.[44]M. Lounsbery, T.D. Derose, and J. Warren, “Multiresolution analysis for surfaces of arbitrary topological type,” ACM Trans. Graphics, vol. 16, pp. 34-73, 1997.[45]M.H. Gross, O.G. Staadt, and R. Gatti, “Efficient triangular surface approximations using wavelets and quadtree data structures,” IEEE Trans. Visualization and Computer Graphics, vol. 22, pp. 130 —143, 1996.[46]M.H. Gross, L. Lippert, R. Dittrich, and S. Häring, “Two methods for wavelet-based volume rendering,” Computer and Graphics, vol. 21, no. 2, pp. 237-252, 1997.[47]G.-P. Bonneau, “Multiresolution analysis on irregular surface meshes,” IEEE Trans. Visualization and Computer Graphics, vol. 4, no. 4, pp. 365-378, 1998.[48]R. Grosso, C. Lürig, and T. Ertl, “The multilevel finite element method for adaptive mesh optimization and visualization of volume data,” in Proc. IEEE Visualization, pp. 387-394, 1997.[49]B. Hamann, O. Kreylos, G. Monno, and A.E. Uva, “Optimal linear spline approximation of digitized models,” in Proc. IEEE Information Visualization, pp. 244 —249, 1999.[50]Y. Fujiwara and H. Sawai, “Evolutionary computation applied to mesh optimization of a 3-D facial image,” IEEE Trans. Evolutionary Computation, vol. 32, pp. 113 —123, 1999.[51]E. Horowitz, S. Sahni, and S. Rajasekaran, Computer Algorithms. New York: Computer Science Press, 1997.[52]T. Bäck, D. B. Fogel, and Z. Michalewicz, Handbook of Evolutionary Computation. New York: Oxford, 1997.[53]M. Hrinivas and L. M. Patnaik, “Adaptive probabilities of crossover and mutation in genetic algorithms,” IEEE Trans. System, Man and Cybernetics, vol. 24, no. 4, pp. 656-667, 1994.[54]S.-Y. Ho and H.-L. Huang, “An analytic solution for the pose determination of human faces from a monocular image,” Pattern Recognition Letter, vol. 19, no. 11, pp. 1045-1054, 1998.[55]N. Belavendram, Quality by Design. Engelwoad Cliffs, NJ: Prentice-Hall, 1995.[56]S.-Y. Ho, L.-S. Shu, and H.-M. Chen, “Intelligent genetic algorithm with a new intelligent crossover using orthogonal arrays,” in Proc. Genetic and Evolutionary Computation Conference, pp. 289-296, 1999.[57]S.-Y. Ho and H.-L. Huang, “Facial modeling from an uncalibrated face image using a coarse-to-fine genetic algorithm,” Pattern Recognition, vol.34, no. 5, pp. 1015-1031, 2001.[58]S. H. Park, Robust Design and Analysis for Quality Engineering. Chapman & Hall, 1996.[59]T. P. Bagchi, Taguchi Methods Explained: Practical Steps to Robust Design. Prentice-Hall, 1993.[60]M. S. Phadke, Quality Engineering Using Robust Design. Englewood Cliffs. NJ: Prentice-Hall, 1989.[61]S.-Y. Ho and Y.-C. Chen, “An efficient evolutionary algorithm for accurate polygonal approximation,” Pattern Recognition, vol. 34, no. 12, pp. 2305-2317, 2001.[62]J. C. Bezdek, Pattern Recognition with Fuzzy Objective Function Algorithm. New York: Plenum Press, New York. 1981.[63]G. Greiner and H.-P. Seidel, “Modeling with triangular B-splines,” in Proc. ACM/IEEE solid Modeling Symp. 93, ACM Press, pp. 211-220, 1993.[64]X. Jia and M. S. Nixon, “Extending the feature vector for automatic face recognition.” IEEE Tran. Pattern Analysis and Machine Intelligence, vol. 17, no. 12, pp. 1167-1176, 1995.[65]C. R. Giardina, “Elliptic fourier features of a flosed fontour,” Computer Graphics and Image Processing, vol. 18, pp. 236-258, 1982.[66]D. E. Goldberg, Genetic Algorithm in Search, Optimization and Machine Learning. Reading, MA: Addison-Wesley, 1988.[67]P. H. Wisnton, Artificial Intelligence. Reading, MA: Addision-Wesley, 1984.[68]S.-Y. Ho, H.-M. Chen, and L.-S. Shu, “Solving large knowledge base partitioning problems using the intelligent genetic algorithm,” in Proc. the Genetic and Evolutionary Computation Conference, pp. 1567-1572, 1999.[69]N. Amenta, M. Bern, and M. Kamvysselis, “A new Voronoi-based surface reconstruction algorithm,” in Proc. Computer Graphics (SIGGRAPH), pp. 415-421, 1998.[70]T. Mori, Taguchi Techniques for Image and Pattern Developing Technology. New Jersey: Prentice-Hall, 1995.[71]Y.-W. Leung and Y. Wang, “An orthogonal genetic algorithm with quantization for global numerical optimization,” IEEE Trans. Evolutionary Computation, vol. 5, no. 1, pp. 41-53, 2001.[72]Q. Wu, “On the optimality of orthogonal experimental design,” Acta Math. Appl. Sinica, vol. 1, no. 4, pp. 283-299, 1978.[73]B. Richard, Dynamic Programming. Princeton. New Jersey: Princeton University Press, 1957.[74]N. Radcliffe and P. Surry, “Formal memetic algorithms,” in Evolutionary Computing, T. Fogarty, ed., Springer-Verlag, Berlin, pp.1-16, 1994.[75]P. Sen, J.-B. Yang, Multiple Criteria Decision Support in Engineering Design. Springer-Verlag, 1998.[76]P.S. Penev and J.J. Atick, “Local feature analysis: A general statistical theory for object representation,” Network: Computation in Neural Systems, vol. 7, pp. 477-500, 1996.[77]M. Kirby and L. Sirovich, “Application of the Karhunen-Loeve procedure for the characterization of human faces,” IEEE Trans. Pattern Analysis and Machine Intelligence, vol. 12, no. 1, pp. 103-108,1990.[78]Tom. M. Mitchell, Machine Learning. NY: McGraw-Hill, 1997.[79]Sinica IIS face database. URL: http://smart.iis.sinica.edu.tw/html/face.html.
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