Face recognition by elastic bunch graph matching

We present a system for recognizing human faces from single images out of a large database containing one image per person. Faces are represented by labeled graphs, based on a Gabor wavelet transform. Image graphs of new faces are extracted by an elastic graph matching process and can be compared by a simple similarity function. The system differs from Lades et al. (1993) in three respects. Phase information is used for accurate node positioning. Object-adapted graphs are used to handle large rotations in depth. Image graph extraction is based on a novel data structure, the bunch graph, which is constructed from a small set of sample image graphs.

[1]  G. G. Stokes "J." , 1890, The New Yale Book of Quotations.

[2]  P. O. Bishop,et al.  Spatial vision. , 1971, Annual review of psychology.

[3]  D. Pollen,et al.  Phase relationships between adjacent simple cells in the visual cortex. , 1981, Science.

[4]  J. P. Jones,et al.  An evaluation of the two-dimensional Gabor filter model of simple receptive fields in cat striate cortex. , 1987, Journal of neurophysiology.

[5]  L Sirovich,et al.  Low-dimensional procedure for the characterization of human faces. , 1987, Journal of the Optical Society of America. A, Optics and image science.

[6]  John G. Daugman,et al.  Complete discrete 2-D Gabor transforms by neural networks for image analysis and compression , 1988, IEEE Trans. Acoust. Speech Signal Process..

[7]  Lawrence Sirovich,et al.  Application of the Karhunen-Loeve Procedure for the Characterization of Human Faces , 1990, IEEE Trans. Pattern Anal. Mach. Intell..

[8]  A. Yuille Deformable Templates for Face Recognition , 1991, Journal of Cognitive Neuroscience.

[9]  M. Turk,et al.  Eigenfaces for Recognition , 1991, Journal of Cognitive Neuroscience.

[10]  Ashok Samal,et al.  Automatic recognition and analysis of human faces and facial expressions: a survey , 1992, Pattern Recognit..

[11]  Joachim M. Buhmann,et al.  Object recognition with Gabor functions in the dynamic link architecture , 1992 .

[12]  Rama Chellappa,et al.  A feature based approach to face recognition , 1992, Proceedings 1992 IEEE Computer Society Conference on Computer Vision and Pattern Recognition.

[13]  Christoph von der Malsburg,et al.  A Neural System for the Recognition of Partially Occluded Objects in Cluttered Scenes: A Pilot Study , 1993, Int. J. Pattern Recognit. Artif. Intell..

[14]  Joachim M. Buhmann,et al.  Distortion Invariant Object Recognition in the Dynamic Link Architecture , 1993, IEEE Trans. Computers.

[15]  Alice J. O'Toole,et al.  Low-dimensional representation of faces in higher dimensions of the face space , 1993 .

[16]  Hanspeter A. Mallot,et al.  Phase-based binocular vergence control and depth reconstruction using active vision , 1994 .

[17]  Timothy F. Cootes,et al.  An Automatic Face Identification System Using Flexible Appearance Models , 1994, BMVC.

[18]  Alex Pentland,et al.  Face recognition using view-based and modular eigenspaces , 1994, Optics & Photonics.

[19]  David Beymer,et al.  Face recognition under varying pose , 1994, 1994 Proceedings of IEEE Conference on Computer Vision and Pattern Recognition.

[20]  Alice J. O'Toole,et al.  Connectionist models of face processing: A survey , 1994, Pattern Recognit..

[21]  Harry Wechsler,et al.  Benchmark Studies on Face Recognition , 1995 .

[22]  Jörg Kopecz,et al.  ZN-Face: A system for access control using automated face recognition , 1995, SNN Symposium on Neural Networks.

[23]  David Beymer,et al.  Face recognition from one example view , 1995, Proceedings of IEEE International Conference on Computer Vision.

[24]  Norbert Krüger,et al.  Face Recognition and Gender determination , 1995 .

[25]  Rama Chellappa,et al.  Human and machine recognition of faces: a survey , 1995, Proc. IEEE.

[26]  Gaile G. Gordon,et al.  Face recognition from frontal and profile views , 1995 .

[27]  P. Jonathon Phillips,et al.  Representation and registration in face recognition and medical imaging , 1996 .

[28]  Christoph von der Malsburg,et al.  Tracking and Learning Graphs on Image Sequences of Faces , 1996, ICANN.

[29]  Sandor Z. Der,et al.  FERET (Face Recognition Technology) Recognition Algorithm Development and Test Results. , 1996 .

[30]  Penio S. Penev,et al.  Local feature analysis: A general statistical theory for object representation , 1996 .

[31]  David J. Field,et al.  Emergence of simple-cell receptive field properties by learning a sparse code for natural images , 1996, Nature.

[32]  C. von der Malsburg,et al.  Improving object recognition by transforming Gabor filter responses. , 1996, Network.

[33]  Norbert Krüger,et al.  Estimation of Face Position and Pose with Labeled Graphs , 1996, BMVC.

[34]  Christoph von der Malsburg,et al.  Tracking and learning graphs and pose on image sequences of faces , 1996, Proceedings of the Second International Conference on Automatic Face and Gesture Recognition.

[35]  KrügerNorbert,et al.  Face Recognition by Elastic Bunch Graph Matching , 1997 .

[36]  Norbert Krüger,et al.  Determination of face position and pose with a learned representation based on labelled graphs , 1997, Image Vis. Comput..

[37]  Rolf P. Würtz,et al.  Object Recognition Robust Under Translations, Deformations, and Changes in Background , 1997, IEEE Trans. Pattern Anal. Mach. Intell..

[38]  Norbert Krüger,et al.  An Algorithm for the Learning of Weights in Discrimination Functions Using a Priori Constraints , 1997, IEEE Trans. Pattern Anal. Mach. Intell..

[39]  Tomaso A. Poggio,et al.  Linear Object Classes and Image Synthesis From a Single Example Image , 1997, IEEE Trans. Pattern Anal. Mach. Intell..

[40]  Norbert Krüger,et al.  Face Recognition by Elastic Bunch Graph Matching , 1997, IEEE Trans. Pattern Anal. Mach. Intell..

[41]  Alex Pentland,et al.  Probabilistic Visual Learning for Object Representation , 1997, IEEE Trans. Pattern Anal. Mach. Intell..

[42]  Laurenz Wiskott,et al.  Phantom faces for face analysis , 1997, Proceedings of International Conference on Image Processing.

[43]  Terrence J. Sejnowski,et al.  The “independent components” of natural scenes are edge filters , 1997, Vision Research.

[44]  Hartmut Neven,et al.  The Bochum/USC Face Recognition System And How it Fared in the FERET Phase III Test , 1998 .

[45]  Harry Wechsler,et al.  The FERET database and evaluation procedure for face-recognition algorithms , 1998, Image Vis. Comput..

[46]  Laurenz Wiskott,et al.  The role of topographical constraints in face recognition , 1999, Pattern Recognition Letters.

[47]  C. Malsburg,et al.  Autonomous Learning of Object Representations Utilizing Self { Controlled Movements 1 , .