2008 | ||
---|---|---|
141 | EE | Timothy F. Cootes, Carole J. Twining, Kolawole O. Babalola, Christopher J. Taylor: Diffeomorphic statistical shape models. Image Vision Comput. 26(3): 326-332 (2008) |
140 | EE | Stephen Marsland, Carole J. Twining, Christopher J. Taylor: A minimum description length objective function for groupwise non-rigid image registration. Image Vision Comput. 26(3): 333-346 (2008) |
2007 | ||
139 | EE | Carole J. Twining, Rhodri H. Davies, Christopher J. Taylor: Non-parametric Surface-Based Regularisation for Building Statistical Shape Models. IPMI 2007: 738-750 |
138 | EE | Vladimir S. Petrovic, Timothy F. Cootes, Carole J. Twining, Christopher J. Taylor: Simultaneous Registration, Segmentation and Modelling of Structure in Groups of Medical Images. ISBI 2007: 1-4 |
2006 | ||
137 | EE | Rhodri H. Davies, Carole J. Twining, Christopher J. Taylor: Consistent spherical parameterisation for statistical shape modelling. ISBI 2006: 1388-1391 |
136 | EE | Tomos G. Williams, Andrew Holmes, John C. Waterton, Rose A. Maciewicz, Anthony F. P. Nash, Christopher J. Taylor: Regional quantitative analysis of knee cartilage in a population study using MRI and model based correspondences. ISBI 2006: 311-314 |
135 | EE | Roy Schestowitz, Carole J. Twining, Timothy F. Cootes, Vladimir S. Petrovic, Christopher J. Taylor, William R. Crum: Assessing the accuracy of non-rigid registration with and without ground truth. ISBI 2006: 836-839 |
2005 | ||
134 | EE | Carole J. Twining, Timothy F. Cootes, Stephen Marsland, Vladimir S. Petrovic, Roy Schestowitz, Christopher J. Taylor: A Unified Information-Theoretic Approach to Groupwise Non-rigid Registration and Model Building. IPMI 2005: 1-14 |
2004 | ||
133 | EE | Timothy F. Cootes, Stephen Marsland, Carole J. Twining, Kate Smith, Christopher J. Taylor: Groupwise Diffeomorphic Non-rigid Registration for Automatic Model Building. ECCV (4) 2004: 316-327 |
132 | EE | Carole J. Twining, Stephen Marsland, Christopher J. Taylor: A Unified Information-Theoretic Approach to the Correspondence Problem in Image Registration. ICPR (3) 2004: 704-709 |
131 | Tomos G. Williams, Christopher J. Taylor, John C. Waterton, Andrew Holmes: Population Analysis of Knee Cartilage Thickness Maps using Model Based Correspondence. ISBI 2004: 193-196 | |
130 | Josephine H. Naish, Graham Vincent, Mike Bowes, Manish Kothari, David White, John C. Waterton, Christopher J. Taylor: Longitudinal Measurements of Signal Intensity as a Potential Marker for Cartilage Degeneration in Osteoarthritis. ISBI 2004: 205-208 | |
129 | EE | Josephine H. Naish, Geoffrey J. M. Parker, Paul C. Beatty, Alan Jackson, John C. Waterton, Simon S. Young, Christopher J. Taylor: Improved Regional Analysis of Oxygen-Enhanced Lung MR Imaging Using Image Registration. MICCAI (1) 2004: 862-869 |
128 | EE | Josephine H. Naish, Graham Vincent, Mike Bowes, Manish Kothari, David White, John C. Waterton, Christopher J. Taylor: A Method to Monitor Local Changes in MR Signal Intensity in Articular Cartilage: A Potential Marker for Cartilage Degeneration in Osteoarthritis. MICCAI (2) 2004: 959-966 |
127 | EE | Christopher J. Taylor, J. Alison Noble: Special Section: Selection of Papers From IPMI 2003. IEEE Trans. Med. Imaging 23(8): 929-929 (2004) |
126 | EE | Reyer Zwiggelaar, Susan M. Astley, Caroline R. M. Boggis, Christopher J. Taylor: Linear structures in mammographic images: detection and classification. IEEE Trans. Med. Imaging 23(9): 1077-1086 (2004) |
2003 | ||
125 | Christopher J. Taylor, J. Alison Noble: Information Processing in Medical Imaging, 18th International Conference, IPMI 2003, Ambleside, UK, July 20-25, 2003, Proceedings Springer 2003 | |
124 | EE | Tomos G. Williams, Christopher J. Taylor, ZaiXiang Gao, John C. Waterton: Corresponding Articular Cartilage Thickness Measurements in the Knee Joint by Modelling the Underlying Bone (Commercial in Confidence). IPMI 2003: 126-135 |
123 | EE | I. M. Scott, Timothy F. Cootes, Christopher J. Taylor: Improving Appearance Model Matching Using Local Image Structure. IPMI 2003: 258-269 |
122 | EE | Rhodri H. Davies, Carole J. Twining, P. Daniel Allen, Timothy F. Cootes, Christopher J. Taylor: Shape Discrimination in the Hippocampus Using an MDL Model. IPMI 2003: 38-50 |
121 | EE | Martin Styner, Kumar T. Rajamani, Lutz-Peter Nolte, Gabriel Zsemlye, Gábor Székely, Christopher J. Taylor, Rhodri H. Davies: Evaluation of 3D Correspondence Methods for Model Building. IPMI 2003: 63-75 |
120 | EE | Tomos G. Williams, Christopher J. Taylor, ZaiXiang Gao, John C. Waterton: Corresponding Articular Cartilage Thickness Measurements in the Knee Joint by Modelling the Underlying Bone. MICCAI (2) 2003: 480-487 |
119 | EE | Stephen Marsland, Carole J. Twining, Christopher J. Taylor: Groupwise Non-rigid Registration Using Polyharmonic Clamped-Plate Splines. MICCAI (2) 2003: 771-779 |
118 | EE | Rhodri H. Davies, Carole J. Twining, P. Daniel Allen, Timothy F. Cootes, Christopher J. Taylor: Building optimal 2D statistical shape models. Image Vision Comput. 21(13-14): 1171-1182 (2003) |
117 | EE | Carole J. Twining, Christopher J. Taylor: The use of kernel principal component analysis to model data distributions. Pattern Recognition 36(1): 217-227 (2003) |
2002 | ||
116 | EE | H. Kang, Timothy F. Cootes, Christopher J. Taylor: A Comparison of Face Verification Algorithms using Appearance Models. BMVC 2002 |
115 | EE | Carole J. Twining, Stephen Marsland, Christopher J. Taylor: Measuring Geodesic Distances on the Space of Bounded Diffeomorphisms. BMVC 2002 |
114 | EE | Franck Bettinger, Timothy F. Cootes, Christopher J. Taylor: Modelling Facial Behaviours. BMVC 2002 |
113 | EE | Rhodri H. Davies, Carole J. Twining, Timothy F. Cootes, John C. Waterton, Christopher J. Taylor: 3D Statistical Shape Models Using Direct Optimisation of Description Length. ECCV (3) 2002: 3-20 |
112 | EE | Timothy F. Cootes, Neil A. Thacker, Christopher J. Taylor: Automatic Model Selection by Modelling the Distribution of Residuals. ECCV (4) 2002: 621-635 |
111 | EE | Christopher J. Taylor, Timothy F. Cootes, Rhodri H. Davies, Carole J. Twining: Learning to interpret medical images. ISBI 2002: 34-37 |
110 | Rhodri H. Davies, Carole J. Twining, Timothy F. Cootes, John C. Waterton, Christopher J. Taylor: A minimum description length approach to statistical shape modeling. IEEE Trans. Med. Imaging 21(5): 525-537 (2002) | |
109 | EE | Andreas Lanitis, Christopher J. Taylor, Timothy F. Cootes: Toward Automatic Simulation of Aging Effects on Face Images. IEEE Trans. Pattern Anal. Mach. Intell. 24(4): 442-455 (2002) |
108 | EE | Anthony S. Holmes, C. J. Rose, Christopher J. Taylor: Measuring similarity between pixel signatures. Image Vision Comput. 20(4): 239-248 (2002) |
107 | EE | Nicholas Costen, Timothy F. Cootes, Gareth J. Edwards, Christopher J. Taylor: Automatic extraction of the face identity-subspace. Image Vision Comput. 20(5-6): 319-329 (2002) |
106 | EE | Anthony S. Holmes, C. J. Rose, Christopher J. Taylor: Measuring similarity between pixel signatures. Image Vision Comput. 20(5-6): 331-340 (2002) |
105 | EE | Kevin N. Walker, Timothy F. Cootes, Christopher J. Taylor: Automatically building appearance models from image sequences using salient features. Image Vision Comput. 20(5-6): 435-440 (2002) |
104 | EE | Timothy F. Cootes, Gavin V. Wheeler, Kevin N. Walker, Christopher J. Taylor: View-based active appearance models. Image Vision Comput. 20(9-10): 657-664 (2002) |
103 | EE | Nicholas Costen, Timothy F. Cootes, Christopher J. Taylor: Compensating for ensemble-specific effects when building facial models. Image Vision Comput. 20(9-10): 673-682 (2002) |
102 | EE | Anthony S. Holmes, C. J. Rose, Christopher J. Taylor: Transforming pixel signatures into an improved metric space. Image Vision Comput. 20(9-10): 701-707 (2002) |
2001 | ||
101 | Timothy F. Cootes, Christopher J. Taylor: Proceedings of the British Machine Vision Conference 2001, BMVC 2001, Manchester, UK, 10-13 September 2001 British Machine Vision Association 2001 | |
100 | EE | Rhodri H. Davies, Timothy F. Cootes, Carole J. Twining, Christopher J. Taylor: An Information Theoretic Approach to Statistical Shape Modelling. BMVC 2001 |
99 | EE | Carole J. Twining, Christopher J. Taylor: Kernel Principal Component Analysis and the construction of non-linear Active Shape Models. BMVC 2001 |
98 | EE | Nicholas Costen, Timothy F. Cootes, Christopher J. Taylor: Markov fields for recognition derived from facial texture error. BMVC 2001 |
97 | EE | Timothy F. Cootes, Christopher J. Taylor: On Representing Edge Structure for Model Matching. CVPR (1) 2001: 1114-1119 |
96 | Timothy F. Cootes, Christopher J. Taylor: Constrained Active Appearance Models. ICCV 2001: 748-754 | |
95 | EE | Philip D. Allen, Christopher J. Taylor, Ariane L. Herrick, Marina Anderson, Tonia Moore: Microvascular Dynamics in the Nailfolds of Scleroderma Patients Studied Using Na-fluorescein Dye. IPMI 2001: 204-210 |
94 | EE | Rhodri H. Davies, Timothy F. Cootes, Christopher J. Taylor: A Minimum Description Length Approach to Statistical Shape Modelling. IPMI 2001: 50-63 |
93 | EE | Rhodri H. Davies, Timothy F. Cootes, John C. Waterton, Christopher J. Taylor: An Efficient Method for Constructing Optimal Statistical Shape Models. MICCAI 2001: 57-65 |
92 | EE | Timothy F. Cootes, Gareth J. Edwards, Christopher J. Taylor: Active Appearance Models. IEEE Trans. Pattern Anal. Mach. Intell. 23(6): 681-685 (2001) |
2000 | ||
91 | EE | Nicholas Costen, Timothy F. Cootes, Christopher J. Taylor: Compensating for Ensemble-Specificity Effects when Building Facial Models. BMVC 2000 |
90 | EE | Timothy F. Cootes, Gavin V. Wheeler, Kevin N. Walker, Christopher J. Taylor: Coupled-View Active Appearance Models. BMVC 2000 |
89 | EE | Anthony S. Holmes, Christopher J. Taylor: Transforming Pixel Signatures into an Improved Metric Space. BMVC 2000 |
88 | EE | Timothy F. Cootes, Christopher J. Taylor: Combining Elastic and Statistical Models of Appearance Variation. ECCV (1) 2000: 149-163 |
87 | EE | Kevin N. Walker, Timothy F. Cootes, Christopher J. Taylor: Determining Correspondences for Statistical Models of Appearance. ECCV (1) 2000: 829-843 |
86 | EE | Gavin V. Wheeler, Patrick Courtney, Timothy F. Cootes, Christopher J. Taylor: Performance Assessment of a Face Verification Based Access Control System. FG 2000: 221-226 |
85 | EE | Timothy F. Cootes, Kevin N. Walker, Christopher J. Taylor: View-Based Active Appearance Models. FG 2000: 227-232 |
84 | EE | Kevin N. Walker, Timothy F. Cootes, Christopher J. Taylor: Determining Correspondences for Statistical Models of Facial Appearance. FG 2000: 271-276 |
83 | EE | Andreas Lanitis, Christopher J. Taylor: Towards Automatic Face Identification Robust to Ageing Variation. FG 2000: 391-397 |
82 | Alan D. Brett, Christopher J. Taylor: Construction of 3D Shape Models of Femoral Articular Cartilage Using Harmonic Maps. MICCAI 2000: 1205-1214 | |
81 | C. Beeston, Christopher J. Taylor: Automatic Landmarking of Cortical Sulci. MICCAI 2000: 125-133 | |
80 | Anthony S. Holmes, Christopher J. Taylor: An Improved Metric Space for Pixel Signatures. MICCAI 2000: 432-441 | |
79 | EE | Andrew Hill, Christopher J. Taylor, Alan D. Brett: A Framework for Automatic Landmark Identification Using a New Method of Nonrigid Correspondence. IEEE Trans. Pattern Anal. Mach. Intell. 22(3): 241-251 (2000) |
78 | EE | Alan D. Brett, Christopher J. Taylor: A method of automated landmark generation for automated 3D PDM construction. Image Vision Comput. 18(9): 739-748 (2000) |
1999 | ||
77 | EE | Nicholas Costen, Timothy F. Cootes, Gareth J. Edwards, Christopher J. Taylor: Automatic Extraction of the Face Identity-Subspace. BMVC 1999 |
76 | EE | Kevin N. Walker, Timothy F. Cootes, Christopher J. Taylor: Automatically Building Appearance Models from Images Sequences using Salient Features. BMVC 1999 |
75 | EE | Timothy F. Cootes, Gareth J. Edwards, Christopher J. Taylor: Comparing Active Shape Models with Active Appearance Models. BMVC 1999 |
74 | EE | Anthony S. Holmes, Christopher J. Taylor: Developing a Measure of Similarity between Pixel Signatures. BMVC 1999 |
73 | EE | C. B. H. Wolstenholme, Christopher J. Taylor: Using Wavelets for Compression and Multiresolution Search with Active Appearance Models. BMVC 1999 |
72 | EE | Gareth J. Edwards, Christopher J. Taylor, Timothy F. Cootes: Improving Identification Performance by Integrating Evidence from Sequences. CVPR 1999: 1486-1491 |
71 | EE | Nicholas Costen, Timothy F. Cootes, Gareth J. Edwards, Christopher J. Taylor: Simultaneous Extraction of Functional Face Subspaces. CVPR 1999: 1492- |
70 | EE | Andreas Lanitis, Christopher J. Taylor, Timothy F. Cootes: Modeling the Process of Aging in Face Images. ICCV 1999: 131-136 |
69 | EE | Gareth J. Edwards, Timothy F. Cootes, Christopher J. Taylor: Advances in Active Appearance Models. ICCV 1999: 137-142 |
68 | EE | A. Caunce, Christopher J. Taylor: Using Local Geometry to Build 3D Sulcal Models. IPMI 1999: 196-209 |
67 | EE | Timothy F. Cootes, C. Beeston, Gareth J. Edwards, Christopher J. Taylor: A Unified Framework for Atlas Matching Using Active Appearance Models. IPMI 1999: 322-333 |
66 | EE | Alan D. Brett, Christopher J. Taylor: A Framework for Automated Landmark Generation for Automated 3D Statistical Model Construction. IPMI 1999: 376-381 |
65 | EE | Reyer Zwiggelaar, Christopher J. Taylor, Caroline M. E. Rubin: Detection of the Central Mass of Spiculated Lesions - Signature Normalisation and Model Data Aspects. IPMI 1999: 406-411 |
64 | Reyer Zwiggelaar, Christopher J. Taylor, Caroline R. M. Boggis: Automatic Classification of Linear Structures in Mammographic Images. MICCAI 1999: 263-270 | |
63 | Alan D. Brett, John C. Waterton, Stuart Solloway, J. E. Foster, M. C. Keen, S. Gandy, B. J. Middleton, Rose A. Maciewicz, I. Watt, P. A. Dieppe, Christopher J. Taylor: The Measurement of Focal Diurnal Variation in the Femoral Articular Cartilage of the Knee. MICCAI 1999: 328-337 | |
62 | C. B. H. Wolstenholme, Christopher J. Taylor: Wavelet Compression of Active Appearance Models. MICCAI 1999: 544-554 | |
61 | Philip D. Allen, Christopher J. Taylor, Ariane L. Herrick, Tonia Moore: Image Analysis of Nailfold Capillary Patterns from Video Sequences. MICCAI 1999: 698-705 | |
60 | EE | Timothy F. Cootes, Christopher J. Taylor: A mixture model for representing shape variation. Image Vision Comput. 17(8): 567-573 (1999) |
59 | EE | Alan D. Brett, Andrew Hill, Christopher J. Taylor: A method of 3D surface correspondence and interpolation for merging shape examples. Image Vision Comput. 17(8): 635-642 (1999) |
1998 | ||
58 | EE | Timothy F. Cootes, Gareth J. Edwards, Christopher J. Taylor: A Comparative Evaluation of Active Appearance Model Algorithms. BMVC 1998 |
57 | EE | Alan D. Brett, Christopher J. Taylor: A Method of Automated Landmark Generation for Automated 3D PDM Construction. BMVC 1998 |
56 | EE | Philip D. Allen, Christopher J. Taylor, Ariane L. Herrick, Tonia Moore: Enhancement of Temporally Variable Features in Nailfold Capillary Patterns. BMVC 1998 |
55 | EE | Kevin N. Walker, Timothy F. Cootes, Christopher J. Taylor: Locating Salient Object Features. BMVC 1998 |
54 | EE | Timothy F. Cootes, Gareth J. Edwards, Christopher J. Taylor: Active Appearance Models. ECCV (2) 1998: 484-498 |
53 | EE | Gareth J. Edwards, Timothy F. Cootes, Christopher J. Taylor: Face Recognition Using Active Appearance Models. ECCV (2) 1998: 581-595 |
52 | Kevin N. Walker, Timothy F. Cootes, Christopher J. Taylor: Locating Salient Facial Features Using Image Invariants. FG 1998: 242-247 | |
51 | Gareth J. Edwards, Christopher J. Taylor, Timothy F. Cootes: Learning to Identify and Track Faces in Image Sequences. FG 1998: 260-267 | |
50 | Gareth J. Edwards, Christopher J. Taylor, Timothy F. Cootes: Interpreting Face Images Using Active Appearance Models. FG 1998: 300-305 | |
49 | Gareth J. Edwards, Christopher J. Taylor, Timothy F. Cootes: Learning to Identify and Track Faces in Image Sequences. ICCV 1998: 317-322 | |
48 | A. Caunce, Christopher J. Taylor: 3D Point Distribution Models of the Cortical Sulci. ICCV 1998: 402-407 | |
47 | EE | Reyer Zwiggelaar, Christopher J. Taylor: Abnormal Masses in Mammograms: Detection Using Scale-Orientation Signatures. MICCAI 1998: 570-577 |
46 | EE | Gareth J. Edwards, Andreas Lanitis, Christopher J. Taylor, Timothy F. Cootes: Statistical models of face images - improving specificity. Image Vision Comput. 16(3): 203-211 (1998) |
1997 | ||
45 | EE | A. Caunce, Christopher J. Taylor: 3D Point Distribution Models of the Cortical Sulci. BMVC 1997 |
44 | EE | Alan D. Brett, Andrew Hill, Christopher J. Taylor: A Method of 3D Surface Correspondence for Automated Landmark Generation. BMVC 1997 |
43 | EE | Timothy F. Cootes, Christopher J. Taylor: A Mixture Model for Representing Shape Variation. BMVC 1997 |
42 | EE | Kevin N. Walker, Timothy F. Cootes, Christopher J. Taylor: Correspondence Using Distinct Points Based on Image Invariants. BMVC 1997 |
41 | EE | Tim C. Parr, Reyer Zwiggelaar, Christopher J. Taylor, Susan M. Astley, Caroline R. M. Boggis: Detecting Stellate Lesions in Mammograms via Statistical Models. BMVC 1997 |
40 | EE | Gareth J. Edwards, Christopher J. Taylor, Timothy F. Cootes: Learning to Identify and Track Faces in Image Sequences. BMVC 1997 |
39 | Aaron C. W. Kotcheff, Christopher J. Taylor: Automatic Construction of Eigenshape Models by Genetic Algorithm. IPMI 1997: 1-14 | |
38 | Reyer Zwiggelaar, Tim C. Parr, Caroline R. M. Boggis, Susan M. Astley, Christopher J. Taylor: Statistical Modelling of Lines and Structures in Mammograms. IPMI 1997: 405-410 | |
37 | Paul P. Smyth, Christopher J. Taylor, Judith E. Adams: Automatic Measurement of Vertebral Shape Using Active Shape Models. IPMI 1997: 441-446 | |
36 | Andrew Hill, Alan D. Brett, Christopher J. Taylor: Automatic Landmark Identification Using a New Method of Non-rigid Correspondence. IPMI 1997: 483-488 | |
35 | EE | Andreas Lanitis, Christopher J. Taylor, Timothy F. Cootes: Automatic Interpretation and Coding of Face Images Using Flexible Models. IEEE Trans. Pattern Anal. Mach. Intell. 19(7): 743-756 (1997) |
34 | EE | T. Ahmad, Christopher J. Taylor, Andreas Lanitis, Timothy F. Cootes: Tracking and recognising hand gestures, using statistical shape models. Image Vision Comput. 15(5): 345-352 (1997) |
33 | EE | P. D. Sozou, Timothy F. Cootes, Christopher J. Taylor, E. C. Di Mauro, Andreas Lanitis: Non-linear point distribution modelling using a multi-layer perceptron. Image Vision Comput. 15(6): 457-463 (1997) |
32 | EE | Paul P. Smyth, Christopher J. Taylor, Judith E. Adams: Automatic measurement of vertebral shape using active shape models. Image Vision Comput. 15(8): 575-581 (1997) |
1996 | ||
31 | EE | Andrew Hill, Christopher J. Taylor: A Method of Non-Rigid Correspondence for AutomaticLandmark Identification. BMVC 1996 |
30 | EE | E. C. Di Mauro, Timothy F. Cootes, Christopher J. Taylor, Andreas Lanitis: Active Shape Model Search using Pairwise Geometric Histograms. BMVC 1996 |
29 | EE | Paul P. Smyth, Christopher J. Taylor, Judith E. Adams: Automatic Measurement of Vertebral Shape using Active Shape Models. BMVC 1996 |
28 | EE | Timothy F. Cootes, Christopher J. Taylor: Data Driven Refinement of Active Shape Model Search. BMVC 1996 |
27 | EE | Reyer Zwiggelaar, Tim C. Parr, Christopher J. Taylor: Finding Orientated Line Patterns in Digital Mammographic Images. BMVC 1996 |
26 | Stuart Solloway, Christopher J. Taylor, Charles E. Hutchinson, John C. Waterton: Quantification of Articular Cartilage from MR Images Using Active Shape Models. ECCV (2) 1996: 400-411 | |
25 | Timothy F. Cootes, Christopher J. Taylor: Locating Objects of Varying Shape Using Statistical Feature Detectors. ECCV (2) 1996: 465-474 | |
24 | EE | Timothy F. Cootes, Christopher J. Taylor: Locating Faces Using Statistical Feature Detectors. FG 1996: 204-211 |
23 | EE | Gareth J. Edwards, Andreas Lanitis, Christopher J. Taylor, Timothy F. Cootes: Modelling the variability in face images. FG 1996: 328-333 |
22 | EE | Timothy F. Cootes, G. J. Page, C. B. Jackson, Christopher J. Taylor: Statistical grey-level models for object location and identification. Image Vision Comput. 14(8): 533-540 (1996) |
21 | EE | Timothy F. Cootes, E. C. Di Mauro, Christopher J. Taylor, Andreas Lanitis: Flexible 3D models from uncalibrated cameras. Image Vision Comput. 14(8): 581-587 (1996) |
20 | EE | Andrew Hill, Timothy F. Cootes, Christopher J. Taylor: Active Shape Models and the shape approximation problem. Image Vision Comput. 14(8): 601-607 (1996) |
1995 | ||
19 | EE | Andreas Lanitis, Christopher J. Taylor, Timothy F. Cootes: A Unified Approach to Coding and Interpreting Face Images. ICCV 1995: 368-373 |
18 | EE | Timothy F. Cootes, Christopher J. Taylor, David H. Cooper, Jim Graham: Active Shape Models-Their Training and Application. Computer Vision and Image Understanding 61(1): 38-59 (1995) |
17 | EE | Andreas Lanitis, Christopher J. Taylor, Timothy F. Cootes: Automatic face identification system using flexible appearance models. Image Vision Comput. 13(5): 393-401 (1995) |
16 | EE | Timothy F. Cootes, Christopher J. Taylor: Combining point distribution models with shape models based on finite element analysis. Image Vision Comput. 13(5): 403-409 (1995) |
15 | EE | P. D. Sozou, Timothy F. Cootes, Christopher J. Taylor, E. C. Di Mauro: Non-linear generalization of point distribution models using polynomial regression. Image Vision Comput. 13(5): 451-457 (1995) |
14 | EE | J. Jeffrey Hunter, Jim Graham, Christopher J. Taylor: User programmable visual inspection. Image Vision Comput. 13(8): 623-628 (1995) |
1994 | ||
13 | EE | A. G. Jones, Christopher J. Taylor: Solving Inverse Problems in Computer Vision by Scale Space Reconstruction. MVA 1994: 401-404 |
12 | EE | Noel Bryson, R. N. Dixon, J. Jeffrey Hunter, Christopher J. Taylor: Contextual classification of cracks. Image Vision Comput. 12(3): 149-154 (1994) |
11 | EE | Timothy F. Cootes, Andrew Hill, Christopher J. Taylor, J. Haslam: Use of active shape models for locating structures in medical images. Image Vision Comput. 12(6): 355-365 (1994) |
10 | EE | A. G. Jones, Christopher J. Taylor: Robust shape from shading. Image Vision Comput. 12(7): 411-421 (1994) |
1993 | ||
9 | Timothy F. Cootes, Andrew Hill, Christopher J. Taylor, J. Haslam: The Use of Active Shape Models for Locating Structures in Medical Images. IPMI 1993: 33-47 | |
8 | EE | Piotr Jasiobedzki, Christopher J. Taylor, John N. H. Brunt: Automated analysis of retinal images. Image Vision Comput. 11(3): 139-144 (1993) |
1992 | ||
7 | Andrew Hill, Christopher J. Taylor, Timothy F. Cootes: Object Recognition by Flexible Template Matching using Genetic Algorithms. ECCV 1992: 852-856 | |
6 | EE | Timothy F. Cootes, David H. Cooper, Christopher J. Taylor, Jim Graham: Trainable method of parametric shape description. Image Vision Comput. 10(5): 289-294 (1992) |
5 | EE | Andrew Hill, Christopher J. Taylor: Model-based image interpretation using genetic algorithms. Image Vision Comput. 10(5): 295-300 (1992) |
4 | EE | Noel Bryson, Christopher J. Taylor: Boundary detection using Bayesian nets. Image Vision Comput. 10(5): 308-311 (1992) |
1991 | ||
3 | EE | Timothy P. Ellison, Christopher J. Taylor: Calculating the surface topography of integrated circuit wafers from SEM images. Image Vision Comput. 9(1): 3-9 (1991) |
1989 | ||
2 | EE | David H. Cooper, Noel Bryson, Christopher J. Taylor: An object location strategy using shape and grey-level models. Image Vision Comput. 7(1): 50-56 (1989) |
1 | EE | Peter W. Woods, David Pycock, Christopher J. Taylor: A frame-based system for modelling and executing visual tasks. Image Vision Comput. 7(2): 102-108 (1989) |