- CSB - MetaPress - Google - Bing - Yahoo
 | 2013 | |
|---|---|---|
| j48 |      | Ayman Abaza, Arun Ross, Christina Hebert, Mary Ann F. Harrison, Mark S. Nixon: A survey on ear biometrics. ACM Comput. Surv. 45(2): 22 (2013) |
| j47 | | Cem Direkoglu, Mark S. Nixon: On using an analogy to heat flow for shape extraction. Pattern Anal. Appl. 16(2): 125-139 (2013) |
| j46 | | Sung-Uk Jung, Mark S. Nixon: Heel strike detection based on human walking movement for surveillance analysis. Pattern Recognition Letters 34(8): 895-902 (2013) |
| 2012 | ||
| j45 | | Baofeng Guo, Mark S. Nixon, Thyagaraju Damarla: Improving acoustic vehicle classification by information fusion. Pattern Anal. Appl. 15(1): 29-43 (2012) |
| j44 | | Darko S. Matovski, Mark S. Nixon, Sasan Mahmoodi, John N. Carter: The Effect of Time on Gait Recognition Performance. IEEE Transactions on Information Forensics and Security 7(2): 543-552 (2012) |
| j43 | | Sung-Uk Jung, Mark S. Nixon: On Using Gait to Enhance Frontal Face Extraction. IEEE Transactions on Information Forensics and Security 7(6): 1802-1811 (2012) |
| c100 | | Gunawan Ariyanto, Mark S. Nixon: Marionette mass-spring model for 3D gait biometrics. ICB 2012: 354-359 |
| c99 | | Sung-Uk Jung, Mark S. Nixon: Model-based feature refinement by ellipsoidal face tracking. ICPR 2012: 1209-1212 |
| c98 | | Darko S. Matovski, Mark S. Nixon, Sasan Mahmoodi, T. Mansfield: On including quality in applied automatic gait recognition. ICPR 2012: 3272-3275 |
| c97 | | Abdenour Hadid, Mohammad Ghahramani, Vili Kellokumpu, Matti Pietikäinen, John D. Bustard, Mark S. Nixon: Can gait biometrics be Spoofed? ICPR 2012: 3280-3283 |
| c96 | | |
| c95 | | Sasan Mahmoodi, Muayed S. Al-Huseiny, Mark S. Nixon: Similarity Registration for Shapes Based on Signed Distance Functions. ISVC (1) 2012: 599-609 |
| c94 | | B. M. Waller, Mark S. Nixon, John N. Carter: Analysing Micro- and Macro-Structures in Textures. SITIS 2012: 246-253 |
| 2011 | ||
| j42 | | Mark S. Nixon, Xin U. Liu, Cem Direkoglu, David J. Hurley: On Using Physical Analogies for Feature and Shape Extraction in Computer Vision. Comput. J. 54(1): 11-25 (2011) |
| j41 | | Banafshe Arbab-Zavar, Mark S. Nixon: On guided model-based analysis for ear biometrics. Computer Vision and Image Understanding 115(4): 487-502 (2011) |
| j40 | | Cem Direkoglu, Mark S. Nixon: Shape classification via image-based multiscale description. Pattern Recognition 44(9): 2134-2146 (2011) |
| j39 | | Cem Direkoglu, Mark S. Nixon: Moving-edge detection via heat flow analogy. Pattern Recognition Letters 32(2): 270-279 (2011) |
| j38 | | Alastair H. Cummings, Mark S. Nixon, John N. Carter: The image ray transform for structural feature detection. Pattern Recognition Letters 32(15): 2053-2060 (2011) |
| c93 | | Sung-Uk Jung, Mark S. Nixon: Detection Human Motion with Heel Strikes for Surveillance Analysis. CAIP (1) 2011: 9-16 |
| c92 | | |
| c91 | | Mina I. S. Ibrahim, Mark S. Nixon, Sasan Mahmoodi: The effect of time on ear biometrics. IJCB 2011: 1-6 |
| c90 | | Daniel A. Reid, Mark S. Nixon: Using comparative human descriptions for soft biometrics. IJCB 2011: 1-6 |
| c89 | | George A. Cushen, Mark S. Nixon: Markerless real-time garment retexturing from monocular 3D reconstruction. ICSIPA 2011: 88-93 |
| c88 | | Richard J. Lowe, Mark S. Nixon: Evolving Content-Driven Superpixels for Accurate Image Representation. ISVC (1) 2011: 192-201 |
| 2010 | ||
| j37 | | Sina Samangooei, Mark S. Nixon: Performing content-based retrieval of humans using gait biometrics. Multimedia Tools Appl. 49(1): 195-212 (2010) |
| j36 | | Michela Goffredo, Imed Bouchrika, John N. Carter, Mark S. Nixon: Performance analysis for automated gait extraction and recognition in multi-camera surveillance. Multimedia Tools Appl. 50(1): 75-94 (2010) |
| j35 | | John D. Bustard, Mark S. Nixon: Toward Unconstrained Ear Recognition From Two-Dimensional Images. IEEE Transactions on Systems, Man, and Cybernetics, Part A 40(3): 486-494 (2010) |
| j34 | | Liang Wang, Guoying Zhao, Nasir Rajpoot, Mark S. Nixon: Special Issue on New Advances in Video-Based Gait Analysis and Applications: Challenges and Solutions. IEEE Transactions on Systems, Man, and Cybernetics, Part B 40(4): 982-985 (2010) |
| j33 | | Michela Goffredo, Imed Bouchrika, John N. Carter, Mark S. Nixon: Self-Calibrating View-Invariant Gait Biometrics. IEEE Transactions on Systems, Man, and Cybernetics, Part B 40(4): 997-1008 (2010) |
| c87 | | John D. Bustard, Mark S. Nixon: 3D morphable model construction for robust ear and face recognition. CVPR 2010: 2582-2589 |
| c86 | | Muayed S. Al-Huseiny, Sasan Mahmoodi, Mark S. Nixon: Gait Learning-Based Regenerative Model: A Level Set Approach. ICPR 2010: 2644-2647 |
| c85 | | Imed Bouchrika, John N. Carter, Mark S. Nixon, Roland Mörzinger, Georg Thallinger: Using Gait Features for Improving Walking People Detection. ICPR 2010: 3097-3100 |
| c84 | | Muayed S. Al-Huseiny, Sasan Mahmoodi, Mark S. Nixon: Robust Rigid Shape Registration Method Using a Level Set Formulation. ISVC (2) 2010: 252-261 |
| c83 | | Alastair H. Cummings, Mark S. Nixon: Retinal Vessel Extraction with the Image Ray Transform. ISVC (2) 2010: 332-341 |
| c82 | | Mina I. S. Ibrahim, Mark S. Nixon, Sasan Mahmoodi: Shaped Wavelets for Curvilinear Structures for Ear Biometrics. ISVC (1) 2010: 499-508 |
| c81 | | Banafshe Arbab-Zavar, Imed Bouchrika, John N. Carter, Mark S. Nixon: On Supervised Human Activity Analysis for Structured Environments. ISVC (3) 2010: 625-634 |
| c80 |  | Alastair H. Cummings, Mark S. Nixon, John N. Carter: Circle Detection using the Image Ray Transform - A Novel Technique for using a Ray Analogy to Extract Circular Features. VISAPP (2) 2010: 23-32 |
| 2009 | ||
| j32 | | Baofeng Guo, Mark S. Nixon: Gait Feature Subset Selection by Mutual Information. IEEE Transactions on Systems, Man, and Cybernetics, Part A 39(1): 36-46 (2009) |
| c79 | | Imed Bouchrika, Michela Goffredo, John N. Carter, Mark S. Nixon: Covariate Analysis for View-Point Independent Gait Recognition. ICB 2009: 990-999 |
| c78 | | Muayed S. Al-Huseiny, Sasan Mahmoodi, Mark S. Nixon: Level Set Gait Analysis for Synthesis and Reconstruction. ISVC (2) 2009: 377-386 |
| r2 | | Chew-Yean Yam, Mark S. Nixon: Gait Recognition, Model-Based. Encyclopedia of Biometrics 2009: 633-639 |
| r1 | | David J. Hurley, Mark S. Nixon: Physical Analogies for Ear Recognition. Encyclopedia of Biometrics 2009: 1082-1089 |
| e3 | | Massimo Tistarelli, Mark S. Nixon (Eds.): Advances in Biometrics, Third International Conference, ICB 2009, Alghero, Italy, June 2-5, 2009. Proceedings. Lecture Notes in Computer Science 5558, Springer 2009, isbn 978-3-642-01792-6 |
| 2008 | ||
| c77 | | Mark S. Nixon, Cem Direkoglu, Xin U. Liu, David J. Hurley: On Using Physical Analogies for Feature and Shape Extraction in Computer Vision. BCS Int. Acad. Conf. 2008: 163-177 |
| c76 | | Jonathon S. Hare, Sina Samangooei, Paul H. Lewis, Mark S. Nixon: Semantic spaces revisited: investigating the performance of auto-annotation and semantic retrieval using semantic spaces. CIVR 2008: 359-368 |
| c75 | | |
| c74 | | Michela Goffredo, Richard D. Seely, John N. Carter, Mark S. Nixon: Markerless view independent gait analysis with self-camera calibration. FG 2008: 1-6 |
| c73 | | |
| c72 | | |
| c71 | | Cem Direkoglu, Mark S. Nixon: Image-Based Multiscale Shape Description Using Gaussian Filter. ICVGIP 2008: 673-678 |
| c70 | | Michela Goffredo, Imed Bouchrika, John N. Carter, Mark S. Nixon: Performance analysis for gait in camera networks. AREA 2008: 73-80 |
| c69 | | Sina Samangooei, Mark S. Nixon: Performing Content-Based Retrieval of Humans Using Gait Biometrics. SAMT 2008: 105-120 |
| 2007 | ||
| j31 | | Peter W. Gething, Peter M. Atkinson, A. M. Noor, P. W. Gikandi, Simon I. Hay, Mark S. Nixon: A local space-time kriging approach applied to a national outpatient malaria data set. Computers & Geosciences 33(10): 1337-1350 (2007) |
| c68 | | |
| c67 | | Michela Goffredo, Nicholas Spencer, Daniel Pearce, John N. Carter, Mark S. Nixon: Human Perambulation as a Self Calibrating Biometric. AMFG 2007: 139-153 |
| c66 | | |
| c65 | | Banafshe Arbab-Zavar, Mark S. Nixon: On Shape-Mediated Enrolment in Ear Biometrics. ISVC (2) 2007: 549-558 |
| c64 | | Imed Bouchrika, Mark S. Nixon: Model-Based Feature Extraction for Gait Analysis and Recognition. MIRAGE 2007: 150-160 |
| 2006 | ||
| j30 | | Jamie D. Shutler, Mark S. Nixon: Zernike velocity moments for sequence-based description of moving features. Image Vision Comput. 24(4): 343-356 (2006) |
| c63 | | |
| c62 | | Lee Middleton, David K. Wagg, Alex I. Bazin, John N. Carter, Mark S. Nixon: A smart environment for biometric capture. CASE 2006: 57-62 |
| c61 | | Galina V. Veres, Mark S. Nixon, John N. Carter: Is Enough Enough? What Is Sufficiency in Biometric Data? ICIAR (2) 2006: 262-273 |
| c60 | | Lee Middleton, David K. Wagg, Alex I. Bazin, John N. Carter, Mark S. Nixon: Developing a non-intrusive biometric environment. IROS 2006: 723-728 |
| c59 | | Alex I. Bazin, T. Cole, B. Kett, Mark S. Nixon: An Automated System for Contact Lens Inspection. ISVC (1) 2006: 141-150 |
| c58 | | Jang-Hee Yoo, Mark S. Nixon: Feature Extraction and Selection for Recognizing Humans by Their Gait. ISVC (2) 2006: 156-165 |
| c57 | | Cem Direkoglu, Mark S. Nixon: Low Level Moving-Feature Extraction Via Heat Flow Analogy. ISVC (1) 2006: 243-252 |
| 2005 | ||
| j29 | | David J. Hurley, Mark S. Nixon, John N. Carter: Force field feature extraction for ear biometrics. Computer Vision and Image Understanding 98(3): 491-512 (2005) |
| j28 | | Eugenia Montiel, Alberto S. Aguado, Mark S. Nixon: Texture classification via conditional histograms. Pattern Recognition Letters 26(11): 1740-1751 (2005) |
| c56 | | Jang-Hee Yoo, Doosung Hwang, Mark S. Nixon: Gender Classification in Human Gait Using Support Vector Machine. ACIVS 2005: 138-145 |
| c55 | | Lee Middleton, Alex A. Buss, Alex I. Bazin, Mark S. Nixon: A Floor Sensor System for Gait Recognition. AutoID 2005: 171-176 |
| c54 | | David J. Hurley, Mark S. Nixon, John N. Carter: Ear Biometrics by Force Field Convergence. AVBPA 2005: 386-394 |
| c53 | | Galina V. Veres, Mark S. Nixon, John N. Carter: Modelling the Time-Variant Covariates for Gait Recognition. AVBPA 2005: 597-606 |
| c52 | | Lee Middleton, Sylvia C. Wong, Michael O. Jewell, John N. Carter, Mark S. Nixon: A middleware for a large array of cameras. IROS 2005: 801-806 |
| c51 | | Galina V. Veres, Mark S. Nixon, John N. Carter: Model-Based Approaches for Predicting Gait Changes over Time. IWBRS 2005: 213-220 |
| c50 | | Lee Middleton, Sylvia C. Wong, Michael O. Jewell, John N. Carter, Mark S. Nixon: Lightweight Agent Framework for Camera Array Applications. KES (4) 2005: 150-156 |
| c49 | | Michael O. Jewell, Lee Middleton, Mark S. Nixon, Adam Prügel-Bennett, Sylvia C. Wong: A Distributed Approach to Musical Composition. KES (3) 2005: 642-648 |
| c48 | | Alex I. Bazin, Mark S. Nixon: Gait Verification Using Probabilistic Methods. WACV/MOTION 2005: 60-65 |
| 2004 | ||
| j27 | | David K. Wagg, Mark S. Nixon: Automated markerless extraction of walking people using deformable contour models. Journal of Visualization and Computer Animation 15(3-4): 399-406 (2004) |
| j26 | | Chew-Yean Yam, Mark S. Nixon, John N. Carter: Automated person recognition by walking and running via model-based approaches. Pattern Recognition 37(5): 1057-1072 (2004) |
| j25 | | Yalin Zheng, Mark S. Nixon, Robert Allen: Automated segmentation of lumbar vertebrae in digital videofluoroscopic images. IEEE Trans. Med. Imaging 23(1): 45-52 (2004) |
| c47 | | Galina V. Veres, Layla Gordon, John N. Carter, Mark S. Nixon: What Image Information Is Important in Silhouette-Based Gait Recognition? CVPR (2) 2004: 776-782 |
| c46 | | Stuart D. Mowbray, Mark S. Nixon: Extraction and Recognition of Periodically Deforming Objects by Continuous, Spatio-Temporal Shape Description. CVPR (2) 2004: 895-901 |
| c45 | | David K. Wagg, Mark S. Nixon: On Automated Model-Based Extraction and Analysis of Gait. FGR 2004: 11-16 |
| c44 | | |
| c43 | | Ahmad Al-Mazeed, Mark S. Nixon, Steve R. Gunn: Classifiers Combination for Improved Motion Segmentation. ICIAR (2) 2004: 363-371 |
| c42 | | Peter Myerscough, Mark S. Nixon: Estimating the phase congruency of localised frequencies. ICIP 2004: 275-278 |
| 2003 | ||
| j24 | | David Cunado, Mark S. Nixon, John N. Carter: Automatic extraction and description of human gait models for recognition purposes. Computer Vision and Image Understanding 90(1): 1-41 (2003) |
| j23 | | Andrew J. Tatem, Hugh G. Lewis, Peter M. Atkinson, Mark S. Nixon: Increasing the spatial resolution of agricultural land cover maps using a Hopfield neural network. International Journal of Geographical Information Science 17(7): 647-672 (2003) |
| j22 | | James B. Hayfron-Acquah, Mark S. Nixon, John N. Carter: Automatic gait recognition by symmetry analysis. Pattern Recognition Letters 24(13): 2175-2183 (2003) |
| j21 | | Jeff P. Foster, Mark S. Nixon, Adam Prügel-Bennett: Automatic gait recognition using area-based metric. Pattern Recognition Letters 24(14): 2489-2497 (2003) |
| c41 | | Stuart D. Mowbray, Mark S. Nixon: Automatic Gait Recognition via Fourier Descriptors of Deformable Objects. AVBPA 2003: 566-573 |
| c40 | | Stuart P. Prismall, Mark S. Nixon, John N. Carter: Novel Temporal Views of Moving Objects for Gait Biometrics. AVBPA 2003: 725-733 |
| c39 | | Ahmad Al-Mazeed, Mark S. Nixon, Steve R. Gunn: Fusing Complementary Operators to Enhance Foreground/Background Segmentation. BMVC 2003: 1-10 |
| e2 | | Josef Kittler, Mark S. Nixon (Eds.): Audio-and Video-Based Biometrie Person Authentication, 4th International Conference, AVBPA 2003, Guildford, UK, June 9-11, 2003 Proceedings. Lecture Notes in Computer Science 2688, Springer 2003, isbn 3-540-40302-7 |
| 2002 | ||
| j20 | | Mark S. Nixon, John N. Carter, Jamie D. Shutler, Michael G. Grant: New Advances in Automatic Gait Recognition. Inf. Sec. Techn. Report 7(4): 23-35 (2002) |
| j19 | | David J. Hurley, Mark S. Nixon, John N. Carter: Force field energy functionals for image feature extraction. Image Vision Comput. 20(5-6): 311-317 (2002) |
| j18 | | Alberto S. Aguado, Eugenia Montiel, Mark S. Nixon: Invariant characterisation of the Hough transform for pose estimation of arbitrary shapes. Pattern Recognition 35(5): 1083-1097 (2002) |
| j17 | | Michael G. Grant, Mark S. Nixon, Paul H. Lewis: Extracting moving shapes by evidence gathering. Pattern Recognition 35(5): 1099-1114 (2002) |
| c38 | | Karl J. Sharman, Mark S. Nixon, John N. Carter: Extraction and Description of 3D (Articulated) Moving Objects. 3DPVT 2002: 664-667 |
| c37 | | Stuart P. Prismall, Mark S. Nixon, John N. Carter: On Moving Object Reconstruction By Moments. BMVC 2002: 1-10 |
| c36 | | Jang-Hee Yoo, Mark S. Nixon, Chris J. Harris: Extraction and Description of Moving Human Body by Periodic Motion Analysis. Computers and Their Applications 2002: 110-113 |
| c35 | | Jang-Hee Yoo, Mark S. Nixon, Chris J. Harris: Model-driven statistical analysis of human gait motion. ICIP (1) 2002: 285-288 |
| c34 | | Chew-Yean Yam, Mark S. Nixon, John N. Carter: On the Relationship of Human Walking and Running: Automatic Person Identification by Gait. ICPR (1) 2002: 287-290 |
| c33 | | James B. Hayfron-Acquah, Mark S. Nixon, John N. Carter: Human Identification by Spatio-Temporal Symmetry. ICPR (1) 2002: 632-635 |
| c32 | | Chew-Yean Yam, Mark S. Nixon, John N. Carter: Performance Analysis on New Biometric Gait Motion Model. SSIAI 2002: 31-34 |
| c31 | | Jang-Hee Yoo, Mark S. Nixon, Chris J. Harris: Extracting Human Gait Signatures by Body Segment Properties. SSIAI 2002: 35-39 |
| 2001 | ||
| j16 | | Eugenia Montiel, Alberto S. Aguado, Mark S. Nixon: Improving the Hough Transform gathering process for affine transformations. Pattern Recognition Letters 22(9): 959-969 (2001) |
| j15 | | Andrew J. Tatem, Hugh G. Lewis, Peter M. Atkinson, Mark S. Nixon: Super-resolution target identification from remotely sensed images using a Hopfield neural network. IEEE T. Geoscience and Remote Sensing 39(4): 781-796 (2001) |
| c30 | | James B. Hayfron-Acquah, Mark S. Nixon, John N. Carter: Automatic Gait Recognition by Symmetry Analysis. AVBPA 2001: 272-277 |
| c29 | | Chew-Yean Yam, Mark S. Nixon, John N. Carter: Extended Model-Based Automatic Gait Recognition of Walking and Running. AVBPA 2001: 278-283 |
| c28 | | Jeff P. Foster, Mark S. Nixon, Adam Prügel-Bennett: New Area Based Metrics for Gait Recognition. AVBPA 2001: 312-317 |
| c27 | | Jeff P. Foster, Mark S. Nixon, Adam Prügel-Bennett: New Area Based Metrics for Automatic Gait Recognition. BMVC 2001: 1-10 |
| c26 | | Jamie D. Shutler, Mark S. Nixon: Zernike Velocity Moments for Description and Recognition of Moving Shapes. BMVC 2001: 1-10 |
| c25 | | James B. Hayfron-Acquah, Mark S. Nixon, John N. Carter: Recognising human and animal movement by symmetry. ICIP (3) 2001: 290-293 |
| c24 | | Jun L. Chen, Steve R. Gunn, Mark S. Nixon, Roger N. Gunn: Markov Random Field Models for Segmentation of PET Images. IPMI 2001: 468-474 |
| 2000 | ||
| j14 | | |
| j13 | | Alberto S. Aguado, Eugenia Montiel, Mark S. Nixon: Bias Error Analysis of the Generalised Hough Transform. Journal of Mathematical Imaging and Vision 12(1): 25-42 (2000) |
| c23 | | Alberto S. Aguado, Eugenia Montiel, Mark S. Nixon: Invariant Characterization of the Hough Transform for Pose Estimation of Arbitrary Shapes. BMVC 2000: 1-10 |
| c22 | | Michael G. Grant, Mark S. Nixon, Paul H. Lewis: Parameterised Moving Shape Extraction. BMVC 2000: 1-10 |
| c21 | | Eugenia Montiel, Alberto S. Aguado, Mark S. Nixon: On Resolving Ambiguities in Arbitrary-Shape extraction by the HT. BMVC 2000: 1-10 |
| c20 | | David J. Hurley, Mark S. Nixon, John N. Carter: A new Force Field Transform for Ear and Face Recognition. ICIP 2000: 25-28 |
| c19 | | Karl J. Sharman, Mark S. Nixon, John N. Carter: Non-Invasive 3D Dynamic Object Analysis. SSIAI 2000: 214-218 |
| c18 | | Jamie D. Shutler, Mark S. Nixon, Chris J. Harris: Statistical Gait Description via Temporal Moments. SSIAI 2000: 291-295 |
| 1999 | ||
| j12 | | Ping S. Huang, Chris J. Harris, Mark S. Nixon: Recognising humans by gait via parametric canonical space. AI in Engineering 13(4): 359-366 (1999) |
| c17 | | Michael G. Grant, Mark S. Nixon, Paul H. Lewis: Finding Moving Shapes by Continuous-Model Evidence Gathering. BMVC 1999: 1-10 |
| c16 | | David J. Hurley, Mark S. Nixon, John N. Carter: Force Field Energy Functionals for Image Feature Extraction. BMVC 1999: 1-10 |
| 1998 | ||
| j11 | | Alberto S. Aguado, Mark S. Nixon, Eugenia Montiel: Parameterizing Arbitrary Shapes via Fourier Descriptors for Evidence-Gathering Extraction. Computer Vision and Image Understanding 69(2): 202-221 (1998) |
| j10 | | Steve R. Gunn, Mark S. Nixon: Global and Local Active Contours for Head Boundary Extraction. International Journal of Computer Vision 30(1): 43-54 (1998) |
| j9 | | C. J. Davies, Mark S. Nixon: A Hough transform for detecting the location and orientation of three-dimensional surfaces via color encoded spots. IEEE Transactions on Systems, Man, and Cybernetics, Part B 28(1): 90-95 (1998) |
| c15 | | Ping S. Huang, Chris J. Harris, Mark S. Nixon: Comparing Different Template Features for Recognizing People by their Gait. BMVC 1998: 1-10 |
| c14 | | Jason M. Nash, John N. Carter, Mark S. Nixon: Extraction of Moving Articulated-Objects by Evidence Gathering. BMVC 1998: 1-10 |
| c13 | | Ping S. Huang, Chris J. Harris, Mark S. Nixon: A Statistical Approach for Recognizing Humans by Gait using Spatial-Temporal Templates. ICIP (3) 1998: 178-182 |
| c12 | | Mark S. Toller, Paul H. Lewis, Mark S. Nixon: Video Segmentation Using Combined Cues. Storage and Retrieval for Image and Video Databases (SPIE) 1998: 414-425 |
| e1 | | John N. Carter, Mark S. Nixon (Eds.): Proceedings of the British Machine Vision Conference 1998, BMVC 1998, Southampton, UK, 1998. British Machine Vision Association 1998, isbn 1-901725-04-9 |
| 1997 | ||
| j8 | | Yan Qiu Chen, Mark S. Nixon, David W. Thomas: On texture classification. Int. J. Systems Science 28(7): 669-682 (1997) |
| j7 | | Steve R. Gunn, Mark S. Nixon: A Robust Snake Implementation; A Dual Active Contour. IEEE Trans. Pattern Anal. Mach. Intell. 19(1): 63-68 (1997) |
| j6 | | Jason M. Nash, John N. Carter, Mark S. Nixon: Dynamic feature extraction via the velocity Hough transform. Pattern Recognition Letters 18(10): 1035-1047 (1997) |
| c11 | | David E. Benn, Mark S. Nixon, John N. Carter: Robust Eye Centre Extraction Using the Hough Transform. AVBPA 1997: 3-9 |
| c10 | | David Cunado, Mark S. Nixon, John N. Carter: Using Gait as a Biometric, via Phase-weighted Magnitude Spectra. AVBPA 1997: 95-102 |
| c9 | | Jason M. Nash, John N. Carter, Mark S. Nixon: The Velocity Hough Transform: A New Technique for Dynamic Feature Extraction. ICIP (2) 1997: 386-389 |
| 1996 | ||
| j5 | | Alberto S. Aguado, Eugenia Montiel, Mark S. Nixon: On using directional information for parameter space decomposition in ellipse detection. Pattern Recognition 29(3): 369-381 (1996) |
| c8 | | Ben S. Runnacles, Mark S. Nixon: Texture extraction and segmentation via statistical geometric features. ICIP (3) 1996: 129-132 |
| c7 | | Alberto S. Aguado, Eugenia Montiel, Mark S. Nixon: Improving parameter space decomposition for the generalised Hough transform. ICIP (3) 1996: 627-630 |
| 1995 | ||
| j4 | | Xiaoguang Jia, Mark S. Nixon: Extending the Feature Vector for Automatic Face Recognition. IEEE Trans. Pattern Anal. Mach. Intell. 17(12): 1167-1176 (1995) |
| j3 | | Yan Qiu Chen, Mark S. Nixon, David W. Thomas: Statistical geometrical features for texture classification. Pattern Recognition 28(4): 537-552 (1995) |
| c6 | | Steve R. Gunn, Mark S. Nixon: Improving snake performance via a dual active contour. CAIP 1995: 600-605 |
| 1994 | ||
| j2 | | Yan Qiu Chen, David W. Thomas, Mark S. Nixon: Generating-shrinking algorithm for learning arbitrary classification. Neural Networks 7(9): 1471-1489 (1994) |
| j1 | | Xiaoguang Jia, Mark S. Nixon: Analysing front view face profiles for face recognition via the Walsh transform. Pattern Recognition Letters 15(6): 551-558 (1994) |
| c5 | | |
| c4 | | Yan Qiu Chen, Mark S. Nixon, David W. Thomas: Texture Classification Using Statistical Geometrical Features. ICIP (3) 1994: 446-450 |
| c3 | | Mark R. Dobie, Paul H. Lewis, Mark S. Nixon: Curvilinear Network Extraction from Remotely Sensed Images. MVA 1994: 123-126 |
| 1993 | ||
| c2 | | Adrian N. Evans, Mark S. Nixon: Temporal Speckle Reduction for Feature Extraction in Ultrasound Images. CAIP 1993: 65-73 |
| c1 | | |
Colors in the list of coauthors
Last update Sat May 25 06:01:47 2013 CET by the DBLP Team —
Data released under the ODC-BY 1.0 license — See also our legal information page