default search action
David B. Cooper
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
2010 – 2019
- 2019
- [j31]Kilho Son, James Hays, David B. Cooper:
Solving Square Jigsaw Puzzle by Hierarchical Loop Constraints. IEEE Trans. Pattern Anal. Mach. Intell. 41(9): 2222-2235 (2019) - 2016
- [c57]Kilho Son, Daniel Moreno, James Hays, David B. Cooper:
Solving Small-Piece Jigsaw Puzzles by Growing Consensus. CVPR 2016: 1193-1201 - 2014
- [j30]Shubao Liu, David B. Cooper:
Statistical Inverse Ray Tracingfor Image-Based 3D Modeling. IEEE Trans. Pattern Anal. Mach. Intell. 36(10): 2074-2088 (2014) - [c56]Eduardo B. Almeida, David B. Cooper:
Matching Many Identical Features of Planar Urban Facades Using Global Regularity. 3DV (Workshops) 2014: 153-160 - [c55]Kilho Son, James Hays, David B. Cooper:
Solving Square Jigsaw Puzzles with Loop Constraints. ECCV (6) 2014: 32-46 - 2013
- [c54]Kilho Son, Eduardo B. Almeida, David B. Cooper:
Axially Symmetric 3D Pots Configuration System Using Axis of Symmetry and Break Curve. CVPR 2013: 257-264 - 2012
- [c53]Dongjin Han, David B. Cooper, Hern-soo Hahn:
Fast axis estimation from a segment of rotationally symmetric object. CVPR 2012: 1154-1161 - 2011
- [c52]Shubao Liu, David B. Cooper:
A complete statistical inverse ray tracing approach to multi-view stereo. CVPR 2011: 913-920 - 2010
- [c51]Dongjin Han, Jae Hwang, Hern-soo Hahn, David B. Cooper:
Vehicle Class Recognition Using Multiple Video Cameras. ACCV Workshops (1) 2010: 246-255 - [c50]Eben Gay, David B. Cooper, Benjamin B. Kimia, Gabriel Taubin, Daniel Cabrini, Suman Karumuri, Will Doutre, Shubao Liu, Katharina Galor, Donald Sanders, Andrew R. Willis:
REVEAL intermediate report. CVPR Workshops 2010: 1-6 - [c49]Shubao Liu, David B. Cooper:
Ray Markov Random Fields for image-based 3D modeling: Model and efficient inference. CVPR 2010: 1530-1537
2000 – 2009
- 2009
- [c48]Shubao Liu, Kongbin Kang, Jean-Philippe Tarel, David B. Cooper:
Distributed volumetric scene geometry reconstruction with a network of distributed smart cameras. CVPR 2009: 2334-2341 - 2008
- [j29]Shubao Liu, Kongbin Kang, Jean-Philippe Tarel, David B. Cooper:
Free-Form Object Reconstruction from Silhouettes, Occluding Edges and Texture Edges: A Unified and Robust Operator Based on Duality. IEEE Trans. Pattern Anal. Mach. Intell. 30(1): 131-146 (2008) - [j28]Andrew R. Willis, David B. Cooper:
Computational reconstruction of ancient artifacts. IEEE Signal Process. Mag. 25(4): 65-83 (2008) - [c47]Ibrahim Eden, David B. Cooper:
Using 3D Line Segments for Robust and Efficient Change Detection from Multiple Noisy Images. ECCV (4) 2008: 172-185 - [c46]Osman Gokhan Sezer, Joseph L. Mundy, Yucel Altunbasak, David B. Cooper:
NorMaL: Non-compact Markovian Likelihood for change detection. ICPR 2008: 1-4 - 2007
- [j27]Andrew R. Willis, Jasper Speicher, David B. Cooper:
Rapid prototyping 3D objects from scanned measurement data. Image Vis. Comput. 25(7): 1174-1184 (2007) - [c45]Ibrahim Eden, David B. Cooper:
Robust Estimation of 3-D Line Segments from Satellite Images for Model Building and Change Detection. AAAI 2007: 1854-1855 - 2006
- [c44]Andrew R. Willis, David B. Cooper:
Estimating a-priori Unknown 3D Axially Symmetric Surfaces from Noisy Measurements of Their Fragments. 3DPVT 2006: 334-341 - 2005
- [c43]Brower Hatcher, Karl Aspelund, Andrew R. Willis, Jasper Speicher, David B. Cooper, Frederic F. Leymarie:
Computational schemes for biomimetic sculpture. Creativity & Cognition 2005: 22-31 - [c42]Brower Hatcher, Karl Aspelund, Andrew R. Willis, Jasper Speicher, David B. Cooper, Frederic F. Leymarie:
Exhibition: computational schemes for biomimetic sculpture. Creativity & Cognition 2005: 298-300 - [c41]Ediz Saykol, Yücel Saygin, Aytül Erçil, Andrew R. Willis, David B. Cooper, Martha Sharp Joukowsky:
A Web Service Platform for Web-Accessible Archaeological Databases. ISCIS 2005: 362-370 - 2004
- [c40]Matthew Brand, Kongbin Kang, David B. Cooper:
Algebraic Solution for the Visual Hull. CVPR (1) 2004: 30-35 - [c39]Andrew R. Willis, David B. Cooper:
Bayesian Assembly of 3D Axially Symmetric Shapes from Fragments. CVPR (1) 2004: 82-89 - [c38]Andrew R. Willis, David B. Cooper:
Alignment of Multiple Non-Overlapping Axially Symmetric 3D Datasets. ICPR (4) 2004: 96-99 - [c37]Andrew R. Willis, Jasper Speicher, David B. Cooper:
Surface Sculpting with Stochastic Deformable 3D Surfaces. ICPR (2) 2004: 249-252 - 2003
- [j26]Jean-Philippe Tarel, William A. Wolovich, David B. Cooper:
Covariant-Conics Decomposition of Quartics for 2D Shape Recognition and Alignment. J. Math. Imaging Vis. 19(3): 255-273 (2003) - [c36]Andrew R. Willis, Xavier Orriols, David B. Cooper:
Accurately Estimating Sherd 3D Surface Geometry with Application to Pot Reconstruction. CVPR Workshops 2003: 5 - [c35]Kongbin Kang, Jean-Philippe Tarel, David B. Cooper:
A Unified Linear Fitting Approach for Singular and Non-Singular 3D Quadrics from Occluding Contours. HLK 2003: 48-57 - 2002
- [c34]David B. Cooper, Andrew R. Willis, Stuart Andrews, Jill Baker, Yan Cao, Dongjin Han, Kongbin Kang, Weixin Kong, Frederic F. Leymarie, Xavier Orriols, Senem Velipasalar, Eileen Vote, Martha Sharp Joukowsky, Benjamin B. Kimia, David H. Laidlaw, David Mumford:
Bayesian Pot-Assembly from Fragments as Problems in Perceptual-Grouping and Geometric-Learning. ICPR (3) 2002: 297-302 - 2001
- [c33]Kongbin Kang, Jean-Philippe Tarel, Richard Fishman, David B. Cooper:
A Linear Dual-Space Approach to 3D Surface Reconstruction from Occluding Contours using Algebraic Surfaces. ICCV 2001: 198-204 - [c32]David B. Cooper, Andrew R. Willis, Stuart Andrews, Jill Baker, Yan Cao, Dongjin Han, Kongbin Kang, Weixin Kong, Frederic F. Leymarie, Xavier Orriols, Senem Velipasalar, Eileen Vote, Martha Sharp Joukowsky, Benjamin B. Kimia, David H. Laidlaw, David Mumford:
Assembling virtual pots from 3D measurements of their fragments. Virtual Reality, Archeology, and Cultural Heritage 2001: 241-254 - 2000
- [j25]Michael M. Blane, Zhibin Lei, Hakan Çivi, David B. Cooper:
The 3L Algorithm for Fitting Implicit Polynomial Curves and Surfaces to Data. IEEE Trans. Pattern Anal. Mach. Intell. 22(3): 298-313 (2000) - [j24]Jean-Philippe Tarel, David B. Cooper:
The Complex Representation of Algebraic Curves and Its Simple Exploitation for Pose Estimation and Invariant Recognition. IEEE Trans. Pattern Anal. Mach. Intell. 22(7): 663-674 (2000) - [j23]Tolga Tasdizen, Jean-Philippe Tarel, David B. Cooper:
Improving the stability of algebraic curves for applications. IEEE Trans. Image Process. 9(3): 405-416 (2000) - [c31]Tolga Tasdizen, David B. Cooper:
Boundary Estimation from Intensity/Color Images with Algebraic Curve Models. ICPR 2000: 1225-1228
1990 – 1999
- 1999
- [c30]Tolga Tasdizen, Jean-Philippe Tarel, David B. Cooper:
Algebraic Curves That Work Better. CVPR 1999: 2035-2041 - 1998
- [j22]Zhibin Lei, David B. Cooper:
Linear Programming Fitting of Implicit Polynomials. IEEE Trans. Pattern Anal. Mach. Intell. 20(2): 212-217 (1998) - [j21]Zhibin Lei, David B. Cooper:
On Interactive Object Shape Modeling Using Algebraic Curves. J. VLSI Signal Process. 20(1-2): 151-161 (1998) - [c29]Jean-Philippe Tarel, David B. Cooper:
A New Complex Basis for Implicit Polynomial Curves and its Simple Exploitation for Pose Estimation and Invariant Recognition. CVPR 1998: 111-117 - [c28]Zhibin Lei, Tolga Tasdizen, David B. Cooper:
PIMs and Invariant Parts for Shape Recognition. ICCV 1998: 827-832 - [c27]Jean-Philippe Tarel, William A. Wolovich, David B. Cooper:
Covariant-Conics Decomposition of Quartics for 2D Object Recognition and Affine Alignment. ICIP (2) 1998: 818-822 - 1997
- [c26]Meir Barzohar, Moshe Cohen, Ilan Ziskind, David B. Cooper:
Automatic and Robust Aerial Road Detection Based on Multihypothesis Generalized Kalman Filter Using Fully and Partially Occluded Models. ICIP (3) 1997: 134-137 - [c25]Zhibin Lei, David B. Cooper:
Interactive shape modeling. MMSP 1997: 262-267 - [c24]Zhibin Lei, David B. Cooper:
Interactive contour modeling applied to image querying. SIGGRAPH Visual Proceedings 1997: 163 - 1996
- [j20]Jayashree Subrahmonia, David B. Cooper, Daniel Keren:
Practical Reliable Bayesian Recognition of 2D and 3D Objects Using Implicit Polynomials and Algebraic Invariants. IEEE Trans. Pattern Anal. Mach. Intell. 18(5): 505-519 (1996) - [j19]Meir Barzohar, David B. Cooper:
Automatic Finding of Main Roads in Aerial Images by Using Geometric-Stochastic Models and Estimation. IEEE Trans. Pattern Anal. Mach. Intell. 18(7): 707-721 (1996) - [c23]Zhibin Lei, David B. Cooper:
New, faster, more controlled fitting of implicit polynomial 2D curves and 3D surfaces to data . CVPR 1996: 514-519 - [c22]Zhibin Lei, Michael M. Blane, David B. Cooper:
3L fitting of higher degree implicit polynomials. WACV 1996: 148-153 - 1995
- [c21]Kaleem Siddiqi, Jayashree Subrahmonia, David B. Cooper, Benjamin B. Kimia:
Part-based Bayesian recognition using implicit polynomial invariants. ICIP (3) 1995: 360-363 - [c20]Zhibin Lei, Daniel Keren, David B. Cooper:
Computationally fast Bayesian recognition of complex objects based on mutual algebraic invariants. ICIP 1995: 635-638 - 1994
- [j18]Daniel Keren, David B. Cooper, Jayashree Subrahmonia:
Describing Complicated Objects by Implicit Polynomials. IEEE Trans. Pattern Anal. Mach. Intell. 16(1): 38-53 (1994) - [c19]Meir Barzohar, Daniel Keren, David B. Cooper:
Recognising groups of curves based on new affine mutual geometric invariants, with applications to recognizing intersecting roads in aerial images. ICPR (1) 1994: 205-209 - [c18]David B. Cooper, Zhibin Lei:
On Representation and Invariant Recognition of Complex Objects Based on Patches and Parts. Object Representation in Computer Vision 1994: 139-153 - 1993
- [c17]Daniel Keren, Jayashree Subrahmonia, David B. Cooper:
Integrating Algebraic Curves and Surfaces, Algebraic Invariants and Bayesian Methods for 2D and 3D Object Recognition. Applications of Invariance in Computer Vision 1993: 493-510 - [c16]Meir Barzohar, David B. Cooper:
Automatic finding of main roads in aerial images by using geometric-stochastic models and estimation. CVPR 1993: 459-464 - [c15]Chi-Yin Lee, David B. Cooper, Daniel Keren:
Computing correspondence based on regions and invariants without feature extraction and segmentation. CVPR 1993: 655-656 - [c14]Jayashree Subrahmonia, Daniel Keren, David B. Cooper:
Recognizing mice, vegetables and hand printed characters based on implicit polynomials, invariants and Bayesian methods. ICCV 1993: 320-324 - [c13]Chi-Yin Lee, David B. Cooper:
Structure from Motion: A Region Based Approach Using Afflne Transformations and Moment Invanants. ICRA (3) 1993: 120-127 - 1992
- [c12]Daniel Keren, Jayashree Subrahmonia, David B. Cooper:
Robust object recognition based on implicit algebraic curves and surfaces. CVPR 1992: 791-794 - 1991
- [j17]Yi-Ping Hung, David B. Cooper, Bruno Cernuschi-Frías:
Asymptotic bayesian surface estimation using an image sequence. Int. J. Comput. Vis. 6(2): 105-132 (1991) - 1990
- [c11]Jayashree Subrahmonia, Yi-Ping Hung, David B. Cooper:
Model-based segmentation and estimation of 3D surfaces from two or more intensity images using Markov random fields. ICPR (1) 1990: 390-397
1980 – 1989
- 1989
- [j16]Bruno Cernuschi-Frías, David B. Cooper, Yi-Ping Hung, Peter N. Belhumeur:
Toward a Model-Based Bayesian Theory for Estimating and Recognizing Parameterized 3-D Objects Using Two or More Images Taken from Different Positions. IEEE Trans. Pattern Anal. Mach. Intell. 11(10): 1028-1052 (1989) - [c10]Gabriel Taubin, Ruud M. Bolle, David B. Cooper:
Representing and comparing shapes using shape polynomials. CVPR 1989: 510-516 - 1988
- [j15]Judith F. Silverman, David B. Cooper:
Bayesian Clustering for Unsupervised Estimation of Surface and Texture Models. IEEE Trans. Pattern Anal. Mach. Intell. 10(4): 482-495 (1988) - [c9]Fernand S. Cohen, David B. Cooper:
A decision theoretic approach for 3-D vision. CVPR 1988: 964-972 - [c8]David B. Cooper, Yi-Ping Hung, Gabriel Taubin:
A New Model-based Stereo Approach For 3D Surface Reconstruction Using Contours On The Surface Pattern. ICCV 1988: 74-83 - [c7]Yi-Ping Hung, David B. Cooper, Bruno Cernuschi-Frías:
Bayesian estimation of 3D surfaces from a sequence of images. ICRA 1988: 906-911 - 1987
- [j14]Fernand S. Cohen, David B. Cooper:
Simple Parallel Hierarchical and Relaxation Algorithms for Segmenting Noncausal Markovian Random Fields. IEEE Trans. Pattern Anal. Mach. Intell. 9(2): 195-219 (1987) - 1986
- [j13]Ruud M. Bolle, David B. Cooper:
On Optimally Combining Pieces of Information, with Application to Estimating 3-D Complex-Object Position from Range Data. IEEE Trans. Pattern Anal. Mach. Intell. 8(5): 619-638 (1986) - [c6]Judith F. Silverman, David B. Cooper:
Unsupervised estimation of polynomial approximations to smooth surfaces in images or range data. ICRA 1986: 299-304 - [c5]Bruno Cernuschi-Frías, Peter N. Belhumeur, David B. Cooper:
3-D object position estimation and recognition based on parameterized surfaces and multiple views. ICRA 1986: 639-644 - 1984
- [j12]Ruud M. Bolle, David B. Cooper:
Bayesian Recognition of Local 3-D Shape by Approximating Image Intensity Functions with Quadric Polynomials. IEEE Trans. Pattern Anal. Mach. Intell. 6(4): 418-429 (1984) - [j11]Bruno Cernuschi-Frías, David B. Cooper:
3-D Space Location and Orientation Parameter Estimation of Lambertian Spheres and Cylinders From a Single 2-D Image By Fitting Lines and Ellipses to Thresholded Data. IEEE Trans. Pattern Anal. Mach. Intell. 6(4): 430-441 (1984) - 1983
- [j10]David B. Cooper, Francis P. Sung:
Multiple-Window Parallel Adaptive Boundary Finding in Computer Vision. IEEE Trans. Pattern Anal. Mach. Intell. 5(3): 299-316 (1983) - [c4]Ruud M. Bolle, Bruno Cernuschi-Frías, David B. Cooper:
Fast parallel image processing for robot vision for the purpose of extracting information about objects. ICASSP 1983: 126-127 - [c3]Bruno Cernuschi-Frías, Ruud M. Bolle, David B. Cooper:
A New Conceptually Attractive and Computationally Effective Approach to Shape From Shading. IJCAI 1983: 966-968 - 1982
- [j9]Howard Elliott, David B. Cooper, Fernand S. Cohen, Peter F. Symosek:
Implementation, Interpretation, and Analysis of a Suboptimal Boundary Finding Algorithm. IEEE Trans. Pattern Anal. Mach. Intell. 4(2): 167-182 (1982) - 1980
- [c2]Fernand S. Cohen, David B. Cooper, Howard Elliott, Peter F. Symosek:
Two-dimensional image boundary estimation by use of likelihood maximization and Kalman filtering. ICASSP 1980: 410-413
1970 – 1979
- 1979
- [j8]David B. Cooper:
Maximum Likelihood Estimation of Markov-Process Blob Boundaries in Noisy Images. IEEE Trans. Pattern Anal. Mach. Intell. 1(4): 372-384 (1979) - [c1]Loretta Reiss, David B. Cooper:
The ripple filter: an algorithm for region growing in scene agalysis. COMPSAC 1979: 849-853 - 1977
- [j7]Salvatore D. Morgera, David B. Cooper:
Structured estimation: Sample size reduction for adaptive pattern classification. IEEE Trans. Inf. Theory 23(6): 728-741 (1977) - 1976
- [j6]David B. Cooper, Nese Yalabik:
On the Computational Cost of Approximating and Recognizing Noise-Perturbed Straight Lines and Quadratic Arcs in the Plane. IEEE Trans. Computers 25(10): 1020-1032 (1976) - 1975
- [j5]David B. Cooper:
On some convergence properties of 'learning with a probabilistic teacher' algorithms (Corresp.). IEEE Trans. Inf. Theory 21(6): 699-702 (1975) - 1974
- [j4]David B. Cooper:
When should a learning machine ask for help? IEEE Trans. Inf. Theory 20(4): 455-471 (1974) - 1970
- [j3]David B. Cooper, John H. Freeman:
On the Asymptotic Improvement in the Out- come of Supervised Learning Provided by Additional Nonsupervised Learning. IEEE Trans. Computers 19(11): 1055-1063 (1970)
1960 – 1969
- 1964
- [j2]David B. Cooper, Paul W. Cooper:
Nonsupervised Adaptive Signal Detection and Pattern Recognition. Inf. Control. 7(3): 416-444 (1964) - [j1]David B. Cooper:
Adaptive Pattern Recognition and Signal Detection Using Stochastic Approximation. IEEE Trans. Electron. Comput. 13(3): 306-307 (1964)
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from , , and to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-04-24 22:54 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint