2008 |
13 | EE | Harish Pungotra,
George K. Knopf,
Roberto Canas:
Efficient algorithm to detect collision between deformable B-spline surfaces for virtual sculpting.
Computer-Aided Design 40(10-11): 1055-1066 (2008) |
2006 |
12 | EE | Philip C. Igwe,
George K. Knopf:
Modeling Deformable Objects for Computer-Aided Sculpting (CAS) Modeling Deformable Objects for Computer-Aided Sculpting (CAS).
GMAI 2006: 3-8 |
11 | EE | Philip C. Igwe,
George K. Knopf:
3D Object Reconstruction Using Geometric Computing.
GMAI 2006: 9-14 |
10 | EE | Philip C. Igwe,
Archana P. Sangole,
George K. Knopf:
Shape Morphing and Reconstruction Using A Self-Organizing Feature Map.
IJCNN 2006: 3783-3789 |
9 | EE | Philip C. Igwe,
George K. Knopf:
Self-Organizing Feature Map (SOFM) based Deformable CAD Models.
IJCNN 2006: 3798-3804 |
8 | EE | George K. Knopf,
Archana Sangole:
Freeform Surface Reconstruction from Scattered Points Using a Deformable Spherical Map.
Int. J. Image Graphics 6(3): 341-356 (2006) |
2004 |
7 | EE | Wei Wei Wang,
George K. Knopf,
Amarjeet S. Bassi:
Biological Transducers Based on Bacteriorhodopsin for Smart Biosensor Applications.
ICMENS 2004: 274-279 |
6 | EE | George K. Knopf,
Archana Sangole:
Interpolating scattered data using 2D self-organizing feature maps.
Graphical Models 66(1): 50-69 (2004) |
2003 |
5 | EE | Archana Sangole,
George K. Knopf:
Visualization of randomly ordered numeric data sets using spherical self-organizing feature maps.
Computers & Graphics 27(6): 963-976 (2003) |
2002 |
4 | EE | Archana Sangole,
George K. Knopf:
Representing high-dimensional data sets as closed surfaces.
Information Visualization 1(2): 111-119 (2002) |
2001 |
3 | EE | George K. Knopf,
Rasha Al-Naji:
Adaptive reconstruction of bone geometry from serial cross-sections.
AI in Engineering 15(3): 227-239 (2001) |
1993 |
2 | EE | George K. Knopf,
Madan M. Gupta:
Dynamics Of Antagonistic Neural Processing Elements.
Int. J. Neural Syst. 4(3): 291-303 (1993) |
1989 |
1 | EE | Madan M. Gupta,
George K. Knopf:
Theory of edge perception for computer vision feedback control.
Journal of Intelligent and Robotic Systems 2(2-3): 123-151 (1989) |