8 | -- | 11 | David I. Lewin. Keeping track of the big event |
12 | -- | 15 | Jeffrey Will. Imagenation frame grabbers for computer vision systems |
16 | -- | 21 | Geoff Bradley, Denis Weaire. Instabilities of two liquid drops in contact |
22 | -- | 37 | Steve W. Bova, Clay P. Breshears, Henry A. Gabb, Bob Kuhn, Bill Magro, Rudolf Eigenmann, Greg Gaertner, Stefano Salvini, Howard Scott. Parallel programming with message passing and directives |
38 | -- | 39 | C. Ross Ethier. Bioengineering and biophysics |
40 | -- | 50 | Jeffrey Skolnick, Andrzej Kolinski. Computational studies of protein folding |
51 | -- | 64 | David A. Vorp, David A. Steinman, C. Ross Ethier. Computational modeling of arterial biomechanics |
65 | -- | 72 | Leo Joskowicz, Russell H. Taylor. Computers in imaging and guided surgery |
73 | -- | 83 | Norman Chonacky, M. Litt. Computers for integrative instruction in bioengineering labs |
84 | -- | 89 | Bert W. Rust. Fitting nature's basic functions. I. Polynomials and linear least squares |
90 | -- | 97 | David M. Beazley, Brian D. Ward, Ian R. Cooke. The inside story on shared libraries and dynamic loading |
98 | -- | 104 | Oliver Vormoor. Quick and easy interactive molecular dynamics using Java3D |
105 | -- | 108 | Elizabeth A. Lunney. Computing in drug discovery: the design phase |
110 | -- | 113 | Jim X. Chen, Shuangbao Wang, Oliver Vormoor. Data visualization: parallel coordinates and dimension reduction |