![](https://dblp.dagstuhl.de/img/logo.ua.320x120.png)
![](https://dblp.dagstuhl.de/img/dropdown.dark.16x16.png)
![](https://dblp.dagstuhl.de/img/peace.dark.16x16.png)
Остановите войну!
for scientists:
![search dblp search dblp](https://dblp.dagstuhl.de/img/search.dark.16x16.png)
![search dblp](https://dblp.dagstuhl.de/img/search.dark.16x16.png)
default search action
Computer Aided Geometric Design, Volume 2
Volume 2, Number 1-3, September 1985
- Robert E. Barnhill:
Surfaces in computer aided geometric design: a survey with new results. 1-17 - Gerald E. Farin:
A modified Clough-Tocher interpolant. 19-27 - Paul Sablonnière:
Bernstein-Bézier methods for the construction of bivariate spline approximants. 29-36 - Geng-zhe Chang, Buchin Su:
Families of adjoint patches for a Bézier triangular surface. 37-42 - John A. Gregory:
Interpolation to boundary data on the simplex. 43-52 - Thomas W. Sederberg:
Piecewise algebraic surface patches. 53-59 - Wolfgang Böhm:
Triangular spline algorithms. 61-67 - Hartmut Prautzsch:
Generalized subdivision and convergence. 69-75 - Wolfgang Dahmen, Charles A. Micchelli:
Line average algorithm: A method for the computer generation of smooth surfaces. 77-85 - Richard Franke:
Thin plate splines with tension. 87-95 - Josef Hoschek:
Smoothing of curves and surfaces. 97-105 - Andrew J. Worsey:
C2 interpolation over hypercubes. 107-115 - Fred N. Fritsch, Ralph E. Carlson:
Monotonicity preserving bicubic interpolation: A progress report. 117-121 - Lothar Dannenberg, Horst Nowacki:
Approximate conversion of surface representations with polynomial bases. 123-131 - Tom Lyche, Elaine Cohen, Knut Mørken:
Knot line refinement algorithms for tensor product B-spline surfaces. 133-139 - Wolfgang Böhm:
On the efficiency of knot insertion algorithms. 141-143 - Dieter Lasser:
Bernstein-Bézier representation of volumes. 145-149 - Laszlo Piegl:
Representation of quadric primitives by rational polynomials. 151-155 - Pere Brunet:
Increasing the smoothness of bicubic spline surfaces. 157-164 - Michael J. Pratt:
Smooth parametric surface approximations to discrete data. 165-171 - Elizabeth G. Houghton, Robert F. Emnett, James D. Factor, Chaman L. Sabharwal:
Implementation of a divide-and-conquer method for intersection of parametric surfaces. 173-183 - Robert E. Barnhill, Bruce R. Piper, S. E. Stead:
A multidimensional surface problem: pressure on a wing. 185-187 - Tor Dokken
:
Finding intersections of B-spline represented geometries using recursive subdivision techniques. 189-195 - Christoph Hornung, Wolfgang Lellek, Peter Rehwald, Wolfgang Straßer:
An area-oriented analytical visibility method for displaying parametrically defined tensor-product surfaces. 197-205 - U. Rabien:
Integrating patch models for hydrostatics. 207-212 - Ingolf Grieger:
Geometry cells and surface definition by finite elements. 213-222 - Hans Hagen:
Geometric spline curves. 223-227 - Elaine Cohen, Larry L. Schumaker:
Rates of convergence of control polygons. 229-235
Volume 2, Number 4, December 1985
- Ronald N. Goldman:
The method of resolvents: A technique for the implicitization, inversion, and intersection of non-planar, parametric, rational cubic curves. 237-255 - Rida T. Farouki:
Exact offset procedures for simple solids. 257-279 - Peter Alfeld:
Derivative generation from multivariate scattered data by functional minimization. 281-296 - Gary J. Herron:
Smooth closed surfaces with discrete triangular interpolants. 297-306 - E. T. Y. Lee:
Some remarks concerning B-splines. 307-311 - Wolfgang Böhm:
Curvature continuous curves and surfaces. 313-323 - Gerald E. Farin:
Some remarks on V2-splines. 325-328 - Hartmut Prautzsch:
Letter to the editor. 329
![](https://dblp.dagstuhl.de/img/cog.dark.24x24.png)
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.