The General Recurrence Relation for Divided Differences and the General Newton-Interpolation-Algorithm With Applications to Trigonometric Interpolation.
G. Mühlbach (1979)
Numerische Mathematik
Similarity:
Displaying similar documents to “A Numerical study of Newton interpolation with extremely high degrees”
The General Recurrence Relation for Divided Differences and the General Newton-Interpolation-Algorithm With Applications to Trigonometric Interpolation.
On Newton interpolation formula.
Lupaş, Luciana (1996)
General Mathematics
Similarity:
An Algorithmic Approach to Hermite-Birkhoff-Interpolation.
G. Mühlbach (1981)
Numerische Mathematik
Similarity:
On multivariate interpolation by weights.
Simian, Dana, Simian, Corina (2003)
Analele Ştiinţifice ale Universităţii “Ovidius" Constanţa. Seria: Matematică
Similarity:
Optimum choice of initial approximations in interpolation methods of solving equations
S. Paszkowski (1971)
Applicationes Mathematicae
Similarity:
On the theorem of Géza Grünwald and Józef Marcinkiewicz
László Szili, Péter Vértesi (2011)
Banach Center Publications
Similarity:
This survey is a tribute to Géza Grünwald and Józef Marcinkiewicz dealing with the so called Grünwald-Marcinkiewicz Theorem.
Interpolation und Gleichverteilung in Bohr's Kompaktifizierung
S. Hartman (1968)
Colloquium Mathematicae
Similarity:
Fractal Interpolation in Creating Prefractal Images
Ljubiša M. Kocić, Alba Chiara Simoncelli (2000)
Visual Mathematics
Similarity:
Lebesgue constants in polynomial interpolation.
Smith, Simon J. (2006)
Annales Mathematicae et Informaticae
Similarity:
A note on interpolation and higher integrability.
Milman, Mario (1998)
Annales Academiae Scientiarum Fennicae. Mathematica
Similarity:
Three ways of interpolation on finite elements
Šolín, Pavel, Segeth, Karel
Similarity:
Interpolation on finite elements usually occurs in a Hilbert space setting, which means that interpolation techniques involving orthogonal projection are an alternative for the traditional Lagrange nodal interpolation schemes. In addition to the Lagrange interpolation, this paper discusses the global orthogonal projection and the projection-based interpolation. These techniques are compared from the point of view of quality, efficiency, sensitivity to input parameters and other aspects....
Trigonometric interpolation, V
R. Taberski (1974)
Colloquium Mathematicae
Similarity:
Trigonometric interpolation, III
R. Taberski (1971)
Colloquium Mathematicae
Similarity: