Publications by, and About, Frank Stenger
From MaRDI portal
Publication:3382752
DOI10.1007/978-3-030-49716-3_15zbMath1474.01023OpenAlexW3177002785MaRDI QIDQ3382752
Publication date: 21 September 2021
Published in: Trends in Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/978-3-030-49716-3_15
Cites Work
- Progress in approximation theory and applicable complex analysis. In memory of Q.I. Rahman
- Rational approximation and interpolation. Proceedings of the United Kingdom-United States Conference held at Tampa, Florida, December 12-16, 1983
- Selected topics in image science
- Rivlin's theorem on Walsh equiconvergence
- Fourier series for zeta function via Sinc
- Polynomial function and derivative approximation of Sinc data
- Optimal quadrature algorithms in \(H_ p\) spaces
- Multigrid-sinc methods
- A nonlinear two-phase Stefan problem with melting point gradient: A constructive approach
- Optimal complexity recovery of band- and energy-limited signals. II
- Optimal convergence of minimum norm approximations in \(H_p\)
- An algorithm for the electromagnetic scattering due to an axially symmetric body with an impedance boundary condition
- Optimal control theory and its applications. Proceedings of the 14th biennial seminar of the Canadian Mathematical Congress, University of Western Ontario, August 12--25, 1973. Part II
- The approximate solution of the nonlinear equation \(\Delta u=u-u^3\)
- Computing the topological degree of a mapping in \(R^n\)
- Approximations via Whittaker's cardinal function
- Connection between a Cauchy system representation of Kalaba and Fourier transforms
- A simplification of Stenger's topological degree formula
- A sinc quadrature method for the double-layer integral equation in planar domains with corners
- Matrices of Sinc methods
- Summary of Sinc numerical methods
- Functional equations related to the iteration of functions
- ODE-IVP-PACK via Sinc indefinite integration and Newton's method
- Approximation and computation: a Festschrift in honor of Walter Gautschi. Proceedings of the Purdue conference, West Lafayette, IN, USA, December 2-5, 1993
- On conjectures of Stenger in the theory of orthogonal polynomials
- Proof of Stenger's conjecture on matrix \(I^{(-1)}\) of sinc methods
- Fractional adsorption diffusion
- Sinc-approximations of fractional operators: a computing approach
- New perspectives on approximation and sampling theory. Festschrift in honor of Paul Butzer's 85th birthday
- Error bounds for the evaluation of integrals by repeated Gauss-type formulae
- Bounds on the error of Gauss-type quadratures
- Construction of fully symmetric numerical integration formulas
- The approximate solution of Wiener-Hopf integral equations
- Constructive proofs for approximation by inner functions
- The reduction of two dimensional integrals into a finite number of one dimensional integrals
- Fractional calculus and Sinc methods
- Multiscale Signal Analysis and Modeling
- An algorithm for the approximate solution of Wiener-Hopf integral equations
- Optimal quadratures in H(sub)p spaces
- A bisection method for systems of nonlinear equations
- Navier–Stokes Equations on R3 × [0, T]
- Explicit Nearly Optimal Linear Rational Approximation with Preassigned Poles
- Sinc-Nystrom Method for Numerical Solution of One-Dimensional Cauchy Singular Integral Equation Given on a Smooth Arc in the Complex Plane
- Complex Variable and Regularization Methods of Inversion of the Laplace Transform
- Numerical Methods Based on Whittaker Cardinal, or Sinc Functions
- An Error Estimate for Stenger's Quadrature Formula
- A Lower Bound on the Angles of Triangles Constructed by Bisecting the Longest Side
- An algorithm for the topological degree of a mapping in 𝑛-space
- Remarks of “Integration Formulae Based on the Trapezoidal Formula”
- A two-dimensional analogue to the method of bisections for solving nonlinear equations
- Shorter Notes: Distinct Sums over Subsets
- Comments on Some Quadrature Formulas by F. Stenger
- Upper and lower estimates on the rate of convergence of approximations in 𝐻_{𝑝}
- Cardinal-Type Approximations of a Function and Its Derivatives
- A "Sinc-Galerkin" Method of Solution of Boundary Value Problems
- Nonlinear Poisson‐Boltzmann equation in a model of a scanning tunneling microscope
- Collocating Convolutions
- Sinc approximation of Cauchy-type integrals over arcs
- An Extremal Problem for Polynomials with a Prescribed Zero
- Inverse Problems, Image Analysis, and Medical Imaging
- An Analytic Function Which is an Approximate Characteristic Function
- The Lebesgue Constant for Sinc Approximations
- Improved Approximation via Use of Transformations
- Approximating the Riemann Zeta and Related Functions
- Kronecker Product Extensions of Linear Operators
- Error Bounds for Asymptotic Solutions of Second-Order Differential Equations Having an Irregular Singularity of Arbitrary Rank
- The Asymptotic Approximation of Certain Integrals
- Movable Singularities and Quadrature
- Whittaker's Cardinal Function in Retrospect
- Error bounds for asymptotic solutions of differential equations.I. Distinct eigenvalue case
- Error bounds for asymptotic solutions of differential equations. 2. The general case
- Transform Methods for Obtaining Asymptotic Expansions of Definite Integrals
- The Approximate Solution of Convolution-Type Integral Equations
- How Slowly Can Quadrature Formulas Converge?
- Integration Formulae Based on the Trapezoidal Formula
- Fractional Fokker-Planck equation
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
This page was built for publication: Publications by, and About, Frank Stenger
