Characterization of the speed of convergence of the trapezoidal rule
From MaRDI portal
Publication:908462
DOI10.1007/BF01386402zbMath0693.41031OpenAlexW2079425628WikidataQ56339790 ScholiaQ56339790MaRDI QIDQ908462
Gerhard Schmeisser, Qazi Ibadur Rahman
Publication date: 1990
Published in: Numerische Mathematik (Search for Journal in Brave)
Full work available at URL: https://eudml.org/doc/133440
Approximate quadratures (41A55) Numerical quadrature and cubature formulas (65D32) Topological linear spaces of continuous, differentiable or analytic functions (46E10)
Related Items
Quadrature formulae for the positive real axis in the setting of Mellin analysis: sharp error estimates in terms of the Mellin distance ⋮ Summation Formulas of Euler–Maclaurin and Abel–Plana: Old and New Results and Applications ⋮ An artificially-damped Fourier method for dispersive evolution equations ⋮ Characterization of functions in terms of rate of convergence of a quadrature process. II: Case of non-periodic functions ⋮ Aliasing and two-dimensional well-balanced for drift-diffusion equations on square grids ⋮ Polynomial convolutions in max-plus algebra ⋮ On fluctuations of eigenvalues of random permutation matrices
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Best quadrature formula for the class \(W^rL_2\)
- A two-dimensional mean problem
- Umkehrsätze beim Trapezverfahren
- The kernel of a rule of approximate integration
- Characterization of Functions in Terms of Rate of Convergence of a Quadrature Process
- BEST QUADRATURE FORMULA FOR SOME CLASSES OF PERIODIC DIFFERENTIABLE FUNCTIONS
- Diophantine Approximations and Hilbert's Space
This page was built for publication: Characterization of the speed of convergence of the trapezoidal rule
