Stability of the difference type methods for linear Volterra equations in Hilbert spaces
From MaRDI portal
Publication:937231
DOI10.1007/s00211-008-0151-0zbMath1166.65401OpenAlexW1996143385MaRDI QIDQ937231
Publication date: 20 August 2008
Published in: Numerische Mathematik (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00211-008-0151-0
Numerical methods for integral equations (65R20) Integro-partial differential equations (45K05) Numerical quadrature and cubature formulas (65D32)
Related Items (17)
Strong order of convergence of a fully discrete approximation of a linear stochastic Volterra type evolution equation ⋮ Alternating direction implicit Galerkin finite element method for the two-dimensional fractional diffusion-wave equation ⋮ Classical theory of linear multistep methods for Volterra functional differential equations ⋮ An \(hp\)-version spectral collocation method for nonlinear Volterra integro-differential equation with weakly singular kernels ⋮ The long time error analysis in the second order difference type method of an evolutionary integral equation with completely monotonic kernel ⋮ On the observability inequalities of time discrete 2‐D integro‐differential systems in square domains ⋮ An \(h-p\) version of the continuous Petrov-Galerkin finite element method for nonlinear Volterra integro-differential equations ⋮ The time discretization in classes of integro-differential equations with completely monotonic kernels: weighted asymptotic stability ⋮ The numerical analysis on a Volterra equation with asymptotically periodic solution ⋮ An \(h\)-\(p\) Petrov-Galerkin finite element method for linear Volterra integro-differential equations ⋮ Numerical solutions of viscoelastic bending wave equations with two term time kernels by Runge-Kutta convolution quadrature ⋮ Numerical solution of evolutionary integral equations with completely monotonic kernel by Runge–Kutta convolution quadrature ⋮ On the observability of time discrete integro-differential systems ⋮ The time discretization in classes of integro-differential equations with completely monotonic kernels: Weighted asymptotic convergence ⋮ Weighted Paley-Wiener theorem, with applications to stability of the linear multi-step methods for Volterra equations in Hilbert spaces ⋮ Decay properties for the numerical solutions of a partial differential equation with memory ⋮ Orthogonal spline collocation scheme for the multi-term time-fractional diffusion equation
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Asymptotic behaviour of resolvents of abstract Volterra equations
- Positivity and regularity of hyperbolic Volterra equations in Banach spaces
- Convolution quadrature and discretized operational calculus. I
- Convolution quadrature and discretized operational calculus. II
- On the quadrature error in operational quadrature methods for convolutions
- Stability of Volterra equations with measure kernels in Banach spaces
- On Volterra integral equations with nonnegative integrable resolvents
- Lectures on viscoelasticity theory
- Uniform l1 behaviour for time discretization of a Volterra equation with completely monotonic kernel: I. stability
- Uniform Error Estimates of Operational Quadrature Methods for Nonlinear Convolution Equations on the Half-Line
- Bounded Solutions of Volterra Equations
- Resolvent Formulas for a Volterra Equation in Hilbert Space
- Abstract Linear and Nonlinear Volterra Equations Preserving Positivity
- A Nonhomogeneous Integrodifferential Equation in Hilbert Space
- Evolutionary Integral Equations and Applications
- Nonsmooth data error estimates for approximations of an evolution equation with a positive-type memory term
- Operational Quadrature Methods for Wiener-Hopf Integral Equations
- Indirect Abelian Theorems and a Linear Volterra Equation
- A criterion forA(α)-stability of linear multistep methods
This page was built for publication: Stability of the difference type methods for linear Volterra equations in Hilbert spaces
