Applied Mathematics and Computational Science

Variable step-size techniques in continuous Runge-Kutta methods for isospectral dynamical systems* 1

Applied Mathematics / Numerical Method / Applied Mathematics and Computational Science / Potential Function / Numerical Analysis and Computational Mathematics / Dynamic System / Applied and Computational Mechanics / Electrical And Electronic Engineering / Runge Kutta / Variable Step Size / Symmetric Matrix / Dynamic System / Applied and Computational Mechanics / Electrical And Electronic Engineering / Runge Kutta / Variable Step Size / Symmetric Matrix

Variable step-size techniques in continuous Runge-Kutta methods for isospectral dynamical systems

Applied Mathematics / Numerical Method / Applied Mathematics and Computational Science / Potential Function / Numerical Analysis and Computational Mathematics / Dynamic System / Applied and Computational Mechanics / Electrical And Electronic Engineering / Runge Kutta / Variable Step Size / Symmetric Matrix / Dynamic System / Applied and Computational Mechanics / Electrical And Electronic Engineering / Runge Kutta / Variable Step Size / Symmetric Matrix

Structural assessment under uncertain parameters via interval analysis

Applied Mathematics / Linear Elasticity / Damage detection / Applied Mathematics and Computational Science / Interval analysis / Health monitoring / Computational / Reinforced concrete / Numerical Analysis and Computational Mathematics / Long Term Monitoring / Electrical And Electronic Engineering / Constraint Satisfaction Problem / Health monitoring / Computational / Reinforced concrete / Numerical Analysis and Computational Mathematics / Long Term Monitoring / Electrical And Electronic Engineering / Constraint Satisfaction Problem

Neural network for solving convex quadratic bilevel programming problems

Applied Mathematics / Algorithms / Neural Networks / Neural Network / Multidisciplinary / Software / Numerical Simulation / Computer Simulation / Applied Mathematics and Computational Science / Numerical Analysis and Computational Mathematics / Asymptotic Stability / Electrical And Electronic Engineering / Bilevel Programming / Optimal Solution / Software / Numerical Simulation / Computer Simulation / Applied Mathematics and Computational Science / Numerical Analysis and Computational Mathematics / Asymptotic Stability / Electrical And Electronic Engineering / Bilevel Programming / Optimal Solution

Multidimensional cluster stability analysis from a Brazilian Bradyrhizobium sp. RFLP/PCR data set

Applied Mathematics / Applied Mathematics and Computational Science / Cluster Analysis / Stability Analysis / Computational / Numerical Analysis and Computational Mathematics / Sampling Technique / Electrical And Electronic Engineering / Numerical Analysis and Computational Mathematics / Sampling Technique / Electrical And Electronic Engineering

Spectral element methods for parabolic problems

Applied Mathematics / Numerical Analysis / Problem Solving / Multigrid / Applied Mathematics and Computational Science / Spectral method / Space Time / STEP / Shape / PARTIAL DIFFERENTIAL EQUATION / Parallel / Parabolic Wave Equation / Domains / Functional / Adomian decomposition method / Numerical Analysis and Computational Mathematics / Waste minimisation / Parallel Computer / Boundary Value Problems / Differential equation / Boundary Condition / Boundary Value Problem / Initial Condition / Domain Decomposition / Electrical And Electronic Engineering / Least Square Method / Minimization / Spectral Element Method / Spectral method / Space Time / STEP / Shape / PARTIAL DIFFERENTIAL EQUATION / Parallel / Parabolic Wave Equation / Domains / Functional / Adomian decomposition method / Numerical Analysis and Computational Mathematics / Waste minimisation / Parallel Computer / Boundary Value Problems / Differential equation / Boundary Condition / Boundary Value Problem / Initial Condition / Domain Decomposition / Electrical And Electronic Engineering / Least Square Method / Minimization / Spectral Element Method

Spectral methods for hyperbolic problems

Applied Mathematics / Collocation / Stability / Applied Mathematics and Computational Science / Spectral method / Multi Domain / Numerical Analysis and Computational Mathematics / Filtering / Applied and Computational Mechanics / Electrical And Electronic Engineering / Penalty Methods / Multi Domain / Numerical Analysis and Computational Mathematics / Filtering / Applied and Computational Mechanics / Electrical And Electronic Engineering / Penalty Methods

A robust parameter design for multi-response problems

Applied Mathematics / Mathematical Programming / Tabu Search / Simulated Annealing / Numerical Analysis / Genetic Algorithm / Optimization Problem / Simulation / Applied Mathematics and Computational Science / Search Algorithm / Robust Parameter Design / Taguchi method / Numerical Analysis and Computational Mathematics / Electrical And Electronic Engineering / Heuristic algorithm / Genetic Algorithm / Optimization Problem / Simulation / Applied Mathematics and Computational Science / Search Algorithm / Robust Parameter Design / Taguchi method / Numerical Analysis and Computational Mathematics / Electrical And Electronic Engineering / Heuristic algorithm

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