An approach to facilitate the development and validation of simulation models is presented. We exploit the object– oriented implementation techniques together with scientific computing patterns for developing a basic solver engine to approximate numerical solution of a set of ordinary dif-ferential equations. The solver engine can be configured with different numerical methods according to the engineer needs
Scientific computing is about developing mathematical models, numerical methods and computer impleme...
Object-oriented models in the Systems Modeling Language (SysML) are developed in this paper to suppo...
The purpose of this thesis was to develop a program that would accept, as input, a finite set of alg...
This book describes CoSMoS (Complex Systems Modelling and Simulation), a pattern-based approach to e...
This paper proposes that object-oriented design patterns can greatly help with the design and constr...
The majority of large-scale scientific computation prob-lems fall into the area of numerical simulat...
In today’s computer age, the numerical simulations are replacing the traditional laboratory experime...
Software engineering is a formal set of tools and procedures for the efficient development of reliab...
A major cost in scientific computing is the creation of software that performs the numerical compu-t...
Recently, mechatronics as a self-contained discipline has doubtlessly shaped the development of tech...
This paper discusses rationales for selection of software components for building scientific simulat...
This contribution gives an overview of current research in applying object oriented programming to s...
Problem solving environments represent the next generation of scientific computing software. This th...
Abstract: Conceptual models have been developed for many domains and application types. Within each...
This current research is to develop automated solver selection capabilities necessary to achieve a ...
Scientific computing is about developing mathematical models, numerical methods and computer impleme...
Object-oriented models in the Systems Modeling Language (SysML) are developed in this paper to suppo...
The purpose of this thesis was to develop a program that would accept, as input, a finite set of alg...
This book describes CoSMoS (Complex Systems Modelling and Simulation), a pattern-based approach to e...
This paper proposes that object-oriented design patterns can greatly help with the design and constr...
The majority of large-scale scientific computation prob-lems fall into the area of numerical simulat...
In today’s computer age, the numerical simulations are replacing the traditional laboratory experime...
Software engineering is a formal set of tools and procedures for the efficient development of reliab...
A major cost in scientific computing is the creation of software that performs the numerical compu-t...
Recently, mechatronics as a self-contained discipline has doubtlessly shaped the development of tech...
This paper discusses rationales for selection of software components for building scientific simulat...
This contribution gives an overview of current research in applying object oriented programming to s...
Problem solving environments represent the next generation of scientific computing software. This th...
Abstract: Conceptual models have been developed for many domains and application types. Within each...
This current research is to develop automated solver selection capabilities necessary to achieve a ...
Scientific computing is about developing mathematical models, numerical methods and computer impleme...
Object-oriented models in the Systems Modeling Language (SysML) are developed in this paper to suppo...
The purpose of this thesis was to develop a program that would accept, as input, a finite set of alg...