The Bifurcation Interpreter is a computer program that autonomously explores the steady-state orbits of one-parameter families of periodically- driven oscillators. To report its findings, the Interpreter generates schematic diagrams and English text descriptions similar to those appearing in the science and engineering research literature. Given a system of equations as input, the Interpreter uses symbolic algebra to automatically generate numerical procedures that simulate the system. The Interpreter incorporates knowledge about dynamical systems theory, which it uses to guide the simulations, to interpret the results, and to minimize the effects of numerical error
An interactive program for visualizing the long term behavior of dynamical systems, e.g., attractors...
Following the work of Yorke and Li in 1975, the theory of discrete dynamical systems and difference ...
In this paper, two different methods to compute the period-doubling route to chaos (or Feigenbaum ch...
AbstractThe Bifurcation Interpreter is a computer program that autonomously explores the steady-stat...
The theory of dynamical systems studies the behavior of solutions of systems, like nonlinear ordinar...
The aim of this paper is to introduce a few topics about nonlinear systems that are usual in electri...
Bifurcation software is an essential tool in the study of dynamical systems. From the beginning (the...
: This paper is a brief survey of numerical methods for computing bifurcations of generic families o...
The article is devoted to the parametrical analysis of periodic and chaotic oscillations in the nonl...
Adventures in Bifurcations and Chaos (ABC) is a user-friendly program for IBM-compatible PCs which ...
For identifying the long time behaviour of nonlinear dynamical systems with respect to the influence...
This paper describes the functionality and usage of bal, a C/C++ library with a Python front-end for...
For identifying the long-time behaviour of nonlinear dynamical systems with respect to the influence...
In mechanical applications it is essential that unexpected dynamics are avoided. The industry wants ...
This paper describes the functionality and usage of bal, a C/C++ library with a Python front-end for...
An interactive program for visualizing the long term behavior of dynamical systems, e.g., attractors...
Following the work of Yorke and Li in 1975, the theory of discrete dynamical systems and difference ...
In this paper, two different methods to compute the period-doubling route to chaos (or Feigenbaum ch...
AbstractThe Bifurcation Interpreter is a computer program that autonomously explores the steady-stat...
The theory of dynamical systems studies the behavior of solutions of systems, like nonlinear ordinar...
The aim of this paper is to introduce a few topics about nonlinear systems that are usual in electri...
Bifurcation software is an essential tool in the study of dynamical systems. From the beginning (the...
: This paper is a brief survey of numerical methods for computing bifurcations of generic families o...
The article is devoted to the parametrical analysis of periodic and chaotic oscillations in the nonl...
Adventures in Bifurcations and Chaos (ABC) is a user-friendly program for IBM-compatible PCs which ...
For identifying the long time behaviour of nonlinear dynamical systems with respect to the influence...
This paper describes the functionality and usage of bal, a C/C++ library with a Python front-end for...
For identifying the long-time behaviour of nonlinear dynamical systems with respect to the influence...
In mechanical applications it is essential that unexpected dynamics are avoided. The industry wants ...
This paper describes the functionality and usage of bal, a C/C++ library with a Python front-end for...
An interactive program for visualizing the long term behavior of dynamical systems, e.g., attractors...
Following the work of Yorke and Li in 1975, the theory of discrete dynamical systems and difference ...
In this paper, two different methods to compute the period-doubling route to chaos (or Feigenbaum ch...