The task of finding all physically relevant solutions to mathematical models of physical systems remains an important and challenging area of active research in many branches of science and engineering. While there are several useful \u27global\u27 methods for finding one or more solutions to models for chemical and other processes, it is the solutions that are generally the primary focus. Singular points are often viewed as something to be avoided and no use is made of the natural connectedness that exists between solutions and singular points. This paper describes a completely different, novel and general approach to finding all physically meaningful solutions and singular points to mathematical models of physical systems by intelligently...
Global optimization problems for which it is either intractable or undesirable to find all stationar...
Abstract. We introduce a new approach to modelling gradient flows of contours and surfaces. While st...
The system of ordinary differential equations for the method of the gentlest ascent dynamics (GAD) h...
The task of finding physically relevant solutions to mathematical models of physical systems remains...
Global optimization remains an important area of active research. Many macroscopic and microscopic a...
It is shown that all stationary and singular points to optimization problems do not necessarily lie ...
A novel geometric terrain methodology was recently presented for finding all physically relevant sol...
This paper contains a study of the global optimization of mathematical models described by ordinary ...
Global optimization problems with so-called \u27rough\u27 or rugged objective function landscapes ar...
Abstract—This work proposes a motion planning method based on the construction of a roadmap connecti...
This work proposes a motion planning method based on the construction of a roadmap connecting the cr...
Saddle-points and mountain-pass points of energy surfaces have many applications in areas that range...
Optimization is an active area of research and an important computational tool in many fields of sci...
The behavior of Newton-based equation-solving methods in regions containing saddle points is studied...
ABSTRACT. The problem of computing saddle points is important in certain problems in numer-ical part...
Global optimization problems for which it is either intractable or undesirable to find all stationar...
Abstract. We introduce a new approach to modelling gradient flows of contours and surfaces. While st...
The system of ordinary differential equations for the method of the gentlest ascent dynamics (GAD) h...
The task of finding physically relevant solutions to mathematical models of physical systems remains...
Global optimization remains an important area of active research. Many macroscopic and microscopic a...
It is shown that all stationary and singular points to optimization problems do not necessarily lie ...
A novel geometric terrain methodology was recently presented for finding all physically relevant sol...
This paper contains a study of the global optimization of mathematical models described by ordinary ...
Global optimization problems with so-called \u27rough\u27 or rugged objective function landscapes ar...
Abstract—This work proposes a motion planning method based on the construction of a roadmap connecti...
This work proposes a motion planning method based on the construction of a roadmap connecting the cr...
Saddle-points and mountain-pass points of energy surfaces have many applications in areas that range...
Optimization is an active area of research and an important computational tool in many fields of sci...
The behavior of Newton-based equation-solving methods in regions containing saddle points is studied...
ABSTRACT. The problem of computing saddle points is important in certain problems in numer-ical part...
Global optimization problems for which it is either intractable or undesirable to find all stationar...
Abstract. We introduce a new approach to modelling gradient flows of contours and surfaces. While st...
The system of ordinary differential equations for the method of the gentlest ascent dynamics (GAD) h...