This paper studies the relations among system parameters, uniqueness, and stability of equilibria, for kinetic systems given in the form of polynomial ODEs. Such models are commonly used to describe the dynamics of nonnegative systems, with a wide range of application fields such as chemistry, systems biology, process modeling or even transportation systems. Using a flux-based description of kinetic models, a canonical representation of the set of all possible feasible equilibria is developed. The characterization is made in terms of strictly stable compartmental matrices to define the so-called family of solutions. Feasibility is imposed by a set of constraints, which are linear on a log-transformed space of complexes, and relate to the...
The results of an investigation of the formal stability behavior of equivalent classes of asymptotic...
In this paper, we extend our study of power law kinetic systems whose kinetic order vectors (which w...
In this paper we discuss the question of how to decide when a general chemical reaction system is in...
AbstractThis paper studies the relations among system parameters, uniqueness, and stability of equil...
In this work we explore two potential mechanisms inducing multiple equilibria for weakly reversible ...
We present conditions which guarantee a parametrization of the set of positive equilibria of a gener...
It is well known that, for mass-action systems, complex-balanced equilibria are asymptotically stabl...
AbstractIn this paper we discuss the question of how to decide when a general chemical reaction syst...
Studies about the set of positive equilibria (E+) of kinetic systems have been focused on mass actio...
Dynamical system models of complex biochemical reaction networks are high-dimensional, nonlinear, an...
This work introduces a novel approach to study properties of positive equilibria of a chemical react...
This paper addresses the problem of determining the capacity of a deficiency-one network, endowed wi...
In this paper, we use the concept of kinetic reactant deficiency to determine the existence of compl...
In this paper, we use the concept of kinetic reactant deficiency to determine the existence of compl...
AbstractThe dynamics of biological reaction networks are strongly constrained by thermodynamics. An ...
The results of an investigation of the formal stability behavior of equivalent classes of asymptotic...
In this paper, we extend our study of power law kinetic systems whose kinetic order vectors (which w...
In this paper we discuss the question of how to decide when a general chemical reaction system is in...
AbstractThis paper studies the relations among system parameters, uniqueness, and stability of equil...
In this work we explore two potential mechanisms inducing multiple equilibria for weakly reversible ...
We present conditions which guarantee a parametrization of the set of positive equilibria of a gener...
It is well known that, for mass-action systems, complex-balanced equilibria are asymptotically stabl...
AbstractIn this paper we discuss the question of how to decide when a general chemical reaction syst...
Studies about the set of positive equilibria (E+) of kinetic systems have been focused on mass actio...
Dynamical system models of complex biochemical reaction networks are high-dimensional, nonlinear, an...
This work introduces a novel approach to study properties of positive equilibria of a chemical react...
This paper addresses the problem of determining the capacity of a deficiency-one network, endowed wi...
In this paper, we use the concept of kinetic reactant deficiency to determine the existence of compl...
In this paper, we use the concept of kinetic reactant deficiency to determine the existence of compl...
AbstractThe dynamics of biological reaction networks are strongly constrained by thermodynamics. An ...
The results of an investigation of the formal stability behavior of equivalent classes of asymptotic...
In this paper, we extend our study of power law kinetic systems whose kinetic order vectors (which w...
In this paper we discuss the question of how to decide when a general chemical reaction system is in...