This paper contributes to extending the validity of Lyapunov function PDEs whose solution is conjectured to be able to behave as a Lyapunov function in stability analysis to more mass-action chemical reaction networks. First, we have proved that the Lyapunov function PDEs method is valid in capturing the asymptotic stability of the networks compounded of a complex balanced network and any species-dependent twospecies autocatalytic network if some moderate conditions are included. Then by defining a new class of networks, called complex balanced produced networks, we also show the asymptotic stability of this class of networks, and also to their compound with any species-independent 1-dimensional network and with any species-dependent two-sp...
In this thesis essentially two types of partial differential equations and their applications to net...
In this paper, we investigate the stability problem for some Markovian switching reaction-diffusion ...
We consider ordinary differential equations (ODEs) that describe the time evolution of the concentra...
A new system-theoretic approach for studying the stability and control of chemical reaction networks...
Although Chemical Reaction Networks (CRNs) form a rich class of nonlinear systems that can exhibit w...
We consider the problem of assessing structural stability of biochemical reaction networks with mono...
We consider the problem of assessing structural stability of biochemical reaction networks with mono...
Piecewise-linear in rates (PWLR) Lyapunov functions are introduced for a class of chemical reaction ...
Given a class of (bio)Chemical Reaction Networks (CRNs) identified by a stoichiometric matrix S, we ...
For a vast class of dynamical networks, including chemical reaction networks (CRNs) with monotonic r...
Structural properties, independent of specific parameter values, can explain the robustness of bioch...
We present three examples of chemical reaction networks whose ordinary differential equation scaling...
Complex molecular biological processes such as transcription and translation, signal transduction, p...
Autocatalytic networks, in particular the glycolytic pathway, constitute an important part of the ce...
A treatment of chemical reaction network theory is given from the perspective of nonlinear network d...
In this thesis essentially two types of partial differential equations and their applications to net...
In this paper, we investigate the stability problem for some Markovian switching reaction-diffusion ...
We consider ordinary differential equations (ODEs) that describe the time evolution of the concentra...
A new system-theoretic approach for studying the stability and control of chemical reaction networks...
Although Chemical Reaction Networks (CRNs) form a rich class of nonlinear systems that can exhibit w...
We consider the problem of assessing structural stability of biochemical reaction networks with mono...
We consider the problem of assessing structural stability of biochemical reaction networks with mono...
Piecewise-linear in rates (PWLR) Lyapunov functions are introduced for a class of chemical reaction ...
Given a class of (bio)Chemical Reaction Networks (CRNs) identified by a stoichiometric matrix S, we ...
For a vast class of dynamical networks, including chemical reaction networks (CRNs) with monotonic r...
Structural properties, independent of specific parameter values, can explain the robustness of bioch...
We present three examples of chemical reaction networks whose ordinary differential equation scaling...
Complex molecular biological processes such as transcription and translation, signal transduction, p...
Autocatalytic networks, in particular the glycolytic pathway, constitute an important part of the ce...
A treatment of chemical reaction network theory is given from the perspective of nonlinear network d...
In this thesis essentially two types of partial differential equations and their applications to net...
In this paper, we investigate the stability problem for some Markovian switching reaction-diffusion ...
We consider ordinary differential equations (ODEs) that describe the time evolution of the concentra...