The problem of finite-time stability of switched genetic regulatory networks (GRNs) with time-varying delays via Wirtinger’s integral inequality is addressed in this study. A novel Lyapunov–Krasovskii functional is proposed to capture the dynamical characteristic of GRNs. Using Wirtinger’s integral inequality, reciprocally convex combination technique and the average dwell time method conditions in the form of linear matrix inequalities (LMIs) are established for finite-time stability of switched GRNs. The applicability of the developed finite-time stability conditions is validated by numerical results
Genetic regulatory network (GRN) is a fundamental research area in systems biology. This thesis s...
International audienceThe synthetic Genetic Regulatory Networks (GRNs) have proven to be a powerful ...
Abstract — Gene regulation is inherently a stochastic process due to intrinsic and extrinsic noises ...
This paper investigates the finite-time stability problem of switching genetic regulatory networks (...
This study seeks to address the finite-time robust stability of delayed genetic regulatory networks ...
Monostability and multistability are proven to be two important topics in synthesis biology and syst...
This paper presents the robust stability criteria for uncertain genetic regulatory networks with tim...
This article discusses the finite-time stability problem for stochastic genetic regulatory networks ...
Many genetic regulatory networks (GRNs) have the capacity to reach different stable states. This cap...
Multistability is found to be an important recurring theme in synthesis biology. In this article, th...
The synthetic genetic regulatory networks (GRNs) prove to be a powerful tool in studying gene regula...
This paper concerns the problem of stability analysis for delayed stochastic genetic regulatory netw...
In this paper, the asymptotic stability problem of genetic regulatory networks with time-varying/con...
Gene regulation is inherently a stochastic process due to intrinsic and extrinsic noises which cause...
AbstractThis paper investigates the delay-dependent global asymptotic stability problem of stochasti...
Genetic regulatory network (GRN) is a fundamental research area in systems biology. This thesis s...
International audienceThe synthetic Genetic Regulatory Networks (GRNs) have proven to be a powerful ...
Abstract — Gene regulation is inherently a stochastic process due to intrinsic and extrinsic noises ...
This paper investigates the finite-time stability problem of switching genetic regulatory networks (...
This study seeks to address the finite-time robust stability of delayed genetic regulatory networks ...
Monostability and multistability are proven to be two important topics in synthesis biology and syst...
This paper presents the robust stability criteria for uncertain genetic regulatory networks with tim...
This article discusses the finite-time stability problem for stochastic genetic regulatory networks ...
Many genetic regulatory networks (GRNs) have the capacity to reach different stable states. This cap...
Multistability is found to be an important recurring theme in synthesis biology. In this article, th...
The synthetic genetic regulatory networks (GRNs) prove to be a powerful tool in studying gene regula...
This paper concerns the problem of stability analysis for delayed stochastic genetic regulatory netw...
In this paper, the asymptotic stability problem of genetic regulatory networks with time-varying/con...
Gene regulation is inherently a stochastic process due to intrinsic and extrinsic noises which cause...
AbstractThis paper investigates the delay-dependent global asymptotic stability problem of stochasti...
Genetic regulatory network (GRN) is a fundamental research area in systems biology. This thesis s...
International audienceThe synthetic Genetic Regulatory Networks (GRNs) have proven to be a powerful ...
Abstract — Gene regulation is inherently a stochastic process due to intrinsic and extrinsic noises ...