Add to ORKGA modeling approach to treat noisy engineering systems is presented. We deal with controlled systems that evolve in a continuous-time over finite time intervals, but also in continuous interaction with environments of intrinsic variability. We face the complexity of these systems by introducing a methodology based on Stochastic Differential Equations (SDE) models. We focus on specific type of complexity derived from unpredictable abrupt and/or structural changes. In this paper an approach based on controlled Stochastic Differential Equations with Markovian Switchings (SDEMS) is proposed. Technical conditions for the existence and uniqueness of the solution of these models are provided. We treat with nonlinear SDEMS that does not have ...
Thesis (Ph.D.)--University of Washington, 2018Stochastic dynamical systems, as a rapidly growing are...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
A modeling approach to treat noisy engineering systems is presented. We deal with controlled system...
A modeling approach to treat noisy engineering systems is presented. We deal with controlled system...
A modeling approach to treat noisy engineering systems is presented. We deal with controlled system...
The purpose of this report is to introduce the engineer to the area of stochastic differential equat...
Abstract: We study a nonlinear system under regime switching and subject to an environmental noise. ...
In this monograph, we have provided a general framework of how noise can arise and be incorporated ...
In this monograph, we have provided a general framework of how noise can arise and be incorporated ...
We consider dynamical systems in which a (typically vector-valued) dependent variable evolves accord...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
The time evolution of chemical systems is traditionally modeled using deterministic ordinary differe...
The time evolution of chemical systems is traditionally modeled using deterministic ordinary differe...
Traditionally, the law of mass action has been used to deterministically model chemical reactions. T...
Thesis (Ph.D.)--University of Washington, 2018Stochastic dynamical systems, as a rapidly growing are...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
A modeling approach to treat noisy engineering systems is presented. We deal with controlled system...
A modeling approach to treat noisy engineering systems is presented. We deal with controlled system...
A modeling approach to treat noisy engineering systems is presented. We deal with controlled system...
The purpose of this report is to introduce the engineer to the area of stochastic differential equat...
Abstract: We study a nonlinear system under regime switching and subject to an environmental noise. ...
In this monograph, we have provided a general framework of how noise can arise and be incorporated ...
In this monograph, we have provided a general framework of how noise can arise and be incorporated ...
We consider dynamical systems in which a (typically vector-valued) dependent variable evolves accord...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
The time evolution of chemical systems is traditionally modeled using deterministic ordinary differe...
The time evolution of chemical systems is traditionally modeled using deterministic ordinary differe...
Traditionally, the law of mass action has been used to deterministically model chemical reactions. T...
Thesis (Ph.D.)--University of Washington, 2018Stochastic dynamical systems, as a rapidly growing are...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...