Stochastic components in a feedback loop introduce state behaviors that are fundamentally different from those observed in a deterministic system. The effect of injecting a stochastic signal additively in linear feedback systems can be viewed as the addition of filtered stochastic noise. If the stochastic signal enters the feedback loop in a multiplicative manner, a much richer set of state behaviors emerges. These phenomena are investigated for the simplest possible system; a multiplicative noise in a scalar, integrating feedback loop. The same dynamics arise when considering a first-order system in feedback with a stochastic gain. Dynamics of this form arise naturally in a number of domains, including compound investment in fina...
Feedback modules, which appear ubiquitously in biological regulations, are often subject to disturba...
In the paper, we consider a Kaldor-type model of the business cycle with external additive and inter...
Research by the Lancaster/UMSL (University of Missouri, St Louis) nonlinear dynamics group is enhanc...
Intrinsically noisy mechanisms drive most physical, biological and economic phenomena. Frequently, t...
Cataloged from PDF version of article.Intrinsically noisy mechanisms drive most physical, biological...
Biological systems possess the ability to adapt quickly and adequately to both environmental and int...
Stochastic control theory is introduced and its importance relative to control science in general is...
We introduce an extension of the usual replicator dynamics to adaptive learning rates. We show that ...
Thesis (Ph.D.)--University of Washington, 2018Stochastic dynamical systems, as a rapidly growing are...
Motivated by problems in process design, monitoring and control, the effect of multiplicative stoch...
The dynamics of a large class of non-linear systems are described implicitly, i.e. as a combination ...
Flexible learning rates can lead to increased payoffs under the influence of noise. In a previous pa...
We contrast a standard deterministic signaling game with one where the signal-generating mechanism i...
Stochasticity in feedback gains leads to heavy-tailed state distributions in which the median, mean,...
<p>The environmental process modulates the dynamics of the process under study , e.g., through one ...
Feedback modules, which appear ubiquitously in biological regulations, are often subject to disturba...
In the paper, we consider a Kaldor-type model of the business cycle with external additive and inter...
Research by the Lancaster/UMSL (University of Missouri, St Louis) nonlinear dynamics group is enhanc...
Intrinsically noisy mechanisms drive most physical, biological and economic phenomena. Frequently, t...
Cataloged from PDF version of article.Intrinsically noisy mechanisms drive most physical, biological...
Biological systems possess the ability to adapt quickly and adequately to both environmental and int...
Stochastic control theory is introduced and its importance relative to control science in general is...
We introduce an extension of the usual replicator dynamics to adaptive learning rates. We show that ...
Thesis (Ph.D.)--University of Washington, 2018Stochastic dynamical systems, as a rapidly growing are...
Motivated by problems in process design, monitoring and control, the effect of multiplicative stoch...
The dynamics of a large class of non-linear systems are described implicitly, i.e. as a combination ...
Flexible learning rates can lead to increased payoffs under the influence of noise. In a previous pa...
We contrast a standard deterministic signaling game with one where the signal-generating mechanism i...
Stochasticity in feedback gains leads to heavy-tailed state distributions in which the median, mean,...
<p>The environmental process modulates the dynamics of the process under study , e.g., through one ...
Feedback modules, which appear ubiquitously in biological regulations, are often subject to disturba...
In the paper, we consider a Kaldor-type model of the business cycle with external additive and inter...
Research by the Lancaster/UMSL (University of Missouri, St Louis) nonlinear dynamics group is enhanc...