Add to ORKGIn this paper, we extend a recently introduced multi-fidelity control variate for the uncertainty quantification of the Boltzmann equation to the case of kinetic models arising in the study of multiagent systems. For these phenomena, where the effect of uncertainties is particularly evident, several models have been developed whose equilibrium states are typically unknown. In particular, we aim to develop efficient numerical methods based on solving the kinetic equations in the phase space by direct simulation Monte Carlo coupled to a Monte Carlo sampling in the random space. To this end, by exploiting the knowledge of the corresponding mean-field approximation we develop novel mean field control variate methods that are able to strongly re...
The description of emerging collective phenomena and self-organization in systems composed of large ...
We study a multiscale approach for the control of agent-based, two-population models. The control va...
In this paper we introduce kinetic equations for the evolution of the probability distribution of tw...
In this paper, we extend a recently introduced multi-fidelity control variate for the uncertainty qu...
Kinetic equations play a major rule in modeling large systems of interacting particles. Uncertaintie...
The development of efficient numerical methods for kinetic equations with stochastic parameters is a...
We propose a control variate multilevel Monte Carlo method for the kinetic BGK model of the Boltzman...
Kinetic equations play a major rule in modeling large systems of interacting particles. Recently the...
We overview some recent results in the field of uncertainty quantification for kinetic equations and...
In this paper, we focus on the construction of a hybrid scheme for the approximation of non-Maxwelli...
In this paper we are concerned with three typical aspects of the Monte Carlo approach. First there i...
We present an efficient approach for reducing the statistical uncertainty associated with direct Mon...
We introduce and discuss optimal control strategies for kinetic models for wealth distribution in a ...
In this paper we investigate Monte Carlo methods for the approximation of the posterior probability ...
We consider a population of dynamic agents, also referred to as players. The state of each player ev...
The description of emerging collective phenomena and self-organization in systems composed of large ...
We study a multiscale approach for the control of agent-based, two-population models. The control va...
In this paper we introduce kinetic equations for the evolution of the probability distribution of tw...
In this paper, we extend a recently introduced multi-fidelity control variate for the uncertainty qu...
Kinetic equations play a major rule in modeling large systems of interacting particles. Uncertaintie...
The development of efficient numerical methods for kinetic equations with stochastic parameters is a...
We propose a control variate multilevel Monte Carlo method for the kinetic BGK model of the Boltzman...
Kinetic equations play a major rule in modeling large systems of interacting particles. Recently the...
We overview some recent results in the field of uncertainty quantification for kinetic equations and...
In this paper, we focus on the construction of a hybrid scheme for the approximation of non-Maxwelli...
In this paper we are concerned with three typical aspects of the Monte Carlo approach. First there i...
We present an efficient approach for reducing the statistical uncertainty associated with direct Mon...
We introduce and discuss optimal control strategies for kinetic models for wealth distribution in a ...
In this paper we investigate Monte Carlo methods for the approximation of the posterior probability ...
We consider a population of dynamic agents, also referred to as players. The state of each player ev...
The description of emerging collective phenomena and self-organization in systems composed of large ...
We study a multiscale approach for the control of agent-based, two-population models. The control va...
In this paper we introduce kinetic equations for the evolution of the probability distribution of tw...