We estimate an agent-based interpretation of the well-known Bass innovation diffusion model. In order to reduce the computational complexity of the estimation procedure, standard ML techniques are used to estimate some parameters as a function of other parameters, which are then estimated by simulated moments. We prove that our estimates are consistent and converge to the true values as population size increases. Our approach can be generalized to the estimation of more complex agent-based models. However, a trade-off emerges between model inadequacy and data inadequacy. This is particularly severe when only aggregate information is available, as common with diffusion data
We take the model of Alfarano et al. (J Econ Dyn Control 32:101–136, 2008) as a prototype agent-base...
International audienceAn approach that is particularly well adapted to study the dynamics of adoptio...
n this paper we present a procedure that enables a systematic and partially automated parameterizati...
We estimate an agent-based interpretation of the well-known Bass innovation diffusion model. In orde...
Starting from an agent-based interpretation of the well-known Bass innovation diffusion model, we pe...
According to standard econometric theory, Maximum Likelihood estimation (MLE) is the efficient estim...
The need for modeling diffusion of innovation among individuals of a social system has motivated rel...
Simulation modeling is useful to understand the mechanisms of the diffusion of innovations, which ca...
Simulation modeling is useful to gain insights into driving mechanisms of diffusion of innovations. ...
We consider Bayesian inference techniques for agent-based (AB) models, as an alternative to simulate...
Simple models of interacting agents can be formulated as jump Markov processes via suitably specifie...
www.nda.ac.jp/~nama Diffusion is the process in which the successful introduction of new products an...
Review of innovation diffusion models, with particular attention to the most famous and employed one...
This thesis investigates parameter estimation in a widely applicable model of interaction in social ...
Cahiers du département d'Econométrie, Université de Genève, n° 2008.01/2008Indirect inference (Smith...
We take the model of Alfarano et al. (J Econ Dyn Control 32:101–136, 2008) as a prototype agent-base...
International audienceAn approach that is particularly well adapted to study the dynamics of adoptio...
n this paper we present a procedure that enables a systematic and partially automated parameterizati...
We estimate an agent-based interpretation of the well-known Bass innovation diffusion model. In orde...
Starting from an agent-based interpretation of the well-known Bass innovation diffusion model, we pe...
According to standard econometric theory, Maximum Likelihood estimation (MLE) is the efficient estim...
The need for modeling diffusion of innovation among individuals of a social system has motivated rel...
Simulation modeling is useful to understand the mechanisms of the diffusion of innovations, which ca...
Simulation modeling is useful to gain insights into driving mechanisms of diffusion of innovations. ...
We consider Bayesian inference techniques for agent-based (AB) models, as an alternative to simulate...
Simple models of interacting agents can be formulated as jump Markov processes via suitably specifie...
www.nda.ac.jp/~nama Diffusion is the process in which the successful introduction of new products an...
Review of innovation diffusion models, with particular attention to the most famous and employed one...
This thesis investigates parameter estimation in a widely applicable model of interaction in social ...
Cahiers du département d'Econométrie, Université de Genève, n° 2008.01/2008Indirect inference (Smith...
We take the model of Alfarano et al. (J Econ Dyn Control 32:101–136, 2008) as a prototype agent-base...
International audienceAn approach that is particularly well adapted to study the dynamics of adoptio...
n this paper we present a procedure that enables a systematic and partially automated parameterizati...