The parameters of a discrete stationary Markov model are transition probabilities between states. Traditionally, data consist in sequences of observed states for a given number of individuals over the whole observation period. In such a case, the estimation of transition probabilities is straight-forwardly made by counting one-step moves from a given state to another. In many real-life problems, however, the inference is much more difficult as state sequences are not fully observed, namely the state of each individual is known only for some given values of the time variable. A review of the problem is given, focusing on Monte Carlo Markov Chain (MCMC) algorithms to perform Bayesian inference and evaluate posterior distributions of the trans...
We develop a Bayesian estimation framework for non-stationary Markov models for situations where bot...
Markov switching models are a family of models that introduces time variation in the parameters in t...
Inference for continuous time multi-state models presents considerable computational difficulties wh...
This paper outlines a Bayesian approach to estimating discrete games of incomplete information. The ...
Inference for continuous time multi-state models presents considerable computational difficulties wh...
Markov transition models are frequently used to model dis-ease progression. The authors show how the...
Monte Carlo methods have found widespread use among many disciplines as a way to simulate random pro...
A chronological review of the development of estimation procedures for unknown constant Markovian tr...
Inference for continuous time non homogeneous multi-state Markovmodels may present considerable comp...
Markovian jump systems (MJSs) evolve in a jump-wise manner by switching among simpler models, accord...
Dynamic models extend state space models to non--normal observations. This paper suggests a specific...
We present new methodologies for Bayesian inference on the rate parameters of a discretely observed ...
Multi-state models are frequently applied to represent processes evolving through a discrete set of ...
A problem of statistical analysis for homogeneous Markov chain is considered for the situation with ...
Vector Markov processes (also known as population Markov processes) are an important class of stocha...
We develop a Bayesian estimation framework for non-stationary Markov models for situations where bot...
Markov switching models are a family of models that introduces time variation in the parameters in t...
Inference for continuous time multi-state models presents considerable computational difficulties wh...
This paper outlines a Bayesian approach to estimating discrete games of incomplete information. The ...
Inference for continuous time multi-state models presents considerable computational difficulties wh...
Markov transition models are frequently used to model dis-ease progression. The authors show how the...
Monte Carlo methods have found widespread use among many disciplines as a way to simulate random pro...
A chronological review of the development of estimation procedures for unknown constant Markovian tr...
Inference for continuous time non homogeneous multi-state Markovmodels may present considerable comp...
Markovian jump systems (MJSs) evolve in a jump-wise manner by switching among simpler models, accord...
Dynamic models extend state space models to non--normal observations. This paper suggests a specific...
We present new methodologies for Bayesian inference on the rate parameters of a discretely observed ...
Multi-state models are frequently applied to represent processes evolving through a discrete set of ...
A problem of statistical analysis for homogeneous Markov chain is considered for the situation with ...
Vector Markov processes (also known as population Markov processes) are an important class of stocha...
We develop a Bayesian estimation framework for non-stationary Markov models for situations where bot...
Markov switching models are a family of models that introduces time variation in the parameters in t...
Inference for continuous time multi-state models presents considerable computational difficulties wh...