Dynamic equilibrium models are specified to track time series with unit root-like behavior. Thus, unit roots are typically introduced and the optimality conditions adjusted. This step requires tedious algebra and often leads to algebraic mistakes, especially in models with several unit roots. We propose a symbolic algorithm that simplies the step of rendering non-stationary models stationary. It is easy to implement and works when trends are stochastic or deterministic, exogenous or endogenous. Three examples illustrate the mechanics and the properties of the approach. A comparison with existing methods is provided.publishedVersio
This paper presents symbolic time series analysis (STSA) of multi-dimensional measurement data for p...
A contractive method for computing stationary solutions of intertemporal equilibrium models is provi...
The symbolic dynamics technique is well known for low-dimensional dynamical systems and chaotic maps...
Dynamic equilibrium models are specified to track time series with unit root-like behavior. Thus, un...
we explore in multiregime dynamics the implications of the mathematical theory of symbolic dynamics,...
Symbolic analysis of time series is extended to systems with inputs, in order to obtain input/output...
Symbolic time-series analysis is used for estimating the parameters of chaotic systems. It is assume...
We introduce a relaxation algorithm to estimate approximations to generating partitions for observed...
Many macroeconomic time series exhibit non-stationary behaviour. When modelling such series an impor...
Dynamic processes generating time series are a phenomenon occurring in many events and systems worth...
Economic Dynamical Systems can be studied in the frame of a new approach based on the definition of ...
This paper introduces a new formulation of dynamic systems that subsumes both the classical discret...
An algorithm for finding all the equilibrium points of a given non-linear dynamic model is proposed....
Often, researchers wish to analyze nonlinear dynamic discrete-time stochastic models. This paper pro...
Abstract. Time–delay systems are an important class of dynamical systems that provide a solid mathem...
This paper presents symbolic time series analysis (STSA) of multi-dimensional measurement data for p...
A contractive method for computing stationary solutions of intertemporal equilibrium models is provi...
The symbolic dynamics technique is well known for low-dimensional dynamical systems and chaotic maps...
Dynamic equilibrium models are specified to track time series with unit root-like behavior. Thus, un...
we explore in multiregime dynamics the implications of the mathematical theory of symbolic dynamics,...
Symbolic analysis of time series is extended to systems with inputs, in order to obtain input/output...
Symbolic time-series analysis is used for estimating the parameters of chaotic systems. It is assume...
We introduce a relaxation algorithm to estimate approximations to generating partitions for observed...
Many macroeconomic time series exhibit non-stationary behaviour. When modelling such series an impor...
Dynamic processes generating time series are a phenomenon occurring in many events and systems worth...
Economic Dynamical Systems can be studied in the frame of a new approach based on the definition of ...
This paper introduces a new formulation of dynamic systems that subsumes both the classical discret...
An algorithm for finding all the equilibrium points of a given non-linear dynamic model is proposed....
Often, researchers wish to analyze nonlinear dynamic discrete-time stochastic models. This paper pro...
Abstract. Time–delay systems are an important class of dynamical systems that provide a solid mathem...
This paper presents symbolic time series analysis (STSA) of multi-dimensional measurement data for p...
A contractive method for computing stationary solutions of intertemporal equilibrium models is provi...
The symbolic dynamics technique is well known for low-dimensional dynamical systems and chaotic maps...