I outline a new method for finding third-order accurate solutions to dynamic general equilibrium models. I extend the Gomme & Klein (2011) solution for second-order approximations without using tensors, to a third-order. In particular I derive a third-order matrix chain rule and use this to solve the third-order approximation. My solution method is easier to understand and code-up, and faster to implement in Matlab. I provide Matlab code and demonstrate my solution method with a simple RBC model. The resulting code is up to 80 times faster than Matlab code using tensor notation.publishedVersio
Higher-order tensors have become a powerful tool in many areas of applied mathematics such as statis...
Linear Methods are often used to compute approximate solutions to dynamic models, as these models of...
Linear Methods are often used to compute approximate solutions to dynamic models, as these models of...
I outline a new method for finding third-order accurate solutions to dynamic general equilibrium mod...
Several approaches to finding the second-order approximation to a dynamic model have been proposed r...
This paper describes a simple method for the calculation of second-order solutions to dynamic genera...
In this paper I derive the matrix chain rules for solving a second and a third-order approximation t...
The modelling of nonlinear and multidimensional systems from input and/or output measurements is co...
Also available via the InternetSIGLEAvailable from British Library Document Supply Centre-DSC:3597.9...
SIGLEAvailable from British Library Document Supply Centre-DSC:3597.9512(no 2963) / BLDSC - British ...
This paper focuses on one way a linearized representation of a nonlinear economic model can be used ...
Tensor representations allow compact storage and efficient manipulation of multi-dimensional data. B...
We consider a new idea for model reduction of second order dynamical systems. It is based on a new t...
It is now widely understood how to obtain first-order accurate approximations to the solution to a d...
We consider a new idea for model reduction of second order dynamical systems. It is based on a new t...
Higher-order tensors have become a powerful tool in many areas of applied mathematics such as statis...
Linear Methods are often used to compute approximate solutions to dynamic models, as these models of...
Linear Methods are often used to compute approximate solutions to dynamic models, as these models of...
I outline a new method for finding third-order accurate solutions to dynamic general equilibrium mod...
Several approaches to finding the second-order approximation to a dynamic model have been proposed r...
This paper describes a simple method for the calculation of second-order solutions to dynamic genera...
In this paper I derive the matrix chain rules for solving a second and a third-order approximation t...
The modelling of nonlinear and multidimensional systems from input and/or output measurements is co...
Also available via the InternetSIGLEAvailable from British Library Document Supply Centre-DSC:3597.9...
SIGLEAvailable from British Library Document Supply Centre-DSC:3597.9512(no 2963) / BLDSC - British ...
This paper focuses on one way a linearized representation of a nonlinear economic model can be used ...
Tensor representations allow compact storage and efficient manipulation of multi-dimensional data. B...
We consider a new idea for model reduction of second order dynamical systems. It is based on a new t...
It is now widely understood how to obtain first-order accurate approximations to the solution to a d...
We consider a new idea for model reduction of second order dynamical systems. It is based on a new t...
Higher-order tensors have become a powerful tool in many areas of applied mathematics such as statis...
Linear Methods are often used to compute approximate solutions to dynamic models, as these models of...
Linear Methods are often used to compute approximate solutions to dynamic models, as these models of...