Apart from the smoother (npas) and TEnKF, I stole quite some of the code from these two projects:
They deserve most of the merits. I just made everything look way more complicated. Sometimes filterpy
was more efficient, sometimes pykalman
. Unfortunately the pykalman
project is orphaned. I tweaked something here and there:
- treating numerical errors in the UKF covariance matrix by looking for the nearest positive semi-definite matrix
- eliminating identical sigma points (yields speedup assuming that evaluation of each point is costly)
- extracting functions from classes and compile them using the @njit flag (speedup)
- major cleanup
NPAS is built from scratch. I barely did any testing as a standalone filter and just always used it in combination with the 'pydsge', where it works very well.
Some very rudimentary documentation can be found here.
Be sure that you are on Python 3.x. Then it's as simple as:
pip install econsieve
First install git
. Linux users just use their respective repos.
Windows users probably use anaconda and can do
conda install -c anaconda git
in the conda shell as they kindly tell us here. Otherwise you can probably get it here.
Then you can simply do
pip install git+https://github.com/gboehl/econsieve
If you run it and it complains about missing packages, please let me know so that I can update the setup.py!
Alternatively you can clone the repository and then from within the cloned folder run (Windows user from the Anaconda Prompt):
pip install .
The package is updated very frequently (find the history of latest commits here). I hence recommend pulling and reinstalling whenever something is not working right. Run:
pip install --upgrade econsieve
pydsge is developed by Gregor Boehl to simulate, filter, and estimate DSGE models with the zero lower bound on nominal interest rates in various applications (see [gregorboehl.com](https://gregorboehl.com) for research papers using the package). Please cite it with:
@TechReport{boehl2022meth,
author={Boehl, Gregor and Strobel, Felix},
title={{Estimation of DSGE Models with the Effective Lower Bound}},
year=2022,
type = {CRC 224 Discussion Papers},
institution={University of Bonn and University of Mannheim, Germany}
}
We appreciate citations for pydsge because it helps us to find out how people have been using the package and it motivates further work.