MultI-DomAin test Scenario for smart grid co-simulation.
Project description
MIDAS
The MultI-DomAin test Scenario (MIDAS) is a collection of mosaik simulators (https://gitlab.com/mosaik) for smart grid co-simulation and contains a semi-automatic scenario configuration tool. The latest documentation is always available at https://midas-mosaik.gitlab.io/midas.
Version: 1.2
Requirements
All required Python packages will be pulled during installation. However, there are some additional requirements which you have to setup up manually.
First of all, you need a working Python installation >= 3.8. Download it from (https://www.python.org/) or use your systems' package manager. Furthermore, you will need to have a working Git installation, which you can find on https://git-scm.com/downloads (or via your package manager).
Midas is able to create an analysis report of the simulation results. If you have a working pandoc (https://pandoc.org/) installation, this report will automatically be converted to an .odt file. This is purely optional.
Installation
MIDAS is available on https://pypi.org and can be installed, preferably into a virtualenv, with
pip install midas-mosaik
Alternatively, to install directly from the source, you can clone this repository with
git clone https://gitlab.com/midas-mosaik/midas.git
then switch to the midas folder and type
pip install .
for a normal install and
pip install -e .
for an editable install, i.e., changes you make in the source do not require a reinstall.
See the documation at https://midas-mosaik.gitlab.io/midas/installation.html for OS-specific installation instructions.
Usage
MIDAS comes with a command line tool called midasctl
that let's you conveniently start your scenario and/or add minor modifications to it (e.g. change the number of simulations steps, write to a different database, etc.).
midasctl
also helps doing the initial setup of MIDAS.
Just type
midasctl configure
and you will be asked to specify where the runtime configuration of MIDAS should be stored and where you want the datasets to be located. You can of course let MIDAS decide this for you, just append -a
to the command:
midasctl configure -a
Afterwards, you need to download the datasets that MIDAS will use. Type
midasctl download
and wait a moment until MIDAS is done. Finally, you can test your installation with
midasctl run demo
This will run a demonstration scenario and should not take very long.
Pro tip: If you just run the last command, configuration and download will be performed implicitly.
Data Sets and License
The datasets are pulled from different locations.
The default load profiles are publicly available at https://www.bdew.de/energie/standardlastprofile-strom/
The commercial data set is retrieved from https://data.openei.org/submissions/153 and is released under the Creative Commons License: https://creativecommons.org/licenses/by/4.0/ The energy values are converted from Kilowatt to Megawatt and are slightly rearranged to be usable with MIDAS.
The simbench datasets are directly extracted from the simbench pypi package.
The smart nord dataset comes from the research project Smart Nord (www.smartnord.de).
The Weather datasets are publicly available at https://opendata.dwd.de/ (see the Copyright information: https://www.dwd.de/EN/service/copyright/copyright_node.html) Since sometimes values are missing, those values are filled with previous orsimilar values.
MIDAS as Docker
There is a Docker file that can be used to run the MIDAS command line tool. And there is an install script for those working on LINUX, simply run:
./build_docker.sh
Afterwards, execute
docker run \
-v PATH_TO_MIDAS_DATA:/home/user/.config/midas/midas_data \
-v PATH_TO_OUTPUT_DIR:/app/_outputs \
midas run midasmv
to run the midasmv scenario in the docker.
Replace PATH_TO_MIDAS_DATA
with the absolute path to your MIDAS data directory (usually located at ~/.config/midas/midas_data).
Replace PATH_TO_OUTPUT_DIR
with the location where the outputs should be stored.
If you create a runtime config in the same directory as the Dockerfile before run the build command, this file will be included. However, you should not change the output_path and the data_path, otherwise you will have to adapt the run command as well.
Citation
If you want to use Midas in your research, you can cite this publication:
@InProceedings{10.1007/978-3-031-43824-0_10,
author="Balduin, Stephan
and Veith, Eric M. S. P.
and Lehnhoff, Sebastian",
editor="Wagner, Gerd
and Werner, Frank
and De Rango, Floriano",
title="Midas: An Open-Source Framework for Simulation-Based Analysis of Energy Systems",
booktitle="Simulation and Modeling Methodologies, Technologies and Applications",
year="2023",
publisher="Springer International Publishing",
address="Cham",
pages="177--194",
isbn="978-3-031-43824-0"
}
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distribution
Hashes for midas_mosaik-2.0.0a5-py3-none-any.whl
Algorithm | Hash digest | |
---|---|---|
SHA256 | 56d6ed126294de1cf3e8f69e908c8708ff6c72fb1dd62b9b3467e8f7b87550ec |
|
MD5 | dd45a4cebb01189cd316bb1ef4665077 |
|
BLAKE2b-256 | d4baeb9f34e8fbf9bf2b16289e8423e3ad83be489fa7d5f18f9c25b1c5662db2 |