Python 3 module for the MASER portal
Project description
About maser4py
maser4py python package contains modules to deal with services, data and tools provided in the framework of the MASER portal (http://maser.lesia.obspm.fr).
maser4py use manual is available in https://maser.readthedocs.io/en/latest/.
Installation
Prerequisites
Python 3.4, 3.5 or 3.6 must be available.
The maser4py also requires the NASA CDF software to be run (visit http://cdf.gsfc.nasa.gov/ for more details). Especially the CDFLeapSeconds.txt file should be on the local disk and reachable from the $CDF_LEAPSECONDSTABLE env. variable. If it is not the case, maser4py offers tools to read and/or download this file from the NASA Web site (see user manual for more details).
Using pip
From a terminal, enter:
pip install maser4py
Using source
From a terminal, enter:
git clone https://github.com/maserlib/maser4py
Then, from the maser4py directory, enter:
pip install -r requirements.txt
Then,
python3 setup.py install
Usage
From Python, enter “import maser”. The module also offers specific command line interfaces.
For more details, see the maser4py user manual.
Content
The maser4py directory contains the following items:
doc/ stores the maser4py documentation (source and build) maser/ stores the maser4py source files scripts/ store scripts to run/test/manage maser4py __main__.py python script to run maser.main program CHANGELOG.rst software change history log MANIFEST.in files to be included to the package installation (used by tup.py) README.rst current file requirements.txt list of python package dependencies and versions setup.cfg file used by sphinx to build the maser4py doc. setup.py maser4py package setup file
About MASER project
The MASER (Measuring, Analyzing & Simulating Emissions in the Radio range) portal is offering access to a series of tools and databases linked to low frequency radioastronomy (a few kilohertz to a few tens of megahertz). Radio measurements in this spectral range are done with ground based observatories (for frequencies above the terrestrial ionosphere cutoff at 10 MHz) or from space based platforms (at low frequencies).
In this frequency range, the main radio sources are the Sun and the magnetized planets. Measurements of the low frequency electric and magnetic field fluctuations can also provide local plasma diagnostics and in-situ observations of plasma waves phenomena in the Solar Wind or in planetary environments.
For more information about the MASER project: http://maser.lesia.obspm.fr/
For more information about MASER4PY: https://github.com/maserlib/maser4py
Acknowledgements
The development of the MASER library is supported by Observatoire de Paris, CNRS (Centre National de la Recherche Scientique) and CNES (Centre National d’Etudes Spatiales). The technical support from PADC (Paris Astronomical Data Centre) and CDPP (Centre de Données de la Physique des Plasmas) is also acknowledged.
The project has also received support from the European Union through: * HELIO (Heliophysics Integrated Observatory), which received funding from Capacities Specific Programme of the European Commission’s Seventh Framework Programme (FP7) under grant agreement No 238969; * EPN2020RI (Europlanet 2020 Research Infrastructure project), which received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 654208.
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