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A python inplmentation of ITU-R P. Recommendations to compute atmospheric attenuation in slant and horizontal paths.

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ITURPropagPy

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A python implementation of the ITU-R P. Recommendations to compute atmospheric attenuation in slant and horizontal paths.

The propagation loss on an Earth-space path and a horizontal-path, relative to the free-space loss, is the sum of different contributions, namely: attenuation by atmospheric gases; attenuation by rain, other precipitation and clouds; scintillation and multipath effects; attenuation by sand and dust storms. Each of these contributions has its own characteristics as a function of frequency, geographic location and elevation angle. ITU-Rpy allows for fast, vectorial computation of the different contributions to the atmospheric attenuation.

Documentation

The documentation can be found at [https://github.com/mrazavian/ITURPropagPY/tree/master/Documents].

Examples of use cases can be found in the [https://github.com/mrazavian/ITURPropagPY/tree/master/Examples]

Installation

ITU-RPropagpy has the followind dependencies: numpy, scipy, joblib, pyproj, h5py, and astropy. Installation of basemap and matplotlib is recommended to display results in a map.

Using pip , you can install all of them by running:

::

pip install git+https://github.com/mrazavian/ITURPropagPY

More information about the installation process can be found on the [https://github.com/mrazavian/ITURPropagPY].

ITU-R Recommendations implemented

The following ITU-R Recommendations are implemented in ITURPropagPY

  • ITU-R P.453-13: The radio refractive index: its formula and refractivity data
  • ITU-R P.618-13: Propagation data and prediction methods required for the design of Earth-space telecommunication systems
  • ITU-R P.676-11: Attenuation by atmospheric gases
  • ITU-R P.835-6: Reference Standard Atmospheres
  • ITU-R P.836-6: Water vapour: surface density and total columnar content
  • ITU-R P.837-7: Characteristics of precipitation for propagation modelling
  • ITU-R P.838-3: Specific attenuation model for rain for use in prediction methods
  • ITU-R P.839-4: Rain height model for prediction methods.
  • ITU-R P.840-7: Attenuation due to clouds and fog
  • ITU-R P.1144-7: Interpolation methods for the geophysical properties used to compute propagation effects
  • ITU-R P.1511-2: Topography for Earth-to-space propagation modelling
  • ITU-R P.1853-2: Tropospheric attenuation time series synthesis

The individual models can be accessed using the iturpropag.models package.

Usage

The following code example shows the usage of ITURPropagPY. More examples can be found in the [https://github.com/mrazavian/ITURPropagPY/tree/master/Examples].

.. code:: python

import matplotlib.pyplot as plt
import iturpropag

f = 22.5 * iturpropag.u.GHz    # Link frequency
D = 1 * iturpropag.u.m         # Size of the receiver antenna
el = 60                  # Elevation angle constant of 60 degrees
p = 3                    # Percentage of time that attenuation values are exceeded.
tau = 45
eta = 0.6

# Generate a regular grid latitude and longitude points with 1 degrees resolution   
lat, lon = iturpropag.utils.regular_lat_lon_grid() 

# Comute the atmospheric attenuation
Att = iturpropag.atmospheric_attenuation_slant_path(lat, lon, f, el, p, D, tau, eta) 
iturpropag.utils.plot_in_map(Att.value, lat, lon, 
                       cbar_text='Atmospheric attenuation [dB]')
plt.show()

which produces:

alt "atmospheric attenuation"

Citation

If you use ITURPropagPY in one of your research projects, please cite it as:

::

@misc{iturpropagpy-2019,
      title={ITURPropagPY: A python implementation of the ITU-R P. Recommendations to compute atmospheric attenuation in slant and horizontal paths.},
      author={Inigo del Portillo, Mojtaba Razavian, Thomas A. Prechtl},
      year={2019},
      publisher={GitHub},
      howpublished={\url{https://github.com/mrazavian/ITURPropagPY}}
}

Keywords: atmopheric-propagation attenuation communications Platform: UNKNOWN Classifier: Development Status :: 3 - Alpha Classifier: Intended Audience :: Telecommunications Industry Classifier: Topic :: Scientific/Engineering :: Physics Classifier: License :: OSI Approved :: ESA-PL – v2.3 Classifier: Programming Language :: Python :: 2 Classifier: Programming Language :: Python :: 2.7 Classifier: Programming Language :: Python :: 3 Classifier: Programming Language :: Python :: 3.4 Classifier: Programming Language :: Python :: 3.5 Classifier: Programming Language :: Python :: 3.6 Classifier: Programming Language :: Python :: 3.7

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