Metadata-Version: 2.1
Name: arrayfactor
Version: 1.0.2
Summary: Array Factor Calculator
Home-page: UNKNOWN
Author: Merve Tascioglu
Author-email: <merve.tascioglu@barkhauseninstitut.org>
License: UNKNOWN
Keywords: python,antenna array,array factor
Platform: UNKNOWN
Classifier: Development Status :: 1 - Planning
Classifier: Intended Audience :: Developers
Classifier: Programming Language :: Python :: 3
Classifier: Operating System :: Microsoft :: Windows
Description-Content-Type: text/markdown

# Array Factor Calculator & AF Pattern Plot

##   Installation
```pip install arrayfactor```


##  Modules

The **arrayfactor** library enables to calculate the normalized array factor values
in the range of -180 to 180 degree with respect to the array factor input
variables which are: Inter-element spacing,frequency,steering angle,
number of array elements,plane.

The six main modules of the package are: 

* ```af.af_asym_phasescannig``` : To get Array Factor of Uniform or Asymmetrically Spaced Arrays with Phase Shifting Technique
* ```af.af_asym_timescannig```  : To get Array Factor of Uniform or Asymmetrically Spaced Arrays with True Time Delay Technique
* ```af.af_symmetrical_phasescannig``` : To get Array Factor of Symmetrically Spaced Arrays with Phase Shifting Technique
* ```af.af_symmetrical_timescannig```  : To get Array Factor of Symmetrically Spaced Arrays with True Time Delay Technique
* ```af.cartesian_plot``` : To get Array Factor Pattern on 2D Cartesian plot
* ```af.polar_plot``` : To get Array Factor Pattern on 2D Polar plot


##  Description of Input Variables

*  af.af_asym_phasescannig(```bx```,``` by```, ```bz```, ```f```, ```f0```, ```steering_angle```, ```Nx```, ```Ny```, ```Nz```, ```increase_rate```, ```plane```)
*  af.af_asym_timescannig(```bx```,``` by```, ```bz```, ```f```, ```f0```, ```steering_angle```, ```Nx```, ```Ny```, ```Nz```, ```increase_rate```, ```plane```)
*  af.af_symmetrical_phasescannig(```bx```,``` by```, ```bz```, ```f```, ```f0```, ```steering_angle```, ```Nx```, ```Ny```, ```Nz```, ```increase_rate```, ```plane```)
*  af.af_symmetrical_timescannig(```bx```,``` by```, ```bz```, ```f```, ```f0```, ```steering_angle```, ```Nx```, ```Ny```, ```Nz```, ```increase_rate```, ```plane```)
*  af.cartesian_plot(```x_axis```, ```y_axis```)
*  af.polar_plot(```x_axis```, ```y_axis```)


* ```bx``` : The coefficient represents the association of distance between elements along x axis and wavelength (dx=bx*Î»)
* ```by``` : The coefficient represents the association of distance between elements along y axis and wavelength (dy=by*Î»)
* ```bz``` : The coefficient represents the association of distance between elements along z axis and wavelength (dz=bz*Î»)
* ```f```  : Frequency of the signal sent.
* ```f0``` : Center Frequency.
* ```steering_angle``` : It is desired beam steering angle. It must be written in degree.
* ```Nx``` : Total number of elements along x axis
* ```Ny``` : Total number of elements along y axis
* ```Nz``` : Total number of elements along z axis
* ```increase_rate``` : This is the amount of change of distance between two successive elements in the case of NON-UNIFORM ASYMMETRICAL OR NON-UNIFORM SYMMETRICAL spacing.\

**Note:** For uniform array, ```af.af_asym_phasescannig``` or ```af_asym_timescannig``` must be used and ```increase rate``` must be set as 0.

For the further information about it, please refer to the link: https://github.com/Barkhausen-Institut/AntennaArraySimulator/blob/master/ArrayFactorUserInterface/Theory%20of%20Array%20Factor.pdf
* ```plane``` : It decides if the results are obtained on E or H plane. 'E' or 'H' must be written.

* ``` x_axis``` : Values of x axis of the plot.
* ``` y_axis``` : Values of y axis of the plot.

##  Outputs of Modules

Output of aforementioned functions (modules) is consisting of two Numpy arrays:\
1-First element (array) contains the values of incident angle as range from -180 to +180 degree.\
2-Second element (array) contains the values of normalized array factor.


##  Examples of Usage

**Example 1:** Get the normalized array factor values of 16 elements broadside uniform linear array along x- axis (spacing based on half wavelength) at 10 GHz on E plane.

```
from arrayfactor import af
result=af.af_asym_phasescannig(0.5,0,0,10e9,10e9,0,16,1,1,0,'E')

#To get Cartesian Plot:
af.cartesian_plot(result[0], result[1])

#To get Polar Plot:
af.polar_plot(result[0], result[1])

```

**Example 2:** Get the normalized array factor values of 8 elements symmetric linear array with the increase rate=0.1 along x- axis (spacing based on half wavelength) at 10 GHz on E plane and with 30Â° beam steering angle (by TTD technique).
```
from arrayfactor import af
result=af.af_symmetrical_timescannig(0.5,0,0,10e9,10e9,0,16,1,1,0.1,'E')

#To get the Cartesian Plot:
af.cartesian_plot(result[0], result[1])

#To get Polar Plot:
af.polar_plot(result[0], result[1])
```




