# Parabolic cylinder functions in matlab

The following Matlab project contains the source code and Matlab examples used for parabolic cylinder functions. Routines for computation of Weber's parabolic cylinder functions and their derivatives are provided for both moderate and great values of the argument. Standard, real solutions are considered. Tables of values are included. Documentation in pdf format is added.

# Parabolic sar in matlab

The following Matlab project contains the source code and Matlab examples used for parabolic sar. Uses technique described on the Parabolic SAR wikipedia page.

# Parabolic reflector radiation pattern in matlab

The following Matlab project contains the source code and Matlab examples used for parabolic reflector radiation pattern. This program accepts from the user the center frequency, focal length and diameter of the parabolic reflector antenna and plot the radiation pattern in both E-plane and H-plane.

# Calculate parabolic sar in matlab

The following Matlab project contains the source code and Matlab examples used for calculate parabolic sar. PARABOLICSAR - calculated parabolic SAR for specific hugh and low INPUT: high - high values vector low - low values vector AFstart - start value for Wilderes acceleration factor (typical 0.

# Welchwin welch (parabolic) window function in matlab

The following Matlab project contains the source code and Matlab examples used for welchwin welch (parabolic) window function.  WELCHWIN Welch (parabolic) window  Usage:    w = welchwin(n) returns the n-point parabolic window     n: scalar window length     w: column vector of window values    Example:    t = (0:9)';    s = rand(1,10)';    n = length(s);    w = welchwin(n);    s2 = s.

# Weber functions (parabolic cylinder functions) in matlab

The following Matlab project contains the source code and Matlab examples used for weber functions (parabolic cylinder functions). These functions calculates the even/odd Weber’s parabolic cylinder functions which are solutions of the Weber equation (parabolic cylinder equation):     d^2y/dz^2+(z^2/4-a)y=0 For more information about Weber functions:     Miguel A.

# Parabolic nondiffracting beams in matlab

The following Matlab project contains the source code and Matlab examples used for parabolic nondiffracting beams . This function calculates the parabolic nondiffracting beams (Weber nondiffracting beams) of the Helmholtz and paraxial wave equation.