Description: PropCode2 is a MATLAB implementation of the algorithm described in Chap-ter 3 of The Theory of Scintillation with Applications in Remote Sensing byCharles L. Rino, John Wiley & Sons IEEE Press, 2010. The algorithm simulates
electromagnetic (EM) wave propagation in a fully three-dimensional medium.Although PropCode2 is a direct extension of PropCode1, it is congured to ex-plore the statistical theory of scintillation. The statistical theory connes the structure congurations to realizations of statistically homogeneous processes, as described in book Chapter 3. Homogeneous processes admit position invari-
ant moments and a spectral density function (SDF). Turbulence is characterized by a power-law SDF.
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File list (Check if you may need any files):
AtmosphereScintillation\AtmosphericCorrectionCRPL.m
.......................\Cgnu.m
.......................\Cn2Cs.m
.......................\DisplayIntensitySDF.m
.......................\DisplayRFN.m
.......................\DisplayShkarofsky.m
.......................\DisplaySpatialCoherence.m
.......................\DisplayStrongScatter.m
.......................\natmCRPL.m
.......................\SDFstrong.m
.......................\Shkarofsky.m
.......................\ShkarofskyD.m
IonosphereScintillation\ABC.m
.......................\AC_SI.m
.......................\DisplaySI.m
.......................\EquatorialSI.m
.......................\FreqCoherence.m
.......................\gfac.m
.......................\hypergeometric2f1.m
.......................\PhaseStructConst.m
.......................\scintIndex.m
.......................\SetParameters.m
.......................\SummarizeParameters.m
.......................\TestABC.m
PdComputation\DisplayFadingPd_Swerling_Shnidman.m
.............\DisplayFractionalMoments.m
.............\DisplayKDistributionPDF.m
.............\DisplayLogNormalPDF.m
.............\DisplayNakagamiPDF.m
.............\DisplayPd_Richards.m
.............\findXsat.m
.............\KDistributionPDF.m
.............\LogNormalPDF.m
.............\MakeFigures_Ch5.m
.............\NakagamiPDF.m
.............\pCHI.m
.............\Pd12.m
.............\PdLogNormal.m
.............\PdNakagami.m
.............\PdNCG.m
.............\PdNCGG.m
.............\pNCG.m
.............\pNCG0.m
.............\pNCGG.m
.............\thresholdI.m
.ropCode2_Examples\LargeSlope\RunDisplayPropCode2Out.m
..................\..........\SetupPropCode2.m
..................\MakeChapter3Figures\MakeFig31.m
..................\...................\MakeFig32Fig33.m
..................\...................\MakeFig34.m
..................\...................\MakeFig35Fig36.m
..................\...................\MakeFigs37to10.m
..................\SetPath4PropCode2.m
..................\.mallSlope\MakeFig311.m
..................\..........\RunDisplayPropCode2Out.m
..................\..........\SetupPropCode2.m
..................\..........\Test_radial_SDF.m
..................\.trongFocusing\RunDisplayPropCode2Out2.m
..................\..............\SetupPropCode2.m
..................\..............MOV\RunDisplayPropCode2Out.m
..................\.................\SetupPropCode2.m
..................\TwoSlope\RunDisplayPropCode2Out.m
..................\........\SetupPropCode2.m
PropCode2_Readme.pdf
....agationCode2\DisplayPropCode2Out.m
................\PropCode2.m
................\radial_wavenumber_SDF.m
................\Read_setupFile2.m
................\root_rfnSDF2.m
................\turbsim2.m
utilities\alias.m
.........\bold_fig.m
.........\boxcar_avg.m
.........\colors.m
.........\computeSI.m
.........\dB10.m
.........\dB20.m
.........\ellipse.m
.........\findIpeaks.m
.........\findPeaks.m
.........\freqs1.m
.........\line12.m
.........\line21.m
.........\LinkZoom.m
.........\nicefftnum.m
.........\pickfile.m
.........\pointsIncluded.m
.........\polyrec.m
.........\polyRegion_add.m
.........\position2index.m
.........\showprogress.m
.........\specDen.m
.........\taylor.m
.........\turbsim2.m
license.txt