Bivariate nakagami m distribution

조회 수: 1 (최근 30일)
GSM
GSM 2015년 10월 30일
Hello, I am trying to use Bivariate Nakagami-m distribution for calculating E{Perr}... To check myself I've tried to Integrate only the Bivariate Nakagami pdf using integral2 over [-inf,inf] range. Of course I expect to get - 1. Before using the Nakagami pdf I've tried with Normal distribution and have used the following code:
xmu = 0; ymu = 0; xvar = 1; yvar = 1; rho = 0.5; xsd = sqrt(xvar); ysd = sqrt(yvar); covxy = rho*xsd*ysd; C = [xvar covxy; covxy yvar]; A = inv(C); dist2D = @(X,Y) 1./(2.*pi.*sqrt(det(C))) .* exp(-0.5 .* (A(1,1).*(X-xmu).^2 + 2.*A (1,2).*(X-xmu).*(Y-ymu) + A(2,2).*(Y-ymu).^2));
q = integral2(dist2D,-inf,inf,-inf,inf,'RelTol',0,'AbsTol',1e-12)
The result is as expected: q=1
When trying to perform same thing over Bivariate Nakagami-m distribution, but in the following range [0,inf,0,inf] - I get the following message: Warning: Minimum step size reached near x = 3.38583e+21. There may be a singularity, or the tolerances may be too tight for this problem. > In integralCalc/checkSpacing (line 456) In integralCalc/iterateScalarValued (line 319) In integralCalc/vadapt (line 132) In integralCalc (line 83) In integral2Calc>@(xi,y1i,y2i)integralCalc(@(y)fun(xi*ones(size(y)),y),y1i,y2i,opstruct.integralOptions) (line 17) In integral2Calc>@(x)arrayfun(@(xi,y1i,y2i)integralCalc(@(y)fun(xi*ones(size(y)),y),y1i,y2i,opstruct.integralOptions),x,ymin(x),ymax(x)) (line 17) In integralCalc/iterateScalarValued (line 314) In integralCalc/vadapt (line 132) In integralCalc (line 83) In integral2Calc>integral2i (line 20) In integral2Calc (line 7) In integral2 (line 106) In plotNakagami2D (line 9) Warning: The integration was unsuccessful.
I am using the following code: m=0.5; r=0.5; k=(2*m^m)/(gamma(m)*(sqrt(r))^(m-1)); a=(2*m)/(1-r); dist2D = @(h1,h2) k*a.*((h1/sqrt(mean(h1.^2))).*(h2/sqrt(mean(h2.^2)))).^m .* exp((-a/2).*((h1/sqrt(mean(h1.^2))).^2+(h2/sqrt(mean(h2.^2))).^2)) .* besseli(m-1,a.*sqrt(r).*(h1/sqrt(mean(h1.^2))).*(h2/sqrt(mean(h2.^2)))); q = integral2(dist2D,-0,inf,-0,inf)
The Bivariate Nakagami-m distribution used is taken from eq.(64) in the following paper: "On the Bivariate Nakagami-m Cumulative Distribution Function: Closed-Form Expression and Applications", by Lopez-Martinez, F. J., Morales-Jimenez D., Martos-Naya E., & Paris J. F.
Can please someone help me to perform the integration?
Thanks!

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