can anyone check this code?

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Atrolita afra il 2 Apr 2020

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Commentato: Ameer Hamza il 2 Apr 2020

function l=LCR_CF(k,c,sigma)
%% pdf of process of various values of system parameters
for x=0:.0625:10
    temp=0;
    LCR=0;
    
    ro=(x.^2/sigma);
    ro=20*log10(ro);
    for p=0:10
        for n=0:p+1
            
            
            %    closed term expansion
            b=nchoosek(p+(1/2),n);
            
            % gamma term calculation
            f=factorial(p);
            g=(gamma(p+1))*(gamma(c));
            g_ma=((ro.^(p+0.5))*(k.^c)*(2*sqrt(2*pi)))/(g*f);
            
            % bessel function term calculation
            z=2*sqrt(k*(1+ro));
            K = besselk(p-n+c,z);
            
            % Exponential term calculation
            exponential=exp(-ro);
            % Last term
            q=(p-n+c)/2;
            last_term=((k/(1+ro)).^q);
            
            % Final pdf function
            
            temp1= b*g_ma*K*exponential*last_term;
            temp=temp+temp1;
        end
        LCR=LCR+temp;
    end
    
    l(1,x/(.0625)+1)=LCR;
end

THIS IS THE FUNCTION I AM TRYING TO PLOT BUT I AM GATTING AN ERROR ,""Undefined function 'LCR_CF' for input arguments of type 'double'.""

HOW CAN I SOLVE THIS?

I HAVE CALLED THIS FUNCTION BY THE FOLLOWING CODE:

clc
clear all
close all
syms x ;
%% For different values of k and c. Change the value of k and c according to figure.
sig=1;
y1=LCR_CF(0.2,1.5,sig); % Put the values of k,c,sig accordingly
y2=LCR_CF(0.5,1.5,sig);
y3=LCR_CF(1,1.5,sig);
y4=LCR_CF(1.5,1.5,sig);
y5=LCR_CF(.2,2,sig);
y6=LCR_CF(.5,2,sig);
y7=LCR_CF(1,2,sig);
y8=LCR_CF(1.5,2,sig);
%% Ploting data
x=0:0.0625:10;
figure
% plot(y1,x,'b',y2,x,'b',y3,x,'b',y4,x,'b',y5,x,'g--',...
%     y6,x,'g--',y7,x,'g--',y8,x,'g--');
plot(x,y1,'b',x,y2,'b',x,y3,'b',x,y4,'b',x,y5,'g--',...
    x,y6,'g--',x,y7,'g--',x,y8,'g--');
xlim([0 10]);
ylim([0 1]);
title('Normalized LCR');
xlabel('x');
ylabel('N(x)');
txt = {'Sigma=1','C=1.5, Solid Line', 'C=2, Dotted Line'};
text(6,6,txt);
txt = {'k=1.5'};
text(1,6,txt);

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Atrolita afra il 2 Apr 2020

instead of infinity i was trying with 10

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Answer 1

Ameer Hamza il 2 Apr 2020

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Apri in MATLAB Online

I have corrected the syntax issue in your code. The MATLAB function nchoosek does not work for fractional numbers. However, Now it gives infinity at 0 and also gives complex values. I am not sure whether this is correct or wrong.

function l=LCR_CF(k,c,sigma)
%% pdf of process of various values of system parameters
nck = @(n, k) gamma(n+1)./(gamma(k+1).*gamma(n-k+1));
X = 0:.0625:10;
l = zeros(size(X));
for i=1:numel(X)
    x = X(i);
    temp=0;
    LCR=0;
    
    ro=(x.^2/sigma);
    ro=20*log10(ro);
    for p=0:10
        for n=0:p+1
            %    closed term expansion
            b=nck(p+(1/2),n);
            
            % gamma term calculation
            f=factorial(p);
            g=(gamma(p+1))*(gamma(c));
            g_ma=((ro.^(p+0.5))*(k.^c)*(2*sqrt(2*pi)))/(g*f);
            
            % bessel function term calculation
            z=2*sqrt(k*(1+ro));
            K = besselk(p-n+c,z);
            
            % Exponential term calculation
            exponential=exp(-ro);
            % Last term
            q=(p-n+c)/2;
            last_term=((k/(1+ro)).^q);
            
            % Final pdf function
            
            temp1= b*g_ma*K*exponential*last_term;
            temp=temp+temp1;
        end
        LCR=LCR+temp;
    end
    
    l(i)=LCR;
end