error in symbolic convolution using integral and isAlways

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Muna Tageldin on 6 Sep 2024

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Commented: Torsten on 9 Sep 2024

Accepted Answer: Walter Roberson

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I want to symbolically integrate the following function using int

This is actually similar to convoution

so this is what I did

syms z alpha lam_f u_f sigma ep 
nCk = @(n,kVec,z)arrayfun(@(k)lam_f*exp(-lam_f*alpha).*(nchoosek(n,k)*(1*ep).^(k).*((1-ep)*normcdf(z,u_f,sigma)).^(n-(k)).*(normcdf(alpha-u_f-z,sigma))^k),kVec);
%expo 
%tf = isAlways(lam_f > 0 & u_f > 0  & sigma > 0)
F(z,u_f,lam_f,ep)=int(sum(nCk(n,0:n,z)),alpha,0, z,'IgnoreAnalyticConstraints',true);

However, I get the following error

Unable to prove 'z < u_f & sigma == 0' literally. Use 'isAlways' to test the statement mathematically.

I tried also using isAlways

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Muna Tageldin on 8 Sep 2024

This is the random variable I'm trying to integrate where

is the rest of summation part as in above

Muna Tageldin on 8 Sep 2024

Do you know if I can numerically solve this CDF because I need to find the mean/average as well

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Walter Roberson on 6 Sep 2024

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normpdf() is not designed to accept symbolic inputs.

You will need to re-implement normpdf without the line

p(sigma==0 & x<mu) = 0;

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Muna Tageldin on 9 Sep 2024

Edited: Torsten on 9 Sep 2024

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n=3;

syms z positive

syms alpha positive

syms lam_f positive

syms u_f positive

syms sigma positive

syms ep positive

syms z positive

nCk = @(n,kVec,z)arrayfun(@(k)lam_f*exp(-lam_f*alpha).*(nchoosek(n,k)*(1*ep).^(k).*((1-ep)*(0.5+0.5*erf((z-u_f)/(sqrt(2)*sigma)))).^(n-(k)).*(0.5+0.5*erf((z-alpha-u_f)/(sqrt(2)*sigma)))^k),kVec);

F(z,u_f,lam_f,sigma,ep)=int(nCk(n,0:n,z),alpha,0, z)

F(z, u_f, lam_f, sigma, ep) =

Torsten on 9 Sep 2024

If you look at what comes out for F(z,u_f,lam_f,sigma,ep), you'll see that the erf integrals are still left.

No chance for an analytical antiderivative, I guess.

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Steven Lord on 6 Sep 2024

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Are you trying to tell MATLAB that % lam_f > 0 & u_f > 0 & sigma > 0 or are you trying to ask MATLAB if those three conditions are satisfied? Using isAlways asks that question. To tell MATLAB use assume and assumeAlso or tell MATLAB when it creates those symbolic variable that they're all positive, passing the positive option to syms or sym: syms x positive.

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Muna Tageldin on 6 Sep 2024

Edited: Walter Roberson on 8 Sep 2024

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n=2;
syms z positive 
syms alpha positive 
syms lam_f positive 
syms u_f positive 
syms sigma positive
syms ep positive
syms z positive
%assume(z < u_f )
assume (ep <1 & ep>0)
assumeAlso(sigma > 0)
%assume(x/2,"integer")
nCk = @(n,kVec,z)arrayfun(@(k)lam_f*exp(-lam_f*alpha).*(nchoosek(n,k)*(1*ep).^(k).*((1-ep)*normcdf(z,u_f,sigma)).^(n-(k)).*(normcdf(alpha-u_f-z,sigma))^k),kVec); 

Error using symengine

Unable to prove 'z < u_f & sigma == 0' literally. Use 'isAlways' to test the statement mathematically.

Muna Tageldin on 6 Sep 2024

Edited: Walter Roberson on 8 Sep 2024

Open in MATLAB Online

The error I got :

Error using symengine

Unable to prove 'z < u_f & sigma == 0' literally. Use 'isAlways' to test the statement mathematically.

Error in sym/subsindex (line 849)

X = find(mupadmex('symobj::logical',A.s,9)) - 1;

Error in sym/privsubsasgn (line 1124)

L_tilde2 = builtin('subsasgn',L_tilde,struct('type','()','subs',{varargin}),R_tilde);

Error in sym/subsasgn (line 961)

C = privsubsasgn(L,R,inds{:});

Error in normcdf>localnormcdf (line 109)

p(sigma==0 & x<mu) = 0;

Error in normcdf (line 50)

[varargout{1:max(1,nargout)}] = localnormcdf(uflag,x,varargin{:});

Error in testing_convolution (line 75)

nCk =

@(n,kVec,z)arrayfun(@(k)lam_f*exp(-lam_f*alpha).*(nchoosek(n,k)*(1*ep).^(k).*((1-ep)*normcdf(z,u_f,sigma)).^(n-(k)).*(normcdf(alpha-u_f-z,sigma))^k),kVec);

Error in testing_convolution (line 75)

nCk =

@(n,kVec,z)arrayfun(@(k)lam_f*exp(-lam_f*alpha).*(nchoosek(n,k)*(1*ep).^(k).*((1-ep)*normcdf(z,u_f,sigma)).^(n-(k)).*(normcdf(alpha-u_f-z,sigma))^k),kVec);

Error in testing_convolution (line 81)

F(z,u_f,lam_f,ep)=int(sum(nCk(n,0:n,z)),alpha,0, z);%'IgnoreAnalyticConstraints');

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