Problem with definite Integral

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AVM 2020년 6월 2일

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https://kr.mathworks.com/matlabcentral/answers/540251-problem-with-definite-integral

댓글: AVM 2020년 6월 7일

I am trying to solve the following definite double integration numerically. The expressions contain summaitions also but that is being executed within few seconds. When the double integration section comes, it is taking extremy huge time even after 7 hours it is still going on without any output. Any advice will be highly appreciated.

clc;
syms  n r theta m p  l t
w=1.0;
d=1.0;
g=0.2;
lmd=0.5;
assume(r,'real');
assume(theta,'real');
assume(t, 'real');
om=sqrt(((w).^2)-(4.*(g.^2)));
mu=sqrt((w+om)./(2.*om));
nu=((w-om)./(2.*g)).*mu;
eta=(((lmd)./((2.*g)+w)).*(1+((w-om)./(2.*g)))).*mu;
En=((n+(1./2)).*om)-(w./2)-(((lmd).^2)/((2.*g)+w));
um=((m+(1./2)).*om)-(w./2)-(((lmd).^2)/((2.*g)+w));
Enn=((n-(1./2)).*om)-(w./2)-(((lmd).^2)/((2.*g)+w));
umm=((m-(1./2)).*om)-(w./2)-(((lmd).^2)/((2.*g)+w));
Dn=(d./2).*(exp(-2.*((eta).^(2)))).*(laguerreL(n,(4.*((eta).^2))));     
Dm=(d./2).*(exp(-2.*((eta).^(2)))).*(laguerreL(m,(4.*((eta).^2))));  
Dnn=(d./2).*(exp(-2.*((eta).^(2)))).*(laguerreL((n-1),(4.*(eta.^2)))); 
Dmm=(d./2).*(exp(-2.*((eta).^(2)))).*(laguerreL((m-1),(4.*(eta.^2)))); 
Em=En - Dn;
Um=um-Dm;
Ep=Enn + Dnn;
Up=umm +Dmm;
epsn=(Ep-Em)./2; 
epsm=(Up-Um)./2;
Deln=(eta.*d./sqrt(n)).*exp(-2.*(eta.^2)).*laguerreL((n-1),1,(4.*(eta.^2)));
Delm=(eta.*d./sqrt(m)).*exp(-2.*(eta.^2)).*laguerreL((m-1),1,(4.*(eta.^2)));
xn=sqrt(((epsn).^2)+((Deln).^(2))); 
xm=sqrt(((epsm).^2)+((Delm).^(2))); 
zetapn=sqrt(((xn)+(epsn))./(2.*xn));
zetamn=sqrt(((xn)-(epsn))./(2.*xn));
zetapm=sqrt(((xm)+(epsm))./(2.*xm));
zetamm=sqrt(((xm)-(epsm))./(2.*xm));
z= 1i.*(mu-nu).*eta./(sqrt(2.*mu.*nu));
a1n=(zetapn./sqrt(factorial(n-1))).*((-nu./(2.*mu)).^(-1./2)).*hermiteH(n-1, z);
b1n=(Deln./abs(Deln)).*(zetamn./sqrt(factorial(n))).*hermiteH(n, z);
a2n=(zetamn./sqrt(factorial(n-1))).*((-nu./(2.*mu)).^(-1./2))*hermiteH(n-1, z);
b2n= (Deln./abs(Deln)).*(zetapn./sqrt(factorial(n))).*hermiteH(n, z);
a1m=(zetapm./sqrt(factorial(m-1))).*((-nu./(2.*mu)).^(-1./2)).*hermiteH(m-1, z);
b1m=(Delm./abs(Delm)).*(zetamm./sqrt(factorial(m))).*hermiteH(m, z);
a2m=(zetamm./sqrt(factorial(m-1))).*((-nu./(2.*mu)).^(-1./2))*hermiteH(m-1, z);
b2m= (Delm./abs(Delm)).*(zetapm./sqrt(factorial(m))).*hermiteH(m, z);
c0= -(1./sqrt(2.*mu)).*exp(-((eta.^2)./2)+ ((nu.*(eta).^2)./(2.*mu)));
cpn= -c0.*((-nu./(2.*mu)).^(n./2)).*(a1n - b1n);
cmn= -c0.*((-nu./(2.*mu)).^(n./2)).*(a2n + b2n);
cpm= -c0.*((-nu./(2.*mu)).^(m./2)).*(a1m - b1m);
cmm= -c0.*((-nu./(2.*mu)).^(m./2)).*(a2m + b2m);
E0=(om./2)-(w./2)-(((lmd).^2)./((2.*g)+w));
eg= E0-((d./2).*(exp(-2.*((eta).^(2)))));
ep=(1./2).*(Ep+ Em + (sqrt(((Ep-Em).^2)+(4.*((Deln).^2)))));
em=(1./2).*(Ep+ Em - (sqrt(((Ep-Em).^2)+(4.*((Deln).^2)))));
upp= (1./2).*(Up+ Um + (sqrt(((Up-Um).^2)+(4.*((Delm).^2)))));
umm= (1./2).*(Up+ Um - (sqrt(((Up-Um).^2)+(4.*((Delm).^2)))));
c0t= c0.*exp(-1i.*eg.*t);
cpnt= cpn.*exp(-1i.*ep.*t);
cmnt= cmn.*exp(-1i.*em.*t);
cpmt= cpm.*exp(-1i.*upp.*t);
cmmt= cmm.*exp(-1i.*umm.*t);
Ant=zetapn.*cpnt + zetamn.*cmnt;
Bnt= (Deln./abs(Deln)).*(zetamn.*cptn - zetapn.*cmnt);
Amt= zetapm.*cpmt + zetamm.*cmmt;
Bmt= (Delm./abs(Delm)).*(zetamm.*cpmt - zetapm.*cmmt);
beta= r.*exp(1i.*theta);
guard_digits = 10;
sp11= ((1i.^p)./factorial(p)).*((nu./(2.*mu)).^(p./2)).*hermiteH(p, 1i.*beta./sqrt(2.*mu.*nu)).*(eta.^(p+m)).*hypergeom([-p -m],[], -1./(eta.^2));
Hp11= ((exp(-((eta.^2)./2)-(((abs(beta)).^2)./2)-((beta.^2).*(nu)./(2.*mu))))./sqrt(mu.*factorial(m))).*sum(vpa(subs(sp11,p,1:20), guard_digits));
sp22= (((-1i).^l)./factorial(l)).*((nu./(2.*mu)).^(l./2)).*hermiteH(l, -1i.*conj(beta)./sqrt(2.*mu.*nu)).*(eta.^(l+n)).*hypergeom([-l -n],[], -1./(eta.^2));
Hp22= ((exp(-((eta.^2)./2)-(((abs(beta)).^2)./2)-(((conj(beta)).^2).*(nu)./(2.*mu))))./sqrt(mu.*factorial(n))).*sum(vpa(subs(sp22,l,1:20), guard_digits));
sm11= ((1i.^p)./factorial(p)).*((nu./(2.*mu)).^(p./2)).*hermiteH(p, 1i.*beta./sqrt(2.*mu.*nu)).*(-eta.^(p+m)).*hypergeom([-p -m],[], -1./(eta.^2));
Hm11= ((exp(-((eta.^2)./2)-(((abs(beta)).^2)./2)-((beta.^2).*(nu)./(2.*mu))))./sqrt(mu.*factorial(m))).*sum(vpa(subs(sm11,p,1:20), guard_digits));
sm22= (((-1i).^l)./factorial(l)).*((nu./(2.*mu)).^(l./2)).*hermiteH(l, -1i.*conj(beta)./sqrt(2.*mu.*nu)).*(-eta.^(l+n)).*hypergeom([-l -n],[], -1./(eta.^2));
Hm22= ((exp(-((eta.^2)./2)-(((abs(beta)).^2)./2)-(((conj(beta)).^2).*(nu)./(2.*mu))))./sqrt(mu.*factorial(n))).*sum(vpa(subs(sm22,l,1:20), guard_digits));
Hp1=Hp22.*Hp11;
Hm1=Hm22.*Hm11;
Hp(n,m)= (1./(2.*pi)).*(Hp1 + Hm1);
Hm(n,m)= (1./(2.*pi)).*(Hp1 - Hm1);
f11=((abs(c0t)).^2).*Hp(0,0);
f22= c0t.*conj(Ant).*Hm(0,n-1) + conj(c0t).*Ant.*Hm(n-1,0)+ c0t.*conj(Bnt).*Hp(0,n) + conj(c0t).*Bnt.*Hp(n,0);
f33= Ant.*conj(Amt).*Hp(n-1,m-1) + Bnt.*conj(Bmt).*Hp(n,m) + Bnt.*conj(Amt).*Hm(n,m-1) +Ant.*conj(Bmt).*Hm(n-1,m);
sf33= sum(vpa(subs(f33,m,1:20), guard_digits));
f=f11 + sum(vpa(subs(f22,n,1:20), guard_digits)) + sum(vpa(subs(sf33,n,1:20), guard_digits));
vpaintegral(vpaintegral(f, r, [0 10]), theta, [0 2.*pi]) %% 'r' and 'theta' are integration variable
%int(int(f,r,0,10),theta,0,2*pi) 

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Answer 1

Ameer Hamza 2020년 6월 2일

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https://kr.mathworks.com/matlabcentral/answers/540251-problem-with-definite-integral#answer_444847

MATLAB Online에서 열기

If you check at the expression of 'f', you can see it also has 't'. So even if you try to numerically integrate it w.r.t. 'r' and 'theta', the answer will still be symbolic.

Also, I suggest you to use matlabFunction() to convert the symbolic expression into a floating-point function, which is much faster than the symbolic calculations. For example, instead of vpaintegral(), try this

F = matlabFunction(f, 'Vars', [r theta t]);
int_val = integral2(@(r, theta) F(r, theta, 0), 0, 10, 0, 2*pi)

This assumes that t=0 to get a function in terms of r and theta.

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AVM 2020년 6월 2일

편집: AVM 2020년 6월 7일

MATLAB Online에서 열기

@Ameer: After rigorous checking of my equations , the current version of it given below. Now the problem is Long-run time even though this is the correct equations. Here, I put t=0 ((Actually I have to chose some 't' according to my system of Eqns. )) but still it is taking so much time to execute as the probelm was in begin with. Although upto the function ''f'' it is executing within a min. Please, have a look and advise me what should I do.

clc;
syms  n r theta m p  l 
w=1.0;
d=0.3;
g=0.0001;
lmb=0.1;
t=0;
assume(r,'real');
assume(theta,'real');
om=sqrt(((w).^2)-(4.*(g.^2)));
mu=sqrt((w+om)./(2.*om));
nu=((w-om)./(2.*g)).*mu;
eta=(((lmb)./((2.*g)+w)).*(1+((w-om)./(2.*g)))).*mu;
En=((n+(1./2)).*om)-(w./2)-(((lmb).^2)/((2.*g)+w));
Enn=((n-(1./2)).*om)-(w./2)-(((lmb).^2)/((2.*g)+w));
engpm=((m+(1./2)).*om)-(w./2)-(((lmb).^2)/((2.*g)+w));
engmm=((m-(1./2)).*om)-(w./2)-(((lmb).^2)/((2.*g)+w));
Dn=(d./2).*(exp(-2.*((eta).^(2)))).*(laguerreL(n,(4.*((eta).^2))));    
Dm=(d./2).*(exp(-2.*((eta).^(2)))).*(laguerreL(m,(4.*((eta).^2))));  
Dnn=(d./2).*(exp(-2.*((eta).^(2)))).*(laguerreL((n-1),(4.*(eta.^2)))); 
Dmm=(d./2).*(exp(-2.*((eta).^(2)))).*(laguerreL((m-1),(4.*(eta.^2)))); 
Em=En - Dn;
Ep=Enn + Dnn;
Um=engpm-Dm;
Up=engmm +Dmm;
epsn=(Ep-Em)./2; 
epsm=(Up-Um)./2;
Deln=(eta.*d./sqrt(n)).*exp(-2.*(eta.^2)).*laguerreL((n-1),1,(4.*(eta.^2)));
Delm=(eta.*d./sqrt(m)).*exp(-2.*(eta.^2)).*laguerreL((m-1),1,(4.*(eta.^2)));
xn=sqrt(((epsn).^2)+((Deln).^(2)));
xm=sqrt(((epsm).^2)+((Delm).^(2))); 
zetapn=sqrt(((xn)+(epsn))./(2.*xn));
zetamn=sqrt(((xn)-(epsn))./(2.*xn));
zetapm=sqrt(((xm)+(epsm))./(2.*xm));
zetamm=sqrt(((xm)-(epsm))./(2.*xm));
z= 1i.*(mu-nu).*eta./(sqrt(2.*mu.*nu));
a1n=(zetapn./sqrt(factorial(n-1))).*((-nu./(2.*mu)).^(-1./2)).*hermiteH(n-1, z);
b1n=(Deln./abs(Deln)).*(zetamn./sqrt(factorial(n))).*hermiteH(n, z);
a2n=(zetamn./sqrt(factorial(n-1))).*((-nu./(2.*mu)).^(-1./2))*hermiteH(n-1, z);
b2n= (Deln./abs(Deln)).*(zetapn./sqrt(factorial(n))).*hermiteH(n, z);
a1m=(zetapm./sqrt(factorial(m-1))).*((-nu./(2.*mu)).^(-1./2)).*hermiteH(m-1, z);
b1m=(Delm./abs(Delm)).*(zetamm./sqrt(factorial(m))).*hermiteH(m, z);
a2m=(zetamm./sqrt(factorial(m-1))).*((-nu./(2.*mu)).^(-1./2))*hermiteH(m-1, z);
b2m= (Delm./abs(Delm)).*(zetapm./sqrt(factorial(m))).*hermiteH(m, z);
c0= -(1./sqrt(2.*mu)).*exp(-((eta.^2)./2)+ ((nu.*(eta).^2)./(2.*mu)));
cpn= -c0.*((-nu./(2.*mu)).^(n./2)).*(a1n - b1n);
cmn= -c0.*((-nu./(2.*mu)).^(n./2)).*(a2n + b2n);
cpm= -c0.*((-nu./(2.*mu)).^(m./2)).*(a1m - b1m);
cmm= -c0.*((-nu./(2.*mu)).^(m./2)).*(a2m + b2m);
guard_digits = 10;
E0=(om./2)-(w./2)-(((lmb).^2)./((2.*g)+w));
eg= E0-((d./2).*(exp(-2.*((eta).^(2)))));
ep=(1./2).*(Ep+ Em + (sqrt(((Ep-Em).^2)+(4.*((Deln).^2)))));
em=(1./2).*(Ep+ Em - (sqrt(((Ep-Em).^2)+(4.*((Deln).^2)))));
upp= (1./2).*(Up+ Um + (sqrt(((Up-Um).^2)+(4.*((Delm).^2)))));
umm= (1./2).*(Up+ Um - (sqrt(((Up-Um).^2)+(4.*((Delm).^2)))));
c0t= c0.*exp(-1i.*eg.*t);
cpnt= cpn.*exp(-1i.*ep.*t);
cmnt= cmn.*exp(-1i.*em.*t);
cpmt= cpm.*exp(-1i.*upp.*t);
cmmt= cmm.*exp(-1i.*umm.*t);
Ant=zetapn.*cpnt + zetamn.*cmnt;
Bnt= (Deln./abs(Deln)).*(zetamn.*cpnt - zetapn.*cmnt);
Amt= zetapm.*cpmt + zetamm.*cmmt;
Bmt= (Delm./abs(Delm)).*(zetamm.*cpmt - zetapm.*cmmt);
beta= r.*exp(1i.*theta);
sp11= ((1i.^p)./factorial(p)).*((nu./(2.*mu)).^(p./2)).*hermiteH(p, 1i.*beta./sqrt(2.*mu.*nu)).*(eta.^(p+m)).*hypergeom([-p -m],[], -1./(eta.^2));
Hp11= ((exp(-((eta.^2)./2)-(((abs(beta)).^2)./2)-((beta.^2).*(nu)./(2.*mu))))./sqrt(mu.*factorial(m))).*sum(vpa(subs(sp11,p,1:5), guard_digits));
sp22= (((-1i).^l)./factorial(l)).*((nu./(2.*mu)).^(l./2)).*hermiteH(l, -1i.*conj(beta)./sqrt(2.*mu.*nu)).*(eta.^(l+n)).*hypergeom([-l -n],[], -1./(eta.^2));
Hp22= ((exp(-((eta.^2)./2)-(((abs(beta)).^2)./2)-(((conj(beta)).^2).*(nu)./(2.*mu))))./sqrt(mu.*factorial(n))).*sum(vpa(subs(sp22,l,1:5), guard_digits));
sm11= ((1i.^p)./factorial(p)).*((nu./(2.*mu)).^(p./2)).*hermiteH(p, 1i.*beta./sqrt(2.*mu.*nu)).*((-eta).^(p+m)).*hypergeom([-p -m],[], -1./(eta.^2));
Hm11= ((exp(-((eta.^2)./2)-(((abs(beta)).^2)./2)-((beta.^2).*(nu)./(2.*mu))))./sqrt(mu.*factorial(m))).*sum(vpa(subs(sm11,p,1:5), guard_digits));
sm22= (((-1i).^l)./factorial(l)).*((nu./(2.*mu)).^(l./2)).*hermiteH(l, -1i.*conj(beta)./sqrt(2.*mu.*nu)).*((-eta).^(l+n)).*hypergeom([-l -n],[], -1./(eta.^2));
Hm22= ((exp(-((eta.^2)./2)-(((abs(beta)).^2)./2)-(((conj(beta)).^2).*(nu)./(2.*mu))))./sqrt(mu.*factorial(n))).*sum(vpa(subs(sm22,l,1:5), guard_digits));
Hp1=Hp22.*Hp11;
Hm1=Hm22.*Hm11;
Hp(n,m)= (1./(2.*pi)).*(Hp1 + Hm1);
Hm(n,m)= (1./(2.*pi)).*(Hp1 - Hm1);
f11=((abs(c0t)).^2).*Hp(0,0);
f22= c0t.*conj(Ant).*Hm(0,n-1) + conj(c0t).*Ant.*Hm(n-1,0)+ c0t.*conj(Bnt).*Hp(0,n) + conj(c0t).*Bnt.*Hp(n,0);
f33= Ant.*conj(Amt).*Hp(n-1,m-1) + Bnt.*conj(Bmt).*Hp(n,m) + Bnt.*conj(Amt).*Hm(n,m-1) + Ant.*conj(Bmt).*Hm(n-1,m);
sf33= sum(vpa(subs(Q33,m,1:5), guard_digits));
f= f11 + sum(vpa(subs(f22,n,1:5), guard_digits)) + sum(vpa(subs(sf33,n,1:5), guard_digits));
F = matlabFunction(f, 'Vars', [r theta]);
int_val = integral2(@(r, theta) F(r, theta), 0, 5, 0, 2*pi)
polarplot(theta, int_val,'r')

AVM 2020년 6월 7일

Thanks for your advice. By the way I have reduced the number of summations involved in the equations ( upto 1-5) and now it is running much faster than previous. Now I need to plot the ''int_val'' w.r.t. '' theta'' in polar plot without using ''int(int())'' command because when I need to plot that w.r.t. ''theta'', I think ''Integral2''will no longer work. So what should I do in this case to get the plot.

I have aready used ''int(int())'' but it is taking extremely long time. Pl help me to solve this problem

AVM 2020년 6월 7일

@Ameer: Okay the issue is not relevant here. I just asked this question by mistake. It will no longer releted to my case now.

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Problem with definite Integral

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