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how to convert Hypergeometric function generated in Maple to Matlab

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gourav pandey
gourav pandey el 23 de Dic. de 2021
Comentada: gourav pandey el 24 de Dic. de 2021
% Hey, I have an issue in converting below code in Matlab. I don't know how to write 'I1' in Matlab. if we run below code in Maple then plot will show decay with omega but that is not happening with Matlab due to error in I1 because of presence of "Hypergeom". Code is written in Maple 2018. Please help me in solving this issue. Thank You!!
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
restart; Digits:=500:
n:=4:
f1:=1: f2:=cos(alpha):
if n =0 then f3:=f1:
elif n =1 then f3:=f2:
else
for i from 3 by 1 to n+1 do f3:=expand(2*f2*cos(alpha)-f1);
f1:=f2: f2:=f3:
end do;
end if;
f3:
#I1_s:=simplify(int(x^k*sin(omega*x)/(1+x^2)^((n+k)/2+1),x=0..infinity)) assuming omega::real,omega>0,k::integer,k>0,n::integer,n>0;
#I1 := omega*hypergeom([1+(1/2)*k], [3/2, 1-(1/2)*n], (1/4)*omega^2)*GAMMA(1+(1/2)*k)*GAMMA((1/2)*n)/(2*GAMMA((1/2)*n+(1/2)*k+1))-omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*Pi/(2*sin((1/2)*n*Pi)*GAMMA(n+2));
#I1_c:=simplify(int(x^k*cos(omega*x)/(1+x^2)^((n+k)/2+1),x=0..infinity)) assuming omega::real,omega>0,k::integer,k>0,n::integer,n>0;
#I1 := (hypergeom([(1/2)*k+1/2], [1/2, 1/2-(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*k+1/2)*GAMMA((1/2)*n+1/2)*cos((1/2)*n*Pi)*GAMMA(n+2)-Pi*omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*n+(1/2)*k+1))/(2*GAMMA((1/2)*n+(1/2)*k+1)*cos((1/2)*n*Pi)*GAMMA(n+2));
## Depending on n=even or odd I1 is decided.
if irem(n,2)=0 then
I1 := (hypergeom([(1/2)*k+1/2], [1/2, 1/2-(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*k+1/2)*GAMMA((1/2)*n+1/2)*cos((1/2)*n*Pi)*GAMMA(n+2)-Pi*omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*n+(1/2)*k+1))/(2*GAMMA((1/2)*n+(1/2)*k+1)*cos((1/2)*n*Pi)*GAMMA(n+2));
elif irem(n,2)<>0 then
I1 := omega*hypergeom([1+(1/2)*k], [3/2, 1-(1/2)*n], (1/4)*omega^2)*GAMMA(1+(1/2)*k)*GAMMA((1/2)*n)/(2*GAMMA((1/2)*n+(1/2)*k+1))-omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*Pi/(2*sin((1/2)*n*Pi)*GAMMA(n+2));
end if;
h:=0:
for k from 0 by 1 to n do h:=h+(coeff(f3,cos(alpha),k)*I1):
end do:
s1:=evalf(h):
plot(s1,omega=0..100);return;

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Respuestas (2)

Walter Roberson
Walter Roberson el 23 de Dic. de 2021
Editada: Walter Roberson el 23 de Dic. de 2021
Ran in:
hypergeom() is not the problem; it works the same in MATLAB. Just watch out for omega == 0 exactly
%digits(500);
syms alpha k omega
GAMMA = @gamma;
Pi = sym(pi);
n = 4;
f1 = 1; f2 = cos(alpha);
if n == 0
f3 = f1;
elsif n == 1
f3 = f2;
else
for i = 3 : n+1
f3 = expand(2*f2*cos(alpha)-f1);
f1 = f2; f2 = f3;
end
end
%f3:
%I1_s:=simplify(int(x^k*sin(omega*x)/(1+x^2)^((n+k)/2+1),x=0..infinity)) assuming omega::real,omega>0,k::integer,k>0,n::integer,n>0;
%I1 := omega*hypergeom([1+(1/2)*k], [3/2, 1-(1/2)*n], (1/4)*omega^2)*GAMMA(1+(1/2)*k)*GAMMA((1/2)*n)/(2*GAMMA((1/2)*n+(1/2)*k+1))-omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*Pi/(2*sin((1/2)*n*Pi)*GAMMA(n+2));
%I1_c:=simplify(int(x^k*cos(omega*x)/(1+x^2)^((n+k)/2+1),x=0..infinity)) assuming omega::real,omega>0,k::integer,k>0,n::integer,n>0;
%I1 := (hypergeom([(1/2)*k+1/2], [1/2, 1/2-(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*k+1/2)*GAMMA((1/2)*n+1/2)*cos((1/2)*n*Pi)*GAMMA(n+2)-Pi*omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*n+(1/2)*k+1))/(2*GAMMA((1/2)*n+(1/2)*k+1)*cos((1/2)*n*Pi)*GAMMA(n+2));
% Depending on n=even or odd I1 is decided.
if mod(n,2) == 0
I1 = (hypergeom([(1/2)*k+1/2], [1/2, 1/2-(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*k+1/2)*GAMMA((1/2)*n+1/2)*cos((1/2)*n*Pi)*GAMMA(n+2)-Pi*omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*n+(1/2)*k+1))/(2*GAMMA((1/2)*n+(1/2)*k+1)*cos((1/2)*n*Pi)*GAMMA(n+2));
elseif mod(n,2) ~= 0
I1 = omega*hypergeom([1+(1/2)*k], [3/2, 1-(1/2)*n], (1/4)*omega^2)*GAMMA(1+(1/2)*k)*GAMMA((1/2)*n)/(2*GAMMA((1/2)*n+(1/2)*k+1))-omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*Pi/(2*sin((1/2)*n*Pi)*GAMMA(n+2));
else
error('n is not a finite integer')
end
I1
I1 = 
f3
f3 = 
[C, pow] = coeffs(f3, cos(alpha), 'all')
C = 
pow = 
h = 0;
for K = 0 : min(n, length(C)-1)
h = h + C(end-K) * subs(I1, k, K);
end
h
h = 
s1 = vpa(h)
s1 = 
%fplot(s1, [0, 100]);
limit(s1, omega, 0)
ans = 
0.09817477042468103884879414609549
Omega = linspace(.1,100,250);
ds1 = double(subs(s1, omega, Omega));
plot(Omega, ds1)
plot(Omega(1:75), ds1(1:75))
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Walter Roberson
Walter Roberson el 24 de Dic. de 2021
Editada: Walter Roberson el 24 de Dic. de 2021
Ran in:
It turns out that the problems occur with some of the GAMMA and cos() and sin() calls; with double precision n values, those calls were operating at double precision resolution, which turned out not to be good enough.
digits(250);
syms alpha k omega
GAMMA = @gamma;
Pi = sym(pi);
n = 4;
N = sym(n);
f1 = 1; f2 = cos(alpha);
if n == 0
f3 = f1;
elseif n == 1
f3 = f2;
else
for i = 3 : n+1
f3 = expand(2*f2*cos(alpha)-f1);
f1 = f2; f2 = f3;
end
end
%f3:
%I1_s:=simplify(int(x^k*sin(omega*x)/(1+x^2)^((n+k)/2+1),x=0..infinity)) assuming omega::real,omega>0,k::integer,k>0,n::integer,n>0;
%I1 := omega*hypergeom([1+(1/2)*k], [3/2, 1-(1/2)*n], (1/4)*omega^2)*GAMMA(1+(1/2)*k)*GAMMA((1/2)*n)/(2*GAMMA((1/2)*n+(1/2)*k+1))-omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*Pi/(2*sin((1/2)*n*Pi)*GAMMA(n+2));
%I1_c:=simplify(int(x^k*cos(omega*x)/(1+x^2)^((n+k)/2+1),x=0..infinity)) assuming omega::real,omega>0,k::integer,k>0,n::integer,n>0;
%I1 := (hypergeom([(1/2)*k+1/2], [1/2, 1/2-(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*k+1/2)*GAMMA((1/2)*n+1/2)*cos((1/2)*n*Pi)*GAMMA(n+2)-Pi*omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*n+(1/2)*k+1))/(2*GAMMA((1/2)*n+(1/2)*k+1)*cos((1/2)*n*Pi)*GAMMA(n+2));
% Depending on n=even or odd I1 is decided.
if mod(n,2) == 0
I1 = (hypergeom([(1/2)*k+1/2], [1/2, 1/2-(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*k+1/2)*GAMMA((1/2)*N+1/2)*cospi((1/2)*N)*GAMMA(N+2)-Pi*omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*GAMMA((1/2)*n+(1/2)*k+1))/(2*GAMMA((1/2)*n+(1/2)*k+1)*cospi((1/2)*N)*GAMMA(N+2));
elseif mod(n,2) ~= 0
I1 = omega*hypergeom([1+(1/2)*k], [3/2, 1-(1/2)*n], (1/4)*omega^2)*GAMMA(1+(1/2)*k)*GAMMA((1/2)*N)/(2*GAMMA((1/2)*n+(1/2)*k+1))-omega^(1+n)*hypergeom([(1/2)*n+(1/2)*k+1], [1+(1/2)*n, 3/2+(1/2)*n], (1/4)*omega^2)*Pi/(2*sinpi((1/2)*N)*GAMMA(N+2));
else
error('n is not a finite integer')
end
[C, pow] = coeffs(f3, cos(alpha), 'all');
h = 0;
for K = 0 : min(n, length(C)-1)
part1 = C(end-K);
part2 = subs(I1, k, K);
h = h + part1 * part2;
%disp(K);
%disp(part1);
%disp(string(part2));
% disp(double(vpa(limit(part2, omega, 100),50)));
end
h
h = 
s1 = vpa(h)
s1 = 
Omega = linspace(.1,100,250);
ds1 = double(subs(s1, omega, Omega));
plot(Omega, ds1)

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gourav pandey
gourav pandey el 24 de Dic. de 2021
hii, yes you have done lot of changes but still plot is incorrect.. its unbounded. it suppose to be bounded. i'm also getting same result as u have shared. i think there if some issue with hypergeom function in matlab

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