Solving equations when variable is included in mu and sigma of distribution function

7 views (last 30 days)
ByungChul Min
ByungChul Min on 27 Sep 2016
Edited: ByungChul Min on 28 Sep 2016
Hello
I'm trying to solve the following equation
c = 1.60
q = 0.08
equity = 0.08
p = 3.26
sigma = 0.1
mu = 0.08
syms r
vpasolve((c*q-equity)*(1+r)/p==(-p/(1+r)+p*(1-normcdf((c*q-equity)*(1+r)/p,(c*mu-equity)*(1+r)/p,c*(1+r)/p*sigma)))*(c*(1-normcdf(q,mu,sigma))-(c*q-equity)*normpdf(q,mu,sigma))/((p/(1+r))^2*normpdf(q,mu,sigma)-c^2*normpdf((c*q-equity)*(1+r)/p,(c*mu-equity)*(1+r)/p,c*(1+r)/p*sigma)),r,[0 1],'random',true)
However, Matlab returns an error message
symengine
Cannot prove '(1809252434946447*r)/36729926713742350 + 1809252434946447/36729926713742350 == 0 &
0.0000000000000000025671305227897154891565148192726*r + 0.0000000000000000025671305227897154891565148192726 <
- (12505220420059*r)/554413988131960 - 12505220420059/554413988131960' literally. To test the statement
mathematically, use isAlways.
sym/subsindex (line 762)
X = find(mupadmex('symobj::logical',A.s,9)) - 1;
sym/privsubsasgn (line 1031)
L_tilde2 = builtin('subsasgn',L_tilde,struct('type','()','subs',{varargin}),R_tilde);
sym/subsasgn (line 868)
C = privsubsasgn(L,R,inds{:});
normcdf>localnormcdf (line 100)
p(sigma==0 & x<mu) = 0;
normcdf (line 46)
[varargout{1:max(1,nargout)}] = localnormcdf(uflag,x,varargin{:});
My guess is that Matlab is trying to test sigma==0 & x<mu, but it cannot because the symbolic variable r is included in sigma and mu. However, sigma is always >0 because of the range of r I have set.
How can I solve the equation in this case?

Sign in to answer this question.

Accepted Answer

Walter Roberson
Walter Roberson on 27 Sep 2016
normpdf() and normcdf() are numeric routines. They are coded in a way that cannot succeed if the mu or sigma are symbolic. They internally need to test sigma == 0 & mu < 0 and also mu <= 0, which will fail for symbolic values that have insufficient assertions active (and even then, the assertions might not be enough.) It is okay to use symbolic values for the x for normpdf and normcdf though.
The above is why the vpasolve() is failing; it is failing while looking at the normpdf() expression before even getting into the vpasolve() call.
The solution is to turn it into a numeric system: transform vpasolve(A(r) == B(r),r) into @(r) A(r) - B(r) and apply a numeric solver to that.
Your vpasolve() is for r from 0 to 1. There is no solution to your system in that range. The solution is at approximately r = 1.008849984 .
  4 Comments
Show 2 older comments
Walter Roberson
Walter Roberson on 28 Sep 2016
I copied directly from your code; r = 0.9809 does not satisfy the equations you provided. Possibly you had mis-entered the equations.
f = @(r) ((c*q-equity)*(1+r)/p) - ((-p/(1+r)+p*(1-normcdf((c*q-equity)*(1+r)/p,(c*mu-equity)*(1+r)/p,c*(1+r)/p*sigma)))*(c*(1-normcdf(q,mu,sigma))-(c*q-equity)*normpdf(q,mu,sigma))/((p/(1+r))^2*normpdf(q,mu,sigma)-c^2*normpdf((c*q-equity)*(1+r)/p,(c*mu-equity)*(1+r)/p,c*(1+r)/p*sigma)));
g = @(r) f(r).^2;
r0 = fminsearch(g, 1);
Here I use the old trick of finding a zero crossing by finding the minimum of f^2. I use this rather than use fzero() because the function has a singularity not much further along.
ByungChul Min
ByungChul Min on 28 Sep 2016
Edited: ByungChul Min on 28 Sep 2016
You are right. I reentered the equations and it yields 1.0088499837318395856408398200666, just as what you said. Thank you very much for your help.

Sign in to comment.

More Answers (0)

Categories

Find more on Assumptions in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!