hessian using symbolic variables

8 views (last 30 days)
sensation
sensation on 7 May 2018
Commented: sensation on 22 May 2018
Hi there,
I am struggling with obtaining the Hessian of my function. In the first case it works fine but in the second case I can not get it (still symbolic variables X are presented in H). So my question is why this happen? This is small portion of the code where I want to find hessian of my Rtot function with X being x1,x2,x3,x4.
Rtot= -sum(Rsub(:,i));
H=hessian(Rtot,X);
H1 = 0.5.*double(H);
with Rtot:
(6234858085755363*x1*((17865509505801117*x1)/14411518807585587200000 + (17865509505801117*x3)/14411518807585587200000 - 16863388614392257743519/1441151880758558720000))/140737488355328000 + (6069173180546921*x2*((17865509505801117*x1)/7205759403792793600000 + (17865509505801117*x2)/14411518807585587200000 + (17865509505801117*x3)/7205759403792793600000 + (17865509505801117*x4)/14411518807585587200000 - 16867211833426499182557/1441151880758558720000))/140737488355328000
and H1:
1.0e-07 *
0.5492 0.5346 0.2746 0
0.5346 0.5346 0.5346 0.2673
0.2746 0.5346 0 0
0 0.2673 0 0
This is fine. But then when I want to find hessian of different data set i get this. Rtot:
- (2587079436111693477*x2*(665101922855875194446501149/3153075739026468800000 - (4398046511104*x2)/5912017010674629 - (4398046511104*x3)/5912017010674629 - (4398046511104*x4)/5912017010674629 - (4398046511104*x1)/5912017010674629)^(1/3))/28147497671065600000000 - (4554081285294461427*x1*(1299027180826527113674752/6158351052786071875 - (4398046511104*x3)/5912017010674629 - (4398046511104*x1)/5912017010674629)^(1/3))/56294995342131200000000
and H still have symbolic variables inside which does not allow me to calculate H1. Difference is in Rtot but I still can not find out why it does not work.
Thank you a lot!!!
  4 Comments
Torsten
Torsten on 7 May 2018
if you want to use the Hessian in quadprog, use
func_H = matlabFunction(H)
Best wishes
Torsten.
sensation
sensation on 22 May 2018
Hi Torsten, Thanks for the tip. I created my Hessian as:
%
hessObj = hessian(Rtot(:,i),X(:,i));
H=matlabFunction(hessObj);
However, when I use H in my quadprog, H is still not double type. Any clue?
Thanks and cheers

Sign in to comment.

Answers (1)

Alan Weiss
Alan Weiss on 7 May 2018
There are some examples in the documentation that show how to do this:
Alan Weiss
MATLAB mathematical toolbox documentation
  2 Comments
sensation
sensation on 8 May 2018
Hi Alan, I had a view on this. My issue is following once I do:
%
gradf = jacobian(Rtot,X); % column gradf
hessf = jacobian(gradf,X);
qpoptions = optimset('Algorithm','interior-point-convex','Disp','iter');
tic
[x3(:,i),fval3(:,i)] = quadprog(hessf,f,A,b(:,i),Aeq,beq(:,i),LB(:,i),UB(:,i),[],qpoptions);
toc
hessf need to be of type H (double) but I can not convert it to double since there are still x unknowns in hessf. My hessf, instead of being a number able to be converted in double is:
(154325299586858956762382336*x2)/(13653103568166475135677228237359765625*(665101922855875194446501149/3153075739026468800000 - (4398046511104*x2)/5912017010674629 - (4398046511104*x3)/5912017010674629 - (4398046511104*x4)/5912017010674629 - (4398046511104*x1)/5912017010674629)^(5/3)) + (15092307240482528980631552*x1)/(1517011507574052792853025359706640625*(1299027180826527113674752/6158351052786071875 - (4398046511104*x3)/5912017010674629 - etc
thanks for any tip!
Alan Weiss
Alan Weiss on 8 May 2018
Torsten gave you good advice: use matlabFunction exactly as he said.
Alan Weiss
MATLAB mathematical toolbox documentation

Sign in to comment.

Categories

Find more on Symbolic Math Toolbox in Help Center and File Exchange

Community Treasure Hunt

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

Start Hunting!