Non-linear Optimization for adjusting one trajectory to another (one matrix transformed to match other).

3 visualizzazioni (ultimi 30 giorni)
Hi!
in the M-code of my GUI Program, I have to adjust one set of the XYZ points (a trajectory) to another using rotation matrices. So, let's say each trajectory Matrix T1 and T2 has a size [100x3].
Initializing the same starting point for T1 and T2, so that both begin in [0 0 0] (T1 = T1 - repmat(T1(1,:),100,1); and the same for T2), I want to rotate the T2 trajectory to fit T1 in the order ZXY, using the rotation Matrices Mx, My, Mz, which I define using the variables rx, ry and rz, and also scaling the trajectory with c.
The thing is then, that I want to minimize:
norm(T1 - c*T2*Mz*Mx*My)
Where :
Mx = [ [1 0 0] ; [0 cos(rx) sin(rx) ] ; [0 -sin(rx) cos(rx)]];
My = [ [cos(ry) 0 -sin(ry)] ; [0 1 0] ; [sin(ry) 0 cos(ry)]];
Mz = [ [cos(rz) sin(rz) 0] ; [-sin(rz) cos(rz) 0] ; [0 0 1]];
My attempts so far:
1.- I tried defining an inline function, putting the rotation matrices totally expanded for being directly depending of my variables of interest rx,ry,rz,c as a vector x of size 1x4.
difference_fun=inline(strcat('norm( T1 - x(4)*T2 * ',...
'[ [cos(x(3)) sin(x(3)) 0] ; [-sin(x(3)) cos(x(3)) 0] ; [0 0 1]] * ', ...
'[ [1 0 0] ; [0 cos(x(1)) sin(x(1)) ] ; [0 -sin(x(1)) cos(x(1))]] * ', ...
'[ [cos(x(2)) 0 -sin(x(2))] ; [0 1 0] ; [sin(x(2)) 0 cos(x(2))]] )'), ...
'x');
x0 = [0,0,0,1]; % Starting guess
options = optimset('LargeScale','off');
[x,fval,exitflag,output] = fminunc(difference_fun,x0,options)
The problem is, that inline functions don't take variables as parameters, it just says that it doesn't find function or variable "T1".
2.- My second attempt was to define a separate function inside my GUI M-file, in which I could pass rx,ry,rz,c as input argument and also "handles" as input arguments (handles contains handles.t1 and handles.t2). With this, I still can't figure out how to use an Optimizing tool to optimize along all my arguments and letting 'handles' fixed. (Also, I am now thinking that passing handles as an to an unimportant function like that is not a clever idea).
How could I get the right rx,ry,rz and c that adjust the trajectory of T2 to T1 ?
Thank you very much.

Risposta accettata

Jonathan
Jonathan il 15 Nov 2011
Try an anonymous function handle instead of an inline function, like this.
difference_fun = @(x) norm( T1 - x(4)*T2 * ...
[[cos(x(3)) sin(x(3)) 0]; [-sin(x(3)) cos(x(3)) 0]; [0 0 1]] * ...
[[1 0 0]; [0 cos(x(1)) sin(x(1))]; [0 -sin(x(1)) cos(x(1))]] * ...
[[cos(x(2)) 0 -sin(x(2))]; [0 1 0]; [sin(x(2)) 0 cos(x(2))]] );

Più risposte (1)

Cristian Duguet
Cristian Duguet il 17 Nov 2011
Thank you very much! Exactly was I was looking for, and found also in http://www.mathworks.de/help/toolbox/optim/ug/brhkghv-7.html Anyways from the three optios I think the anonymous function is the one that best fits to me.

Community Treasure Hunt

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

Start Hunting!

Translated by