Effacer les filtres
Effacer les filtres

How do can I solve for 2 unknowns in one equation given a data set for x and y.

1 vue (au cours des 30 derniers jours)
Adam
Adam le 27 Août 2013
Réponse apportée : SooShiant le 20 Fév 2014
The equation is (A/2)*[1+(alpha/2)+cos(2*pi*x)-(alpha/4)*cos(4*pi*x)]:
I need to solve for A and alpha, given 50 points for x and y:
x = [0, 0.013824885, 0.034562212, 0.057603687, 0.073732719, 0.094470046, 0.119815668, 0.142857143, 0.168202765, 0.188940092, 0.198156682, 0.223502304, 0.246543779, 0.264976959, 0.274193548, 0.290322581, 0.299539171, 0.315668203, 0.331797235, 0.359447005, 0.380184332, 0.398617512, 0.421658986, 0.447004608, 0.474654378, 0.497695853, 0.525345622, 0.525345622, 0.548387097, 0.571428571, 0.599078341, 0.629032258, 0.652073733, 0.665898618, 0.68202765, 0.695852535, 0.711981567, 0.730414747, 0.748847926, 0.767281106, 0.783410138, 0.797235023, 0.813364055, 0.841013825, 0.866359447, 0.882488479, 0.896313364, 0.914746544 ,0.928571429, 0.958525346];
y = [0.002808989, 0.008426966, 0.019662921, 0.030898876, 0.047752809, 0.06741573, 0.098314607, 0.146067416, 0.188202247, 0.22752809, 0.25, 0.303370787, 0.342696629, 0.379213483, 0.390449438, 0.401685393, 0.412921348, 0.424157303, 0.424157303, 0.426966292, 0.424157303, 0.424157303, 0.415730337, 0.407303371, 0.401685393, 0.398876404, 0.401685393, 0.401685393, 0.407303371, 0.41011236, 0.421348315, 0.426966292, 0.429775281, 0.429775281, 0.424157303, 0.415730337, 0.398876404, 0.379213483, 0.345505618, 0.311797753, 0.278089888, 0.25, 0.216292135, 0.162921348, 0.115168539, 0.087078652, 0.070224719, 0.050561798, 0.033707865, 0.016853933];
  1 commentaire
Walter Roberson
Walter Roberson le 27 Août 2013
Do you want one solution per point, or do you want a least-squared fit?

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Réponses (2)

the cyclist
the cyclist le 27 Août 2013
Having plotted (x,y), I'm guessing that the answer to Walter's question is that you want a single best-fit equation to those points.
If you have the Statistics Toolbox, you can do that with the nlinfit() function.
doc nlinfit
for details.
Also, if you search this forum on "cyclist" and "nlinfit", you should be able to find a couple examples I have posted here.
SooShiant
SooShiant le 20 Fév 2014
Here is a simple example which you can change the equation and range and solve yours. The equation is 12x+9y+7z-60=0 where x,y,z are integers varies 0 to 10:
x=[0:1:10];
y=[0:1:10];
z=[0:1:10];
[X,Y,Z]=ndgrid(x,y,z);
F=12.*X+9.*Y+7.*Z-60;
idx=find(F==0);
[X(idx(:)),Y(idx(:)),Z(idx(:))];
Equations of this type are known as Diophantine equations.

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