How to fit a curve to a step function?
72 vues (au cours des 30 derniers jours)
Afficher commentaires plus anciens
Swati Jain
le 15 Juin 2019
Réponse apportée : John D'Errico
le 17 Juin 2019
Hi,
I am trying to fit curve to a step function. I tried no. of approaches like using sigmoid function,using ratio of polynomials, fitting Gauss function to derivative of step, but none of them are looking okay. Now, I came up with the idea of creating a perfect step and compute convolution of perfect step to a Gauss function and find best fit parameter using non-linear regression. But this is also not looking good. I am writing here code both for Sigmoid and convolution approach. First with Sigmoid Function fit:
Function:
function d=fit_sig(param,x,y)
a=param(1);
b=param(2);
d=(a./(1+exp(-b*x)))-y;
end
main code:
a=1, b=0.09;
p0=[a,b];
sig_coff=lsqnonlin(@fit_sig,p0,[],[],[],xavg_40s1,havg_40s1);
% Plot the original and experimental data.
sig_new = sig_coff(1)./(1+exp(-sig_coff(2)*xavg_40s1));
d= havg_40s1-step_new;
figure;
plot(xavg_40s1,havg_40s1,'.-r',xavg_40s1,sig_new,'.-b');
xlabel('x-pixel'); ylabel('dz/dx (mm/pixel)'); axis square;
This is not working at all. I think my initial guesses are wrong. I tried multiple numbers but could not get it correct. I tried using curve fitting tool too but that is also not working.
Code for Creating perfect step:
h=ones(1,numel(havg_40s1)); %height=1mm
h(1:81)=-0.038;
h(82:end)=1.002; %or 1.0143
figure;
plot(xavg_40s1,havg_40s1,'k.-', 'linewidth',1.5, 'markersize',16);
hold on
plot(xavg_40s1,h,'.-r','linewidth',1.5,'markersize',12);
Code using convolution approach:
Function:
function d=fit_step(param,h,x,y)
A=param(1);
mu=param(2);
sigma=param(3);
d=conv(h,A*exp(-((x-mu)/sigma).^2),'same')-y;
end
main code:
param1=[0.2247 8.1884 0.0802];
step_coff=lsqnonlin(@fit_step,param1,[],[],[],h,dx_40s1,havg_40s1);
% Plot the original and experimental data.
step_new = conv(h,step_coff(1)*exp(-((dx_40s1-step_coff(2))/step_coff(3)).^2),'same');
figure;
plot(xavg_40s1,havg_40s1,'.-r',xavg_40s1,step_new,'.-b');
This is close but edge of step has been shifted plus corners are looking sharper than measured step.
Could someone please help me out the best way to fit a step function or any suggestion to improve the code??
Attached are the images of the measured step and fitted curve.
0 commentaires
Réponse acceptée
John D'Errico
le 17 Juin 2019
ALWAYS plot everything. Do that before you do anything else.
plot(xavg_40s1,havg_40s1,'.')
grid on
So your data looks like a simple sigmoid function. One option might be to just use a scaled cumulative normal CDF.
ft = fittype('a + b*normcdf(x,mu,sig)','indep','x')
ft =
General model:
ft(a,b,mu,sig,x) = a + b*normcdf(x,mu,sig)
Fopts = fitoptions(ft);
Fopts.Lower = [-1 0 15 .1];
Fopts.Upper = [1 2 16 3];
Fopts.StartPoint = [0 1 15.2 1];
mdl = fit(xavg_40s1',havg_40s1',ft,Fopts)
mdl =
General model:
mdl(x) = a + b*normcdf(x,mu,sig)
Coefficients (with 95% confidence bounds):
a = -0.03595 (-0.03972, -0.03218)
b = 1.037 (1.031, 1.042)
mu = 15.21 (15.2, 15.21)
sig = 0.1 (fixed at bound)
plot(mdl)
hold on
plot(xavg_40s1,havg_40s1,'.')
It fits reasonably well. The toe and shoulder regions have some lack of fit, but I would not expect any nonlinear function to fit that terribly well in those areas, because it almost looks like a strange quasi-linear segment in there at the top.
Could I do a better job? Well, yes. I'd use a spline model. With little effort, my SLM toolbox, for example, gives this:
slm = slmengine(xavg_40s1,havg_40s1,'increasing','on','leftslope',0,'rightslope',0,'plot','on','knots',[12, 13 14:.1:16 17 18]);
0 commentaires
Plus de réponses (2)
Alex Sha
le 17 Juin 2019
Hi, Swati, the model function below seems to be good:
Root of Mean Square Error (RMSE): 0.0112392378141364
Sum of Squared Residual: 0.0203375951294768
Correlation Coef. (R): 0.999754407705456
R-Square: 0.999508875726487
Adjusted R-Square: 0.999502658963532
Determination Coef. (DC): 0.999508875726168
Chi-Square: -0.0485915186750673
F-Statistic: 79370.6980894785
Parameter Best Estimate
---------- -------------
a -1.01243944987232
b -16.0263461203152
c 15.2348890570946
d 1.10853332946394
f 1.85400763787051
Voir également
Catégories
En savoir plus sur Interpolation dans Help Center et File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!