I want to point out that you would never use lsqcurvefit to fit a linear unconstrained model like this. You would just use polyfit.
Computing variance of a variable after linear fit using lsqcurvefit function
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I just want to confirm whether the follwings are correct or not. I have two data sets and I want to linealy fit these data sets using the "lsqcurvefit" function. The linear fit equation is given by :
. Following is the code, which also computes the covariance matrix of the parametrs (a,b):
. Following is the code, which also computes the covariance matrix of the parametrs (a,b):clear all;
xdata = [-0.41095 -0.410820 -0.41074 -0.41068 -0.41063 -0.41058 -0.41055 -0.41052 -0.41049 -0.41047];
ydata = [0.166666666666667 0.142857142857143 0.125000000000000 0.111111111111111 0.100000000000000 0.090909090909091 0.083333333333333 0.076923076923077 0.071428571428571 0.066666666666667];
fun = @(A,xdata)(A(1)+A(2)*xdata);
A0 = [1,-1];
A = lsqcurvefit(fun,A0,xdata,ydata);
[A,resnorm,residual,exitflag,output,lambda,J]= lsqcurvefit(fun,A0,xdata,ydata);
ACovariance = inv(J.'*J)*var(residual) %computes the covariance matrix of the parameters a,b in the equation y=a+bx
Is the above code correct for computing the covariance matrix of the fitting parameters?
Now I want to compute the variance of "y" at some point let's say at 
. Is the following equation correct for computing the variance of 
: 
. Where, 
are the variance of a and b , which are equal to i think the diagonal elements of the matrix "ACovariance" in the code, and 
is the covariance of the parametrs a,b , which is equal to i think offdiagonal elements of "ACovariance". Following is a derivation of the above equation:
. Is the following equation correct for computing the variance of : . Where, are the variance of a and b , which are equal to i think the diagonal elements of the matrix "ACovariance" in the code, and is the covariance of the parametrs a,b , which is equal to i think offdiagonal elements of "ACovariance". Following is a derivation of the above equation:
Now variance 
where, variance 
.
.Is the above way of computing variance of y at a point , is correct? If the above are incorrect, could you please, point out how to find variance of the variable "y" extrapolated to some arbitary point, after linear fitting the given data sets.
, is correct? If the above are incorrect, could you please, point out how to find variance of the variable "y" extrapolated to some arbitary point, after linear fitting the given data sets. 1 commentaire
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