lmcurvefit

Version 2.0.0 (4.34 KB) by Lateef Adewale Kareem

curve fitting using Levenberg Marquardt algorithm

11 Downloads

Updated 17 Sep 2024

% the following examples are available here
% https://www.mathworks.com/help/optim/ug/lsqcurvefit.html
% you can compare to the result from lmcurvefit to that of inbuilt matlab
% function lsqcurvefit
%% Example 1 (Unconstrained Curve Fitting)
close all
xdata = [0.9 1.5 13.8 19.8 24.1 28.2 35.2 60.3 74.6 81.3]';
ydata = [455.2 428.6 124.1 67.3 43.2 28.1 13.1 -0.4 -1.3 -1.5]';
x0 = [100;-1];
times = linspace(xdata(1),xdata(end))';
scatter(xdata, ydata, 'o'); hold on;
plt = plot(times, myfun1(x0, times), 'r');
model = @(x,xdata) myfun1(x, xdata, times, plt);
[x_lm, ~, ~, ~, output] = lmcurvefit(model, x0, xdata, ydata,[],[],[],[])
%% Example 2 (Box Constrained Curve Fitting)
close all
xdata = linspace(0, 3)';
ydata = exp(-1.3*xdata)+0.05*rand(size(xdata));
lb = [0;-2];
ub = [3/4; -1];
x0 = [1/2;-2];
scatter(xdata, ydata, 'o'); hold on;
plt = plot(xdata, myfun2(x0, xdata), 'r');
model = @(x,xdata) myfun2(x, xdata, xdata, plt);
[x_lm, ~, resnorm_lm, residual_lm, output] = ...
            lmcurvefit(model, x0, xdata, ydata, [], [], lb, ub);
%% Example 3 (Linear InEquality Constraint)
close all; clc
rng default
xdata = linspace(2,7)';
ydata = myfun3([2,4,5,0.5]',xdata) + 0.1*randn(size(xdata));
lb = zeros(4,1);
ub = 7*ones(4,1);
A = [-1 -1 1 1];
b = 0;
startpt = [1 2 3 1]';
options = optimoptions(@lsqcurvefit, Display='iter');
scatter(xdata, ydata, 'o'); hold on;
plt = plot(xdata, myfun3(startpt,xdata), 'r');
fineq = @(x)A*x - b; 
fun = @(x, xdat) myfun3(x,xdat, plt);
[x_lm, ~, resnorm_lm, residual_lm, output_lm] = ...
    lmcurvefit(fun, startpt, xdata, ydata, fineq, [], lb, ub);
%% Example 4 (Nonlinear InEquality Constraint)
close all; clc
rng default
xdata = linspace(2,7)';
ydata = myfun3([2,4,5,0.5]',xdata) + 0.1*randn(size(xdata));
lb = zeros(4,1);
ub = 7*ones(4,1);
startpt = [1 2 3 1]';
options = optimoptions(@lsqcurvefit, Display='iter');
scatter(xdata, ydata, 'o'); hold on;
plt = plot(xdata, myfun3(startpt,xdata), 'r');
fineq = @(x)x(1)^2 + x(2)^2 - 4^2; 
fun = @(x, xdat) myfun3(x,xdat, plt);
[x_lm, ~, resnorm_lm, residual_lm, output_lm] = ...
    lmcurvefit(fun, startpt, xdata, ydata, fineq, [], lb, ub);
%% model functions
function F = myfun1(x,xdata, times, plt)
    F = x(1)*exp(x(2)*xdata);
    if(nargin > 2)
        plt.YData = x(1)*exp(x(2)*times); 
        drawnow; pause(0.01);
    end
end
function F = myfun2(x,xdata, times, plt)
    F = x(1)*exp(x(2)*xdata);
    if(nargin >2)
        plt.YData = x(1)*exp(x(2)*times); 
        drawnow; pause(0.01);
    end
end
function F = myfun3(x,xdata, plt)
    a = x(1); b = x(2); t0 = x(3); c = x(4);
    F = a + b*atan(xdata - t0) + c*xdata;
    if(nargin>2)
        plt.YData = F; 
        drawnow; pause(0.01);
    end
end

Cite As

Lateef Adewale Kareem (2024). lmcurvefit (https://www.mathworks.com/matlabcentral/fileexchange/172344-lmcurvefit), MATLAB Central File Exchange. Retrieved November 21, 2024.

MATLAB Release Compatibility

Created with R2024a

Compatible with any release

Platform Compatibility

Windows macOS Linux

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Version	Published	Release Notes
2.0.0	17 Sep 2024	Algorithm is improved with back tracking. function handle for the updating the figure has been removed. But the example still shows how to achieve that by updating the plot inside the objective function.	Download
1.0.25	10 Sep 2024	corrected second example	Download
1.0.2	10 Sep 2024	Added functionality for bound and constraints. added jacobian file too.	Download
1.0.1	8 Sep 2024	improved stopping criteria	Download
1.0.0	8 Sep 2024		Download