Plot line of best fit for semilog plot

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William Gray
William Gray el 1 de Mayo de 2020
Comentada: Star Strider el 1 de Mayo de 2020
Hi everyone,
So I have seen a few answers on here similar to the question I am asking but I cannot seem to apply the solutions sucessfully.
The code here is with made up numbers but the magnitude of jump between the data is reprasentative of the real thing.
PM on the x-axis increases linearly but RS on the Y-axis does not. I have applied a log scale to the y-axis and attempted to fit a line of best fit but the line is not sitting well with the data and I get a 'negative values ignored' warning?
Any help much appreciated!!
RS = [1, 0.2, 0.15, 0.1, 0.05];
PM = [1, 2, 3, 4, 5];
pmS = polyfit(PM,log(RS),2);
rs = polyval(pmS,PM);
figure('Units', 'pixels', ...
'Position', [100 200 500 375]);
hold on
sfitRS = line(PM,RS);
set(sfitRS,...
'LineStyle','none',...
'Marker','o',...
'MarkerSize',10,...
'MarkerEdgeColor',[0.3 0.3 0.3])
hold on
LOBF = plot(PM,rs); %line of best fit
set(gca, ...
'XMinorTick' , 'on' , ...
'YMinorTick' , 'on' , ...
'XGrid' , 'on' , ...
'YGrid' , 'on' , ...
'YScale' , 'log' , ...
'LineWidth' , 1 );
  1 comentario
jessupj
jessupj el 1 de Mayo de 2020
if anything you've plotted in 'regular' coordinates has negative y values, imposing a log scale on the yaxis in effect is attempting to take the logarithm of negative numbers.
it looks like your line of best fit is already logarithmically transformed, since your pmS is fit to the log of the numbers.
look at:
plot(PM,log(RS),'ok','MarkerSize',10,'MarkerEdgeColor',[0.3 0.3 0.3])
hold on
plot(PM,rs); %line of best fit

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Star Strider
Star Strider el 1 de Mayo de 2020
It is not generally appropriate to transform possibly noisy data and then attempt to do a linear fit on it (polyfit does linear fitting), since the assumption is that the errors are normaly distributed. The logarithmic transformation makes them instead lognormally distributed, and multiplicative rather than additive.
Try this instead:
RS = [1, 0.2, 0.15, 0.1, 0.05];
PM = [1, 2, 3, 4, 5];
f = @(b,x) exp(b(1)) .* exp(b(2).*x) + b(3); % Exponential Fit With Y-Offset
B = fminsearch(@(b) norm(RS - f(b,PM)), [1; 1; 1]); % Estimate Parameters
figure
plot(PM, RS, 'p')
hold on
plot(PM, f(B,PM), '-r')
hold off
grid
.
  2 comentarios
jessupj
jessupj el 1 de Mayo de 2020
Editada: jessupj el 1 de Mayo de 2020
polyfit does polynomial fitting, not just linear fitting. your points aside, the OP actually chose a quadratic fit and may have had a reason for choosing this particular model rather than C*exp(rx)+b.
Star Strider
Star Strider el 1 de Mayo de 2020
The polyfit function does a linear least squares fit. That some of the x-variables are raised to powers to produce polynomials does not change that.
The nonlinear fit I propose correctly models the data presented.

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