finding the slope of each segement in a fitted curve

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Salma fathi
Salma fathi am 13 Apr. 2022
Kommentiert: Salma fathi am 14 Apr. 2022
having the following plot,
Is there a method that would allow me to find the slope of each segment in this plot or at least, how I cann retrieve the x , y coordinates for the points on the plot so I can use them to find the slope?
attached is the data I am fitting, the x coordinate is GDALT variable and the y coordinate is the NE variabel. I used the curve fitting toolbox to generate this plot.
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Akira Agata
Akira Agata am 14 Apr. 2022
Ran in:
It might be better to smoothen your data before calculating slope for each point, like:
T = readtable('https://jp.mathworks.com/matlabcentral/answers/uploaded_files/963595/t1.txt');
idx = isnan(T.NE);
T(idx, :) = [];
x = linspace(T.GDALT(1), T.GDALT(end));
y = interp1(T.GDALT, T.NE, x, 'spline');
figure
plot(T.GDALT, T.NE, 'o-')
hold on
plot(x, y)
legend({'Original', 'Smoothed'})
Salma fathi
Salma fathi am 14 Apr. 2022
Bearbeitet: Salma fathi am 14 Apr. 2022
Thank you for your reply, I believe I can do that also by using interpolating via 'cubic spline' instead of 'linear' in the curve fitting toolbox and it would give the same result right?
But I am still not sure how this will help me in finding the slope at the indicated points in the plot...

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Chunru
Chunru am 14 Apr. 2022
Ran in:
T = readtable('https://jp.mathworks.com/matlabcentral/answers/uploaded_files/963595/t1.txt');
idx = isnan(T.NE);
T(idx, :) = [];
x = T.GDALT;
y = T.NE;
plot(x, y, 'o-')
% The slope for each segment
slope = diff(y)./diff(x)
slope = 15×1
1.0e+10 * 0.1733 0.4733 1.0267 1.1600 0.8067 0.3600 -0.1067 -0.3467 -0.4267 -0.4267

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Akira Agata
Akira Agata am 14 Apr. 2022
Ran in:
By applying interpolation, you can decrease and, as a result, the deviation will be more accurate.
The following is an example.
BTW, you don't need to use Curve Fitting Toolbox for interpolation. The function interp1 is in the basic MATLAB.
T = readtable('https://jp.mathworks.com/matlabcentral/answers/uploaded_files/963595/t1.txt');
idx = isnan(T.NE);
T(idx, :) = [];
x = linspace(T.GDALT(1), T.GDALT(end));
y = interp1(T.GDALT, T.NE, x, 'spline');
dy = diff(y)/uniquetol(diff(x));
figure
yyaxis left
plot(T.GDALT, T.NE, 'bo')
hold on
plot(x, y, 'b-')
xlabel('NE')
ylabel('GDALT')
yyaxis right
plot(x(1:end-1),dy)
ylabel('\Delta GDALT / \Delta NE')
legend({'Original', 'Smoothed', 'Slope'})
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Salma fathi
Salma fathi am 14 Apr. 2022
Thank you for the great explanation, I have a better understanding now. Much appreciated.

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