How do i extrapolate the points of intersection?
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I have the following code:
data = importdata('C:\...\C_V20_b1.mat');
[r c] = size(data);
figure;
for i = 1:2:c
X = data(:,i); % Extract 2/4/6 column (cm)
Y = data(:,i+1); % Extract 1/3/5 column (%)
plot(X,Y) % Plot graph with horizontal error bar
xlabel('Distance (cm)'); % X-axis Label
ylabel('Dose (%)'); % Y-axis Label
hold on;
end
legend('Abdomen','Head & Neck','Pelvic','Thorax');
hline = refline([0,90]);
hline.Color = 'k';
Since my datas are compiled in a variable file, is there anyway that I can obtain the values of these intersections from 2nd figure where the reference line intercept with the 4 graphs?
Thank you in advance:)
Amanda
Accepted Answer
Star Strider
on 11 Jan 2017
We don’t have your data, so we can only guess at solutions. It seems to be a relatively straightforward problem to find the approximate indices of the values near 90. With those, looping (if there are more than one x-value where y=90) to get the necessary range of values and then interpolating is straightforward.
Example (using what data we do have):
x90 = interp1([89.8080, 90.1148], [7.8784, 7.8909], 90, 'linear')
x90 =
7.8862
More Answers (2)
KSSV
on 11 Jan 2017
For a curve, you have x,y data. You want to find the x value at y = 90.
This can be done with interp1. Try
interp1(y,x,90)
1 Comment
Amanda Lee
on 11 Jan 2017
x = 1:18;
y = [0 0 10 10 20 30 100 100 110 95 70 60 56 100 100 97 60 30]
d = diff( y > 90 );
idx = find( d );
idx = [idx; idx + 1];
vals = y( idx );
xVals = idx(1,:) + ( 90 - vals(1,:) ) ./ diff( vals );
should give you the x values with intersections at y = 90. I created a quick example that has multiple crossing points, to check that it works in a more complex case than just the two crossing points. There may well be simpler ways too, involving interpolation, though that is usually done to find y in terms of x rather than find x for multiple y values.
3 Comments
Amanda Lee
on 11 Jan 2017
Adam
on 11 Jan 2017
8456.8705 looks suspicious, but 631.6258 seems fine from what you show beneath.
You seem to be confusing extrapolation and interpolation though. It is interpolation you want and given your position values 631.6258 looks about right for the interpolated x value for Y = 90. Obviously it isn't a positive integer. If you just want the nearest sample of those you have on the graph rather than interpolating then that will be an integer, but that is trivial.
The other xVals value returned looks completely wrong, but I don't have your data so I can't test what is going on there.
Amanda Lee
on 11 Jan 2017
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