How to find the distance between two points along a curve?

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Sathiya le 26 Avr 2024

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Commenté : Mathieu NOE le 29 Avr 2024

I have a set of generated X and Y axis data, which have given a curved line. Now, I need to find the distance between two specified points along the curve, not the straight shortest distance between two points but along the curve path. Can someone help me finding this numerically?

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Mathieu NOE le 26 Avr 2024

dr represents only the increment of arc length (quite constant in this example)

now you need to do a sum of them - see my answer

Sathiya le 29 Avr 2024

@Sam Chak, dr here gives the shortest distance (displacement) between two points. For eg. lets say, I need the distance along the curve from 1st point and 50th point, this formula finds the straight distance between data points, not along the curve.

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Mathieu NOE le 26 Avr 2024

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Modifié(e) : Mathieu NOE le 26 Avr 2024

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hello

try this

th = linspace(-pi/2, pi/2, 100);

R = 200;

X = R * sin(th) ; % X-coordinates

Y = R * cos(th) ; % Y-coordinates

dx = diff(X);

dy = diff(Y);

ds = sqrt(dx.^2+dy.^2); % increment of arc length

s = cumsum(ds); % integration => total arc length

s = [0 s]; % add first point : arc length = 0

% compute arc length between two points (defined by index position)

k1 = 25;

k2 = 59;

d = s(k2) - s(k1)

d = 215.7771

plot(X, Y, 'r.-',X(k1:k2), Y(k1:k2), 'db');

axis square

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Torsten le 27 Avr 2024

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If you have an explicit equation of your curve, you can use the usual formula for arclength:

R = 200;
fun = @(t)sqrt((R*cos(t)).^2+(R*(-sin(t))).^2)
fun = function_handle with value:
    @(t)sqrt((R*cos(t)).^2+(R*(-sin(t))).^2)
length_of_curve = integral(fun,-pi/2,pi/2)
length_of_curve = 628.3185
2*pi*R/2
ans = 628.3185

Sathiya le 29 Avr 2024

Yes, but I donot have a curve fitted equation for my curve.

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Walter Roberson le 27 Avr 2024

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Use https://www.mathworks.com/matlabcentral/fileexchange/34871-arclength

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Sathiya le 29 Avr 2024

@Mathieu NOE, understood. Now it is perfect to use then. Thanks Mathieu and all others who spent their time for my problem.

Mathieu NOE le 29 Avr 2024

my pleasure !!

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