interpolating the 2d line to make the new coordinates equi-distant

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tafteh am 12 Feb. 2013

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Hi all;

I have a 2d line which is a x and y vector. I would like to interpolate that line such that the new x, y coordinates are uniformly distributed along the line. I mean I get a line which the x and y coordinate are equi-distance. As if we are moving along this curve with constant speed.

Is there any way to do this? I would appreciate if you could help me out in this.

Thanks

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Answer 1

Sven am 12 Feb. 2013

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Hi Payam, try this:

pathXY = [0 0; 1 1; 10 2; 12 3]
stepLengths = sqrt(sum(diff(pathXY,[],1).^2,2))
stepLengths = [0; stepLengths] % add the starting point
cumulativeLen = cumsum(stepLengths)
finalStepLocs = linspace(0,cumulativeLen(end), 100)
finalPathXY = interp1(cumulativeLen, pathXY, finalStepLocs)

Is that what you were looking for?

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Answer 2

tafteh am 14 Feb. 2013

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Thanks a ton Sven. That is the answer I needed. Appreciate it.

However, out of my cuorisity, why do we have to calculate the cumulutive sum of all the distances? Can we have the

linspace(0, sum(stepLengths), 100)

instead of

linspace(0,cumulativeLen(end), 100)?

or there any other reason to calculate the cumulativeLen vector?

thanks, Payam

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Sven am 14 Feb. 2013

Check out the help for the interp1 function - it takes as its first argument something that relies on the true distance between each of your input points. If you simply use linspace(0,finalDist,100), then you will be telling MATLAB "all my points are equally spaced apart" (even though they are not).

There is no difference between sum(stepLengths) and cumulativeLen(end)... it's just that I already have (and need) the cumLen so I may as well use it rather than make a new sum.

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