6

All,

I THINK that I'm looking for a function for Trilinear interpolation.

Here's the details:

I have a three dimensional dataset:

  • Dimension 1 varies from 0 to 100 in increments of 5
  • Dimension 2 varies from 0 to 100 in increments of 5
  • Dimension 3 varies from 0 to 1 in increments of 0.1

So, I have 4851 total values (21 x 21 x 11).

If I need to find the value for (10, 25, 0.3) - that's easy - I can just look it up in the 3-dimensional array.

But, I need to be able to come up with the best approximation, given dimensional values of (17,48,0.73), for example.

So, I think that what I'm looking for is a trilinear interpolation (although I'd definitely appreciate any suggestions for a better method, or a hint that I'm on the wrong topic altogether...)

A quick google search turns up this formula:

Vxyz = 
V000(1-x)(1-y)(1-z) +
V100x(1-y)(1-z) +
V010(1-x)y(1-z) +
V001(1-x)(1-y)z +
V101x(1-y)z +
V011(1-x)yz +
V110xy(1-z) +
V111xyz 

Which looks like what I'm looking for, but I'm not sure what x, y, and z represent. If I had to guess, x is a ratio - the distance of my "target" first dimension value from the nearest two values I have, y is the ratio for the second dimension, and z is the ratio for the third dimension.

Of course, since I don't really know what I'm talking about, I wouldn't know if this is right or wrong.

So, ideally, I'd like a bit of Javascript or pseudo-code that shows exactly how to accomplish this.

Many thanks in advance!

  • What are you using it for? Just curious :) – Matt Baker Oct 29 '09 at 6:27
  • 1
    Matt - it's sort of a financial planning application. I've been given a table by my client's investment consulting group. The three dimensions are your age, your planned retirement age, and your portfolio's equity/bond ratio; the table presents the projected retirement income your portfolio will produce. So, if you're 30, planning to retire at 65, and 85% of your portfolio is in equity, your portfolio will produce $x in retirement income. Works great, except the intervals are large, and I need to be able to estimate the value for inputs between the intervals. – mattstuehler Oct 29 '09 at 14:51
6

The code you are looking at is trying to do a weighted average of the 8 points of the cube with vertices that are in your dataset, and which encloses the point you are trying to find a value for.

For a point p

// Find the x, y and z values of the 
// 8 vertices of the cube that surrounds the point
x0 = Math.floor(p.x / 5);
x1 = Math.floor(p.x / 5) + 1;

y0 = Math.floor(p.y / 5);
y1 = Math.floor(p.y / 5) + 1;

z0 = Math.floor(p.z / .1);
z1 = Math.floor(p.z / .1) + 1;

// Look up the values of the 8 points surrounding the cube
p000 = dataset[x0][y0][z0];
p001 = dataset[x0][y0][z1];
// ...

// Find the weights for each dimension
x = (x - x0) / 5;
y = (y - y0) / 5;
z = (z - z0) / .1;

// Compute the guess using the method you found
// ...
|improve this answer|||||
  • Daniel, Many thanks for this response! Looks like exactly what I need. Cheers, Matt – mattstuehler Oct 29 '09 at 5:38

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.