Hi, I have 4 vectors as input and 1 vector as output. I want to do an interpolation following the instructions given here: https://www.mathworks.com/help/matlab/ref/interpn.html --> Vq = interpn(X1,X2,X3,X4,V,Xq1,Xq2,Xq3,Xq4) where Xq1, ..., Xq4 are scalars and equal to Xqi = Xi(1) (it is just a test). However, I got the following error: Interpolation requires at least two sample points for each grid dimension. If I look at section 4-D Interpolation, it can be seen that 4D grids are constructed and after these points are passed through the function and a 4D structure is obtained for V. In my case, I don't have a function. I just have a vector for the output V. How I can make it work with my vector type of data?

4-D Interpolation using interpn

Jan on 26 Nov 2022

"I have 4 vectors as input and 1 vector as output."

X1,X2,X3,X4,V,Xq1,Xq2,Xq3,Xq4 - these are 9 inputs.

mary on 26 Nov 2022

Jan,

X1,X2,X3,X4 are 4 input vectors and V the corresponding output. Xq2,Xq3,Xq4 are the query points. In the link, it is written:

"Vq = interpn(X1,X2,...,Xn,V,Xq1,Xq2,...,Xqn) returns interpolated values of a function of n variables at specific query points using linear interpolation. The results always pass through the original sampling of the function. X1,X2,...,Xn contain the coordinates of the sample points. V contains the corresponding function values at each sample point. Xq1,Xq2,...,Xqn contain the coordinates of the query points."

For 1D application, they use: vq = interpn(x,v,xq,'cubic');

So, probably, we cannot apply it as Vq = interpn(X1,X2,X3,X4,V,Xq1,Xq2,Xq3,Xq4) for my case. That is why in the link, they use ngrid. But the problem is that in that link for a 4D interpolation there is a function f(x,y,z,t) that can give a value for any combination of x, y, z. In my case, I have an output vector for the specific values of 4 input vectors.

Torsten on 26 Nov 2022

What is size(X1),size(X2),size(X3), size(X4) and size(V) in your case ?

mary on 26 Nov 2022

they all have the same size which is 597x1.

Torsten on 26 Nov 2022

Edited: Torsten on 26 Nov 2022

But if X1,X2,X3,X4 have size 597 x 1, V must have size 597x597x597x597

You must supply V(i,j,k,l) for X1(i),X2(j),X3(k),X4(l) in order to make a grid interpolation using interpn.

mary on 26 Nov 2022

Open in MATLAB Online

Ok, I see. So you mean that each time one parameter changes and the other 3 remain constants. Like the example given in that link and reported here, we see that in each row, X1 remains unchanged while X2 is changing.

[X1,X2] = ndgrid(-1:3,(1:4))

Otherwise, we cannot do the interpolation. Is it right?

Torsten on 26 Nov 2022

Edited: Torsten on 26 Nov 2022

Open in MATLAB Online

Otherwise, we cannot do the interpolation. Is it right?

One can always interpolate somehow, but not with interpn.

Are your points (X1,X2,X3,X4) somehow regularly distributed in 4-dimensional space or wildly scattered ?

Maybe a fit for a, b, c and d with the equation

V = a*X1 + b*X2 + c*X3 + d*X4

can give satisfactory results.

Try "fun" as linear approximation function for V:

A = [X1,X2,X3,X4];
b = V;
sol = A\b;
fun = @(x1q,x2q,x3q,x4q) sol(1)*x1q+sol(2)*x2q+sol(3)*x3q+sol(4)*x4q

mary on 26 Nov 2022

Edited: mary on 26 Nov 2022

Thank you Torsten for your response. Actually the function that links X1, X2, X3 and X4 to V is highly non-linear. My objective is to build a look-up table that can be coupled to another program. So, if there is any best practice to make this lookup table, I will follow. So, this means that I can make my (X1,X2,X3,X4) regularly distributed. What are the best practice to follow? Make one parameter constant, and make 3 other change?

Torsten on 27 Nov 2022

So you have a code to generate V from given values for X1,...,X4 ? And in order to save computing time, you want to build a look-up table instead of calling the function that calculates V from X1,...,X4 every time ?

mary on 27 Nov 2022

Yes, that is what I want to do.

Matt J on 27 Nov 2022

Edited: Matt J on 27 Nov 2022

X1,X2,X3,X4 are 4 input vectors and V the corresponding output. Xq2,Xq3,Xq4 are the query points.

I suggest attaching them in a .mat file, so that we can run the interpolation ourselves.

The error message is complaining that one of X1,X2,X3,X4 is a scalar, rather than a 597x1 vector, as you expect it to be.

Torsten on 27 Nov 2022

Open in MATLAB Online

Yes, that is what I want to do.

Then why don't you call your function V(X1,X2,X3,X4) over a full grid as required by "interpn", save the results in an array V(x1,x2,x3,x4) and then use this V-array for a table-lookup by "interpn" ?

Something like

for i = 1:597
    for j = 1:597
        for k = 1:597
            for l = 1:597
                V(i,j,k,l) = function_for_V(X1(i),X2(j),X3(k),X4(l));
            end
        end
    end
end

mary on 27 Nov 2022

I'll do that. Thank you.

4-D Interpolation using interpn

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