What I want to do is rather simple but I havent found a straightforward approach thus far:

I have a 3D rectilinear grid with float values (therefore 3 coordinate axes -1D numpy arrays- for the centers of the grid cells and a 3D numpy array with the corresponding shape with a value for each cell center) and I want to interpolate (or you may call it subsample) this entire array to a subsampled array (e.g. size factor of 5) with linear interpolation. All the approaches I've seen this far involve 2D and then 1D interpolation or VTK tricks which Id rather not use (portability).

Could someone suggest an approach that would be the equivalent of taking 5x5x5 cells at the same time in the 3D array, averaging and returning an array 5times smaller in each direction?

Thank you in advance for any suggestions

**EDIT:**
Here's what the data looks like, 'd' is a 3D array representing a 3D grid of cells. Each cell has a scalar float value (pressure in my case) and 'x','y' and 'z' are three 1D arrays containing the spatial coordinates of the cells of every cell (see the shapes and how the 'x' array looks like)

```
In [42]: x.shape
Out[42]: (181L,)
In [43]: y.shape
Out[43]: (181L,)
In [44]: z.shape
Out[44]: (421L,)
In [45]: d.shape
Out[45]: (181L, 181L, 421L)
In [46]: x
Out[46]:
array([-0.410607 , -0.3927568 , -0.37780656, -0.36527296, -0.35475321,
-0.34591168, -0.33846866, -0.33219107, -0.32688467, -0.3223876 ,
...
0.34591168, 0.35475321, 0.36527296, 0.37780656, 0.3927568 ,
0.410607 ])
```

What I want to do is create a 3D array with lets say a shape of 90x90x210 (roughly downsize by a factor of 2) by first subsampling the coordinates from the axes on arrays with the above dimensions and then 'interpolating' the 3D data to that array. Im not sure whether 'interpolating' is the right term though. Downsampling? Averaging? Here's an 2D slice of the data: