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I have two matrices that represent the values of a quantity on a grid at different times. I would like to create a third matrix at an intermediate time, whose pixel are interpolated between the two matrices.

I tried with a simple linear interpolation for each pixel, but if I visualize the end product with imshow I don't really have a smooth transition between the frames.

I can't provide a direct example because I'm dealing with a huge dataset but I was wondering whether anyone has ever had a similar problem.

I'm aware of the scipy.interpolate functions, but they seem to come in handy only to interpolate a set of discrete points.

share|improve this question
What about scipy.interpolate.griddata? It takes "an array of size (N, ndim), or a tuple of ndim arrays". – Paulo Almeida Sep 6 '13 at 10:09
up vote 2 down vote accepted

Since the original data is already gridded, you could use ndimage.map_coordinates to interpolate:

import numpy as np
import scipy.ndimage as ndimage
import matplotlib.pyplot as plt

# given 2 arrays arr1, arr2
arr1 = np.linspace(0, 1, 100).reshape(10,10)
arr2 = np.linspace(1, 0, 100).reshape(10,10)

# rejoin arr1, arr2 into a single array of shape (2, 10, 10)
arr = np.r_['0,3', arr1, arr2]

# define the grid coordinates where you want to interpolate
X, Y = np.meshgrid(np.arange(10), np.arange(10))
# 0.5 corresponds to half way between arr1 and arr2
coordinates = np.ones((10,10))*0.5, X, Y

# given arr interpolate at coordinates
newarr = ndimage.map_coordinates(arr, coordinates, order=2).T
fig, ax = plt.subplots(ncols=3)
cmap = plt.get_cmap('Greys')

vmin = np.min([arr1.min(), newarr.min(), arr2.min()])
vmax = np.max([arr1.max(), newarr.max(), arr2.max()])
ax[0].imshow(arr1, interpolation='nearest', cmap=cmap, vmin=vmin, vmax=vmax)
ax[1].imshow(newarr, interpolation='nearest', cmap=cmap, vmin=vmin, vmax=vmax)
ax[2].imshow(arr2, interpolation='nearest', cmap=cmap, vmin=vmin, vmax=vmax)

enter image description here

share|improve this answer

Assuming the matrices to be numpy arrays and since you've only got two points, you could simply implement the (linear) interpolation yourself:

def interp(m1, t1, m2, t2, t_interp):
    return m1 + (m2-m1) / (t2-t1) * (t_interp-t1)

Where m1/m2 can be arbitrarily shaped numpy arrays and t1/t2 their corresponding time-values. t_interp would be time-value at which to interpolate. So this gives m1 for t_interp = t1 and m2 for t_interp = t2.

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thanks for the answer, but as I said it the question this is what I have been trying before. Is there a more sophisticated method? – Brian Sep 6 '13 at 12:14

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