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I have a numpy array of images of shape (N, H, W, C) where N is the number of images, H the image height, W the image width and C the RGB channels.

I would like to standardize my images channel-wise, so for each image I would like to channel-wise subtract the image channel's mean and divide by its standard deviation.

I did this in a loop, which worked, however it is very inefficient and as it makes a copy my RAM is getting too full.

def standardize(img):
    mean = np.mean(img)
    std = np.std(img)
    img = (img - mean) / std
    return img

for img in rgb_images:
    r_channel = standardize(img[:,:,0])
    g_channel = standardize(img[:,:,1])
    b_channel = standardize(img[:,:,2])
    normalized_image = np.stack([r_channel, g_channel, b_channel], axis=-1)
    standardized_images.append(normalized_image)
standardized_images = np.array(standardized_images)

How can I do this more efficiently making use of numpy's capabilities?

1 Answer 1

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Perform the ufunc reductions (mean, std) along the second and third axes, while keeping the dims intact that help in broadcasting later on with the division step -

mean = np.mean(rgb_images, axis=(1,2), keepdims=True)
std = np.std(rgb_images, axis=(1,2), keepdims=True)
standardized_images_out = (rgb_images - mean) / std

Boost the performance further by re-using the average values to compute standard-deviation, according to its formula and hence inspired by this solution , like so -

std = np.sqrt(((rgb_images - mean)**2).mean((1,2), keepdims=True))

Packaging into a function with the axes for reductions as a parameter, we would have -

from __future__ import division

def normalize_meanstd(a, axis=None): 
    # axis param denotes axes along which mean & std reductions are to be performed
    mean = np.mean(a, axis=axis, keepdims=True)
    std = np.sqrt(((a - mean)**2).mean(axis=axis, keepdims=True))
    return (a - mean) / std

standardized_images = normalize_meanstd(rgb_images, axis=(1,2))
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  • Can you explain how the axis argument works in this case? I couldn't see that this is possible. And its necessary to keepdims to do the subtraction and division later on? Besides, great answer! I verify tomorrow and give you the credits.
    – Chris
    May 8, 2018 at 19:59
  • @Chris This should help out on axis - docs.scipy.org/doc/numpy-1.13.0/reference/ufuncs.html#methods. keepdims is necessary is to keep the no. of dims, as needed for broadcasting later on.
    – Divakar
    May 8, 2018 at 20:02
  • Just to make something clear, your operations make a copy as well, right? Is there a way to make the subtraction and division operations in-place?
    – Chris
    May 9, 2018 at 7:57
  • @Chris At the last step, use out = param for numpy.subtract and numpy.divide to replace those corresponding operations.
    – Divakar
    May 9, 2018 at 9:08
  • so np.subtract(rgb_images, mean, out=rgb_images) works? Or would it cause problems to write into the same array as the one used as the first argument? And what is the difference compared to rgb_images -= mean?
    – Chris
    May 9, 2018 at 11:38

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