I'm trying to normalize this grayscale xray images dataset https://www.kaggle.com/paultimothymooney/chest-xray-pneumonia

I have a few doubts

1)I looked up some of the projects done using the same dataset and this one below has three mean values (presumably for the three channels). But since this is a grayscale image dataset how can it have mean pixel values for 3 channels? Shouldn't it just be one number between 0 and 1? (https://www.kaggle.com/brennolins/image-classification-pytorch-transfer-learning)

  1. In an attempt to find the mean and std, I attempted to do this -

     train_loader = DataLoader(dataset = train_set, batch_size=64, 
     def get_mean_std(loader):
         channels_sum, channels_square_sum, num_batches= 0, 0, 0
         for data, _ in loader:
             channels_sum += torch.mean(data, dim=[])
             channels_square_sum += torch.mean(data**2, dim = [0,2,3])
             num_batches += 1
         std= (channels_square_sum/num_batches - mean**2)
         return mean, std
     mean, std= get_mean_std(train_loader) 

It gives me one single value as my pixel mean. I ran this twice and I got two different mean values and a different set of std values. How can this happen?

This is the transformation Im trying to apply to my training set -

transf_train = tt.Compose([
    tt.RandomCrop(54, padding=4, padding_mode='reflect'),
    tt.ToTensor(), # converts pixels [0-255] to tensors [0-1]
    tt.Normalize(mean = [0.485, 0.456, 0.406], std = [0.229, 0.224, 0.225])]) 

(I've taken these current values from the pytorch project done above. I wanted to know how I can find these out myself and how there are three mean channels when the images are grayscale)

thank you!

1 Answer 1


You get different numbers because the tt.RandomCrop introduces randomness into the data. You need to go once over the training set and compute mean and std without augmentations.

  • Ahhh I see, thanks! Would you also happen to know why this kaggle project used 3 channels' mean values instead of one? Dec 16, 2021 at 14:37

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