|TensorFlow 2.0 version||View source on GitHub|
Computes SSIM index between img1 and img2.
tf.image.ssim( img1, img2, max_val, filter_size=11, filter_sigma=1.5, k1=0.01, k2=0.03 )
This function is based on the standard SSIM implementation from: Wang, Z., Bovik, A. C., Sheikh, H. R., & Simoncelli, E. P. (2004). Image quality assessment: from error visibility to structural similarity. IEEE transactions on image processing.
- 11x11 Gaussian filter of width 1.5 is used.
- k1 = 0.01, k2 = 0.03 as in the original paper.
The image sizes must be at least 11x11 because of the filter size.
# Read images from file. im1 = tf.decode_png('path/to/im1.png') im2 = tf.decode_png('path/to/im2.png') # Compute SSIM over tf.uint8 Tensors. ssim1 = tf.image.ssim(im1, im2, max_val=255, filter_size=11, filter_sigma=1.5, k1=0.01, k2=0.03) # Compute SSIM over tf.float32 Tensors. im1 = tf.image.convert_image_dtype(im1, tf.float32) im2 = tf.image.convert_image_dtype(im2, tf.float32) ssim2 = tf.image.ssim(im1, im2, max_val=1.0, filter_size=11, filter_sigma=1.5, k1=0.01, k2=0.03) # ssim1 and ssim2 both have type tf.float32 and are almost equal.
img1: First image batch.
img2: Second image batch.
max_val: The dynamic range of the images (i.e., the difference between the maximum the and minimum allowed values).
filter_size: Default value 11 (size of gaussian filter).
filter_sigma: Default value 1.5 (width of gaussian filter).
k1: Default value 0.01
k2: Default value 0.03 (SSIM is less sensitivity to K2 for lower values, so it would be better if we taken the values in range of 0< K2 <0.4).
A tensor containing an SSIM value for each image in batch. Returned SSIM values are in range (-1, 1], when pixel values are non-negative. Returns a tensor with shape: broadcast(img1.shape[:-3], img2.shape[:-3]).