Using the non-local means filter [Coupe08] and [Coupe11] and you can denoise 3D or 4D images and boost the SNR of your datasets. You can also decide between modeling the noise as Gaussian or Rician (default).
import numpy as np
import nibabel as nib
import matplotlib.pyplot as plt
from time import time
from dipy.denoise.nlmeans import nlmeans
from dipy.denoise.noise_estimate import estimate_sigma
from dipy.data import fetch_sherbrooke_3shell, read_sherbrooke_3shell
fetch_sherbrooke_3shell()
img, gtab = read_sherbrooke_3shell()
data = img.get_data()
affine = img.affine
mask = data[..., 0] > 80
# We select only one volume for the example to run quickly.
data = data[..., 1]
print("vol size", data.shape)
# lets create a noisy data with Gaussian data
In order to call non_local_means
first you need to estimate the standard
deviation of the noise. We use N=4 since the Sherbrooke dataset was acquired
on a 1.5T Siemens scanner with a 4 array head coil.
sigma = estimate_sigma(data, N=4)
t = time()
Calling the main function non_local_means
t = time()
den = nlmeans(data, sigma=sigma, mask=mask, patch_radius= 1, block_radius = 1, rician= True)
print("total time", time() - t)
Let us plot the axial slice of the denoised output
axial_middle = data.shape[2] // 2
before = data[:, :, axial_middle].T
after = den[:, :, axial_middle].T
difference = np.abs(after.astype('f8') - before.astype('f8'))
difference[~mask[:, :, axial_middle].T] = 0
fig, ax = plt.subplots(1, 3)
ax[0].imshow(before, cmap='gray', origin='lower')
ax[0].set_title('before')
ax[1].imshow(after, cmap='gray', origin='lower')
ax[1].set_title('after')
ax[2].imshow(difference, cmap='gray', origin='lower')
ax[2].set_title('difference')
plt.savefig('denoised.png', bbox_inches='tight')
nib.save(nib.Nifti1Image(den, affine), 'denoised.nii.gz')
An improved version of non-local means denoising is adaptive soft coefficient matching, please refer to example_denoise_ascm for more details.
[Coupe08] | P. Coupe, P. Yger, S. Prima, P. Hellier, C. Kervrann, C. Barillot, “An Optimized Blockwise Non Local Means Denoising Filter for 3D Magnetic Resonance Images”, IEEE Transactions on Medical Imaging, 27(4):425-441, 2008 |
[Coupe11] | Pierrick Coupe, Jose Manjon, Montserrat Robles, Louis Collins. “Adaptive Multiresolution Non-Local Means Filter for 3D MR Image Denoising” IET Image Processing, Institution of Engineering and Technology, 2011 |
Example source code
You can download the full source code of this example
. This same script is also included in the dipy source distribution under the doc/examples/
directory.