I want to apply various filters like GLCM or Gabor filter bank as a custom layer in Tensorflow, but I could not find enough custom layer samples. How can I apply these type of filters as a layer?

The process of generating GLCM is defined in the scikit-image library as follows:

```
from skimage.feature import greycomatrix, greycoprops
from skimage import data
#load image
img = data.brick()
#result glcm
glcm = greycomatrix(img, distances=[5], angles=[0], levels=256, symmetric=True, normed=True)
```

The use of Gabor filter bank is as follows:

```
import matplotlib.pyplot as plt
import numpy as np
from scipy import ndimage as ndi
from skimage import data
from skimage.util import img_as_float
from skimage.filters import gabor_kernel
shrink = (slice(0, None, 3), slice(0, None, 3))
brick = img_as_float(data.brick())[shrink]
grass = img_as_float(data.grass())[shrink]
gravel = img_as_float(data.gravel())[shrink]
image_names = ('brick', 'grass', 'gravel')
images = (brick, grass, gravel)
def power(image, kernel):
# Normalize images for better comparison.
image = (image - image.mean()) / image.std()
return np.sqrt(ndi.convolve(image, np.real(kernel), mode='wrap')**2 +
ndi.convolve(image, np.imag(kernel), mode='wrap')**2)
# Plot a selection of the filter bank kernels and their responses.
results = []
kernel_params = []
for theta in (0, 1):
theta = theta / 4. * np.pi
for sigmax in (1, 3):
for sigmay in (1, 3):
for frequency in (0.1, 0.4):
kernel = gabor_kernel(frequency, theta=theta,sigma_x=sigmax, sigma_y=sigmay)
params = 'theta=%d,f=%.2f\nsx=%.2f sy=%.2f' % (theta * 180 / np.pi, frequency,sigmax, sigmay)
kernel_params.append(params)
# Save kernel and the power image for each image
results.append((kernel, [power(img, kernel) for img in images]))
fig, axes = plt.subplots(nrows=6, ncols=4, figsize=(5, 6))
plt.gray()
fig.suptitle('Image responses for Gabor filter kernels', fontsize=12)
axes[0][0].axis('off')
# Plot original images
for label, img, ax in zip(image_names, images, axes[0][1:]):
ax.imshow(img)
ax.set_title(label, fontsize=9)
ax.axis('off')
for label, (kernel, powers), ax_row in zip(kernel_params, results, axes[1:]):
# Plot Gabor kernel
ax = ax_row[0]
ax.imshow(np.real(kernel))
ax.set_ylabel(label, fontsize=7)
ax.set_xticks([])
ax.set_yticks([])
# Plot Gabor responses with the contrast normalized for each filter
vmin = np.min(powers)
vmax = np.max(powers)
for patch, ax in zip(powers, ax_row[1:]):
ax.imshow(patch, vmin=vmin, vmax=vmax)
ax.axis('off')
plt.show()
```

How do I define these and similar filters in tensorflow.

I tried above code but it didnt gave the same results like : https://scikit-image.org/docs/dev/auto_examples/features_detection/plot_gabor.html

```
import numpy as np
import matplotlib.pyplot as plt
import tensorflow.keras.backend as K
from tensorflow.keras import Input, layers
from tensorflow.keras.models import Model
from scipy import ndimage as ndi
from skimage import data
from skimage.util import img_as_float
from skimage.filters import gabor_kernel
import os
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '2'
def gfb_filter(shape,size=3, tlist=[1,2,3], slist=[2,5],flist=[0.01,0.25],dtype=None):
print(shape)
fsize=np.ones([size,size])
kernels = []
for theta in tlist:
theta = theta / 4. * np.pi
for sigma in slist:
for frequency in flist:
kernel = np.real(gabor_kernel(frequency, theta=theta,sigma_x=sigma, sigma_y=sigma))
kernels.append(kernel)
gfblist = []
for k, kernel in enumerate(kernels):
ck=ndi.convolve(fsize, kernel, mode='wrap')
gfblist.append(ck)
gfblist=np.asarray(gfblist).reshape(size,size,1,len(gfblist))
print(gfblist.shape)
return K.variable(gfblist, dtype='float32')
dimg=img_as_float(data.brick())
input_mat = dimg.reshape((1, 512, 512, 1))
def build_model():
input_tensor = Input(shape=(512,512,1))
x = layers.Conv2D(filters=12,
kernel_size = 3,
kernel_initializer=gfb_filter,
strides=1,
padding='valid') (input_tensor)
model = Model(inputs=input_tensor, outputs=x)
return model
model = build_model()
out = model.predict(input_mat)
print(out)
o1=out.reshape(12,510,510)
plt.subplot(2,2,1)
plt.imshow(dimg)
plt.subplot(2,2,2)
plt.imshow(o1[0,:,:])
plt.subplot(2,2,3)
plt.imshow(o1[6,:,:])
plt.subplot(2,2,4)
plt.imshow(o1[10,:,:])
```

`tf.keras`

layer?`theta`

,`frequency`

or`sigma`

, you are doing a cross-correlation in the real domain vs a completely different op in the scikit example (square root of the convolution with both the real and the imaginary part of the kernel). You are also changing the kernel when you convolve it with a fixed size array of 1. Not as well that by using a Conv2D layer, your filter bank will change during training. Is it something that you want?1more comment