Compare the LBP in python

天大地大妈咪最大 提交于 2020-01-13 02:53:06

问题


I generated a texture image like this

I have to compare two textures. I have used histogram comparison method.

image_file = 'output_ori.png'
img_bgr = cv2.imread(image_file)
height, width, channel = img_bgr.shape

hist_lbp = cv2.calcHist([img_bgr], [0], None, [256], [0, 256])
print("second started")

image_fileNew = 'output_scan.png'
img_bgr_new = cv2.imread(image_fileNew)
height_new, width_new, channel_new = img_bgr_new.shape
print("second lbp")

hist_lbp_new = cv2.calcHist([img_bgr_new], [0], None, [256], [0, 256])

print("compar started")

compare = cv2.compareHist(hist_lbp, hist_lbp_new, cv2.HISTCMP_CORREL)

print(compare)

But this method is not effective. It shows similar results for two different image textures. Also it is not showing too much of variation to identify Print & Scan effect. How do I compare the textures? I thought of analysing the GLCM characteristics.

import cv2
import numpy as np
from skimage.feature import greycomatrix

img = cv2.imread('images/noised_img1.jpg', 0)

image = np.array(img, dtype=np.uint8)
g = greycomatrix(image, [1, 2], [0, np.pi/2], levels=4, normed=True, symmetric=True)
contrast = greycoprops(g, 'contrast')
print(contrast)

In this method, I am getting the output as 2*2 matrix. How do I compare two matrices of several features like contrast, similarity, homogeneity, ASM, energy and correlation?

COMMENT CLARIFICATION

import numpy as np
from PIL import Image

class LBP:
    def __init__(self, input, num_processes, output):
        # Convert the image to grayscale
        self.image = Image.open(input).convert("L")
        self.width = self.image.size[0]
        self.height = self.image.size[1]
        self.patterns = []
        self.num_processes = num_processes
        self.output = output

    def execute(self):
        self._process()
        if self.output:
            self._output()

    def _process(self):
        pixels = list(self.image.getdata())
        pixels = [pixels[i * self.width:(i + 1) * self.width] for i in range(self.height)]

        # Calculate LBP for each non-edge pixel
        for i in range(1, self.height - 1):
            # Cache only the rows we need (within the neighborhood)
            previous_row = pixels[i - 1]
            current_row = pixels[i]
            next_row = pixels[i + 1]

            for j in range(1, self.width - 1):
                # Compare this pixel to its neighbors, starting at the top-left pixel and moving
                # clockwise, and use bit operations to efficiently update the feature vector
                pixel = current_row[j]
                pattern = 0
                pattern = pattern | (1 << 0) if pixel < previous_row[j-1] else pattern
                pattern = pattern | (1 << 1) if pixel < previous_row[j] else pattern
                pattern = pattern | (1 << 2) if pixel < previous_row[j+1] else pattern
                pattern = pattern | (1 << 3) if pixel < current_row[j+1] else pattern
                pattern = pattern | (1 << 4) if pixel < next_row[j+1] else pattern
                pattern = pattern | (1 << 5) if pixel < next_row[j] else pattern
                pattern = pattern | (1 << 6) if pixel < next_row[j-1] else pattern
                pattern = pattern | (1 << 7) if pixel < current_row[j-1] else pattern
                self.patterns.append(pattern)

    def _output(self):
        # Write the result to an image file
        result_image = Image.new(self.image.mode, (self.width - 2, self.height - 2))
        result_image.putdata(self.patterns)
        result_image.save("output.png")

I generated texture with this code. I have texture and I have methods to calculate the texture properties, but the question is how to identify the similarity between two textures.


回答1:


Suppose you have two classes, for example couscous and knitwear, and you wish to classify an unknown color image as either couscous or knitwear. One possible method would be:

  1. Converting the color images to grayscale.
  2. Computing the local binary patterns.
  3. Calculating the normalized histogram of local binary patterns.

The following snippet implements this approach:

import numpy as np
from skimage import io, color
from skimage.feature import local_binary_pattern

def lbp_histogram(color_image):
    img = color.rgb2gray(color_image)
    patterns = local_binary_pattern(img, 8, 1)
    hist, _ = np.histogram(patterns, bins=np.arange(2**8 + 1), density=True)
    return hist

couscous = io.imread('https://i.stack.imgur.com/u3xLI.png')
knitwear = io.imread('https://i.stack.imgur.com/Zj14J.png')
unknown = io.imread('https://i.stack.imgur.com/JwP3j.png')

couscous_feats = lbp_histogram(couscous)
knitwear_feats = lbp_histogram(knitwear)
unknown_feats = lbp_histogram(unknown)

Then you need to measure the similarity (or dissimilarity) between the LBP histogram of the unknown image and the histograms of the images that represent the two considered classes. Euclidean distance between histograms is a popular dissimilarity measure.

In [63]: from scipy.spatial.distance import euclidean

In [64]: euclidean(unknown_feats, couscous_feats)
Out[64]: 0.10165884804845844

In [65]: euclidean(unknown_feats, knitwear_feats)
Out[65]: 0.0887492936776889

In this example the unknown image will be classified as knitwear because the dissimilarity unknown-couscous is greater than the dissimilarity unknown-knitwear. This is in good agreement with the fact that the unknown image is actually a different type of knitwear.

import matplotlib.pyplot as plt

hmax = max([couscous_feats.max(), knitwear_feats.max(), unknown_feats.max()])
fig, ax = plt.subplots(2, 3)

ax[0, 0].imshow(couscous)
ax[0, 0].axis('off')
ax[0, 0].set_title('Cous cous')
ax[1, 0].plot(couscous_feats)
ax[1, 0].set_ylim([0, hmax])

ax[0, 1].imshow(knitwear)
ax[0, 1].axis('off')
ax[0, 1].set_title('Knitwear')
ax[1, 1].plot(knitwear_feats)
ax[1, 1].set_ylim([0, hmax])
ax[1, 1].axes.yaxis.set_ticklabels([])

ax[0, 2].imshow(unknown)
ax[0, 2].axis('off')
ax[0, 2].set_title('Unknown (knitwear)')
ax[1, 2].plot(unknown_feats)
ax[1, 1].set_ylim([0, hmax])
ax[1, 2].axes.yaxis.set_ticklabels([])

plt.show(fig)



来源:https://stackoverflow.com/questions/51239715/compare-the-lbp-in-python

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