Thursday, December 26, 2024
Google search engine
HomeLanguagesArithmetic Operations on Images using OpenCV | Set-2 (Bitwise Operations on Binary...

Arithmetic Operations on Images using OpenCV | Set-2 (Bitwise Operations on Binary Images)

Prerequisite: Arithmetic Operations on Images | Set-1
Bitwise operations are used in image manipulation and used for extracting essential parts in the image. In this article, Bitwise operations used are : 
 

  1. AND
  2. OR
  3. XOR
  4. NOT

Also, Bitwise operations helps in image masking. Image creation can be enabled with the help of these operations. These operations can be helpful in enhancing the properties of the input images. 
NOTE: The Bitwise operations should be applied on input images of same dimensions
Input Image 1: 
 

Input Image 2: 
 

 

Bitwise AND operation on Image:

Bit-wise conjunction of input array elements. 
 

Syntax: cv2.bitwise_and(source1, source2, destination, mask)
Parameters: 
source1: First Input Image array(Single-channel, 8-bit or floating-point) 
source2: Second Input Image array(Single-channel, 8-bit or floating-point) 
dest: Output array (Similar to the dimensions and type of Input image array) 
mask: Operation mask, Input / output 8-bit single-channel mask 
 

 

Python3




# Python program to illustrate 
# arithmetic operation of
# bitwise AND of two images
     
# organizing imports 
import cv2 
import numpy as np 
     
# path to input images are specified and   
# images are loaded with imread command  
img1 = cv2.imread('input1.png')  
img2 = cv2.imread('input2.png'
  
# cv2.bitwise_and is applied over the
# image inputs with applied parameters 
dest_and = cv2.bitwise_and(img2, img1, mask = None)
  
# the window showing output image
# with the Bitwise AND operation
# on the input images
cv2.imshow('Bitwise And', dest_and)
   
# De-allocate any associated memory usage  
if cv2.waitKey(0) & 0xff == 27
    cv2.destroyAllWindows() 


Output: 
 

 

Bitwise OR operation on Image:

Bit-wise disjunction of input array elements. 
 

Syntax: cv2.bitwise_or(source1, source2, destination, mask)
Parameters: 
source1: First Input Image array(Single-channel, 8-bit or floating-point) 
source2: Second Input Image array(Single-channel, 8-bit or floating-point) 
dest: Output array (Similar to the dimensions and type of Input image array) 
mask: Operation mask, Input / output 8-bit single-channel mask 
 

 

Python3




# Python program to illustrate 
# arithmetic operation of
# bitwise OR of two images
     
# organizing imports 
import cv2 
import numpy as np 
     
# path to input images are specified and   
# images are loaded with imread command  
img1 = cv2.imread('input1.png')  
img2 = cv2.imread('input2.png'
  
# cv2.bitwise_or is applied over the
# image inputs with applied parameters 
dest_or = cv2.bitwise_or(img2, img1, mask = None)
  
# the window showing output image
# with the Bitwise OR operation
# on the input images
cv2.imshow('Bitwise OR', dest_or)
   
# De-allocate any associated memory usage  
if cv2.waitKey(0) & 0xff == 27
    cv2.destroyAllWindows() 


Output: 
 

 

Bitwise XOR operation on Image:

Bit-wise exclusive-OR operation on input array elements. 
 

Syntax: cv2.bitwise_xor(source1, source2, destination, mask)
Parameters: 
source1: First Input Image array(Single-channel, 8-bit or floating-point) 
source2: Second Input Image array(Single-channel, 8-bit or floating-point) 
dest: Output array (Similar to the dimensions and type of Input image array) 
mask: Operation mask, Input / output 8-bit single-channel mask 
 

 

Python3




# Python program to illustrate 
# arithmetic operation of
# bitwise XOR of two images
     
# organizing imports 
import cv2 
import numpy as np 
     
# path to input images are specified and   
# images are loaded with imread command  
img1 = cv2.imread('input1.png')  
img2 = cv2.imread('input2.png'
  
# cv2.bitwise_xor is applied over the
# image inputs with applied parameters 
dest_xor = cv2.bitwise_xor(img1, img2, mask = None)
  
# the window showing output image
# with the Bitwise XOR operation
# on the input images
cv2.imshow('Bitwise XOR', dest_xor)
   
# De-allocate any associated memory usage  
if cv2.waitKey(0) & 0xff == 27
    cv2.destroyAllWindows() 


Output: 
 

 

Bitwise NOT operation on Image:

Inversion of input array elements. 
 

Syntax: cv2.bitwise_not(source, destination, mask)
Parameters: 
source: Input Image array(Single-channel, 8-bit or floating-point) 
dest: Output array (Similar to the dimensions and type of Input image array) 
mask: Operation mask, Input / output 8-bit single-channel mask 
 

 

Python3




# Python program to illustrate 
# arithmetic operation of
# bitwise NOT on input image
     
# organizing imports 
import cv2 
import numpy as np 
     
# path to input images are specified and   
# images are loaded with imread command  
img1 = cv2.imread('input1.png')  
img2 = cv2.imread('input2.png'
  
# cv2.bitwise_not is applied over the
# image input with applied parameters 
dest_not1 = cv2.bitwise_not(img1, mask = None)
dest_not2 = cv2.bitwise_not(img2, mask = None)
  
# the windows showing output image
# with the Bitwise NOT operation
# on the 1st and 2nd input image
cv2.imshow('Bitwise NOT on image 1', dest_not1)
cv2.imshow('Bitwise NOT on image 2', dest_not2)
   
# De-allocate any associated memory usage  
if cv2.waitKey(0) & 0xff == 27
    cv2.destroyAllWindows() 


Output: 
Bitwise NOT on Image 1 
 

Bitwise NOT on Image 2 
 

 

RELATED ARTICLES

Most Popular

Recent Comments