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Filtering (I) Dr. Chang Shu COMP 4900C Winter 2008.

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Presentation on theme: "Filtering (I) Dr. Chang Shu COMP 4900C Winter 2008."— Presentation transcript:

1 Filtering (I) Dr. Chang Shu COMP 4900C Winter 2008

2 Agenda Getting to know images. Image noise. Image filters.

3 Digital Images An image - rectangular array of integers Each integer - the brightness or darkness of the image at that point N: # of rows, M: # of columns, Q: # of gray levels Q = 2 q (q is the # of bits/pixel) Storage requirements: NxMxq (e.g., for N=M=1024 and q=8  storage = 1MB)

4 Image File Formats Header – usually contains width, height, bit depth. Magic number – identify file format. Image data – stores pixel values line by line without breaks.

5 Common Image File Formats GIF (Graphic Interchange Format,.gif) PNG (Portable Network Graphics,.png) JPEG (Joint Photographic Experts Group,.jpeg) TIFF (Tagged Image File Format, tiff) PGM (Portable Gray Map,.pgm) FITS (Flexible Image Transport System,.fits) …

6 Image Manipulation Tools Linux: xv, gimp Windows: Photoshop, Paint Shop Pro

7 OpenCV + Ch – read and display images #ifdef _CH_ #pragma package #endif #include "cv.h" #include "highgui.h" // Load the source image. HighGUI use. IplImage *image = 0, *gray = 0; int main( int argc, char** argv ) { char* filename = argc == 2 ? argv[1] : (char*)"fruits.jpg"; if( (image = cvLoadImage( filename, 1)) == 0 ) return -1; // Convert to grayscale gray = cvCreateImage(cvSize(image->width,image->height), IPL_DEPTH_8U, 1); cvCvtColor(image, gray, CV_BGR2GRAY); // Create windows. cvNamedWindow("Source", 1); cvNamedWindow("Result", 1); // Show the images. cvShowImage("Source", image); cvShowImage("Result", gray); // Wait for a key stroke cvWaitKey(0); cvReleaseImage(&image); cvReleaseImage(&gray); cvDestroyWindow("Source"); cvDestroyWindow("Result"); return 0; }

8 Noise Noise in Computer Vision: Can think of noise in several contexts: Any entity (in images, data, or intermediate results) that is not interesting for the main computation Spurious pixel fluctuations, introduced by image acquisition Numerical inaccuracies, introduced by the computer’s limited precision, round-offs or truncations, etc Entities that do not belong to any meaningful region (edges that do not correspond to actual object contours)

9 Image Noise

10 Additive and random noise: I(x,y) : the true pixel values n(x,y) : the (random) noise at pixel (x,y) 

11 Random Variables A random variable is a variable whose values are determined by the outcome of a random experiment. Examples 1.A coin is tossed ten times. The random variable X is the number of tails that are noted. X can only take the values 0, 1,..., 10, so X is a discrete random variable. 2.A light bulb is burned until it burns out. The random variable Y is its lifetime in hours. Y can take any positive real value, so Y is a continuous random variable. A random variable can be discrete or continuous.

12 Mean, Variance of Random Variable Mean (Expected Value) (discrete) (continuous) Variance is called standard deviation

13 Gaussian Distribution Single variable

14 Gaussian Distribution Bivariate with zero-means and variance

15 Gaussian Noise Is used to model additive random noise The probability of n(x,y) is Each has zero mean The noise at each pixel is independent

16 Impulsive Noise Salt-and-Pepper Noise: Is used to model impulsive noise Alters random pixels Makes their values very different from the true ones x, y are uniformly distributed random variables are constants

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