1. A pixel is not a little square & A voxel is not a little cube 2000.01.10 Chung ji hye

2. abstract >Purpose Rid the world of the misconception that a pixel is a little geometric square. Everything I say about little squares and pixels in the 2D case applies equally well to little cubes and voxels in 3D.

3. The little square model The little square model pretends to represents a pixel as a geometric square. Pixel is assumed to correspond to the area of the plane bounded by the square {(x,y)|i-.5≤x≤i+05,j-.5≤y≤j+.5} =>{(x,y)|i≤x≤i+1,j≤y≤j+1}

4. So what is a pixel? A pixel is a point sample. It exists only at a point. At color picture for example pixel might actually contain three samples An image is a rectilinear array of point samples (pixel).

5. So what is a pixel? We can reconstruct a continuous entity from such a discrete entity using an appropriate “reconstruction filter”

6. So what is a pixel?

9. Why is the little square model so persistent ? >principal reasons ① geometry-based computer graphics uses it. (3D, CGI etc…) ② video magnification of computer displays appears to show it.

10. Why is the little square model so persistent ? ::rendering -rendering is the process of converting abstract geometry into viewable pixels that can be dispaled on a computer screen or written to film or video for display. ::modern computer graphics model

11. When magnifies or zooms in on When Magnifies or Zooms in on, each pixel appears to be a little square. :: each point sample is being replicated M *M times. for magnification factor M. When you look at an image consisting of M*M pixels all of the same color, guess what you see.

12. How does a scanner digitize a picture Principle of work 1.light source illuminates a piece of paper containing a colored picture. 2.light reflected from the paper is collected and measured by color sensitive devices.

13. How does a scanner digitize a picture 3. Incoming light a shape or both 를 통해 어느 정도 유사 한 image 를 가늠할 수 있다. It’s not square– think as Gaussian In general, overlapping shapes are averaged to get neighboring pixel samples. So, scanning should not contribute any weight to the little square model.

14. How does a printer print a digital image? Consider halftone printing of ink on paper. =>convert a pixel with many values to a dot of ink on paper such that the area of the dot relative to a little square of paper occupied by the dot is in the ratio of the intensity although there are little squares in each color separation, there are none for the final result.

15. How does a printer print a digital image? Little square model 과의 다른점 :: the different primaries are printed at an angle to each other. The point here is that use of the little square is a printing technology decision, not something inherent in the model of the image being imaged. In fact, the image being imaged is simply an array of point samples in all cases.

16. How is an image displayed on a monitor? Color monitor often has little triads of dots that cause the perception of color at normal viewing distances >principal 1.The value of a pixel is converted, for each primary color, to a voltage level. 2.This stepped voltage is passed through electronics which, by its very nature, rounds off the edges of the level step.

17. How is an image displayed on a monitor? 3. eye integrates the light pattern from a group of triads into a color. =>It is obvious that there are no little squares involved at any step of the process.

18. What is a discrete to continuous mapping that works? Assume the samples are mapped to the integers. Then, the outer extremes of the image are bounded by a rectangle whose all edges. It uses symmetric filters => but, asymmetric filters are useful because of perspective transformation.

19. What is a discrete to continuous mapping that works We display from top to bottom on millions of TVs and computer displays. We read from top to bottom We compute on matrices the natural container for image from top to bottom. Nearly all popular image file formats store image form top to bottom

20. Image broadening Minimal enclosing rectangle of a reconstructed image were the most natural representation of it  fall out to a discussion of image broadening. Minimal enclosing rectangle uses symmetric filter  The filter is asymmetric, then so is the broadening. The amount of broadening is dependent on the filter used.

21. Summary Pixel is not a square. -scanner digitize a picture -printer print a digital image. -display on monitor ::the triads on a display screen are not pixel; they do not even map one to one to pixels.