Stereoscopic Images
By: Fatih • Research Paper • 3,853 Words • November 29, 2009 • 668 Views
Essay title: Stereoscopic Images
SUMMARY
1. Bibliography 3
1.1 What is a stereoscopic image? 3
1.2 how to get a stereoscopic pair 4
1.3 historical review of stereo photographs 6
1.4 Stereoscopic image manipulation techniques 7
1.4.1 A block-based method 8
1.4.2 A hybrid method 9
2. Multiplexing stereoscopic images 11
2.1 problem statement 11
2.2 principles 11
2.3 filtering and multiplexing 12
2.4 implementation and test of different filters 14
2.4.1 How to test the results 14
2.4.2 Anaglyph image 14
2.4.3 Test of different filters 15
2.4.3.1 A narrow Gaussian filter 15
2.4.3.2 Gaussian filter 18
2.4.3.3 a square-shape filter 20
3. Research of an efficient coding method of the multiplexed stereoscopic pair 23
3.1. JPEG 23
3.2. Optimized JPEG 26
3.3. Is it worth coding using JPEG or JPEG-like coding? 29
4. Annex 30
4.1 JPEG coding 30
4.2 code to construct anaglyph 31
4.3 code to multiplex 32
4.4 code to demultiplex 35
4.5 useful function used in multiplex and demultiplex 36
4.6 anaglyph made from the two original images 38
4.7 references 39
1. Bibliography
1.1 What is a stereoscopic image?
Everyone knows what a stereo sound meansЎ¦ but few are those who know what a stereoscopic sound is.
Left image right image
Ў°StereoscopicЎ± is derived from stereo, which is a prefix meaning to put something in relief and scope which means to see. Stereoscopic means to see in relief.
A stereo sound is made of two sounds, one for the right ear and the other one is for the left ear. The same is true for the images. A stereoscopic is made of two images. One is seen by the left eye, and another one is seen by the right eye. Thus we use a pair of stereoscopic images.
In fact the pair of stereoscopic images is what our brain receives. Then it is analysed and a single image is build, a 3 dimension image. The purpose of the project is to underline how to synthesis those images and how to manipulate. WeЎЇll try to put the pair into a single image, as the brain. An image made of a pair could not be seen properly without any optical object, such as glasses.
1.2 how to get a stereoscopic pair
The effect is to duplicate the spacing of our eyes that gives us stereo vision. Although it's possible to take a pair of stereo images with a single camera and lens, it's not the easiest way and the results are somewhat unpredictable. It's important that the lenses be the same focal length, exactly parallel, and offset by just the right amount—called the stereo base distance. For this reason, special cameras are usually used.
The Argus 3D Stereo Camera uses 35mm film. It has 2 matched 28mm lenses, 2 apertures (daylight and flash), and 1 shutter speed so everything is in focus from 2 1/2 feet to infinity. It also has a built-in pop-up flash.
If you don't have a special camera, you can experiment using the one you do have.
1. Create a guide that helps you move the camera 2.5" between shots and also keep the lens aligned so it's parallel. Just take a flat board and put a small wooden rail on it. When you slide the camera along the rail from flush-left to flush right, the lens moves exactly 2.5 inches. You can even add hardware to