Wiggle stereoscopy
Wiggle stereoscopy is an example of
The sense of depth from such images is due to
Advantages and disadvantages
Wiggle stereoscopy offers the advantages that no glasses or special hardware is required; most people can perceive the effect more quickly than when using cross-eyed and parallel viewing techniques. Furthermore, it offers stereo-like depth to people with limited or no vision in one eye.
Disadvantages of wiggle stereoscopy are that it does not provide true binocular depth perception; it is not suitable for print media, being limited to displays that can alternate between the two images, and it is difficult to appreciate details in images that are constantly in motion.
Number and timing of images
Most wiggle images use only two images, yielding a jerky image. A smoother image can be composed by using several intermediate images and using the left and right images as end images of the image sequence. If intermediate images are not available, approximate images can be computed from the end images using techniques known as view interpolation.[2] The two end images may be displayed for a longer time than the intermediate images to allow inspection of details in the left and right images.
Another option for reducing the impression of jerkiness is to reduce the time between the frames of a wiggle image.[citation needed]
3D photos from a single image
With advances in machine learning and computer vision,[3] it is now also possible to recreate this effect using a single monocular image as an input.[4]
In this case one can use a segmentation model combined with a depth estimation model[5] to estimate information relating to the distance of the surfaces of objects in the scene from a given viewpoint for every pixel in that image (known as a depth map), and with that information you can then render that pixel data as if it were 3 dimensional to create a subtle 3D effect.
Perception
The sense of depth from wiggle 3-D images is due to
Although wiggle stereoscopy permits the perception of stereoscopic images, it is not a "true" three-dimensional stereoscopic display format in the sense that wiggle stereoscopy does not present the eyes with their own separate view each. The sense of depth may be enhanced by closing one eye, which removes the conflicting vergence visual cue of both eyes looking at the flat image plane.
The apparent stereo effect results from syncing the timing of the wiggle and the amount of parallax to the processing done by the visual cortex. Three or five images with good parallax may produce a better effect than simple left and right images.[citation needed]
Wiggling works for the same reason that a transitional
Gallery
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Example of wiggle stereoscopy
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Layered rock at the Home Plate plateau on Mars
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World War I stereo view
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A jinrikisha in Japan, c. 1901
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A wiggle image of amodel railroadusing 4 frames repeating 1-2-3-4-3-2
See also
References
- ^ Simulated 3D—Wiggle 3D, Shortcourses.com
- ^ For a recent overview of view interpolation techniques, see for example N. Martin, S. Roy: Fast view interpolation from stereo: Simpler can be better (PDF), Proceedings of 3DPTV'08, The Fourth International Symposium on 3-D Data Processing, Visualization and Transmission, June 18–20, 2008, Georgia Institute of Technology, Atlanta, Georgia, USA
- ^ a b "Depth Estimation", GitHub
- ^ "Depth TensorFlow.js Demo", googleapis.com
- ^ "Portrait Depth API: Turning a Single Image into a 3D Photo with TensorFlow.js". Retrieved 2022-07-01.
- ^ John Altoft: Data visualization for ESM and ELINT. Visualizing 3-D and hyper-dimensional data, Defense R&D Canada (DRDC) Ottawa, Contract Report 2011-084, June 2011
- ISBN 0-8385-2670-5.
- S2CID 45771715.
- S2CID 15508633.
External links
- Media related to Stereoscopic 3D files (wiggle) at Wikimedia Commons
- Wigglegram, Android application