Optolabe: Difference between revisions
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:Another single-camera prototype: http://www.inrialpes.fr/sed/6doftracker/index.htm |
:Another single-camera prototype: http://www.inrialpes.fr/sed/6doftracker/index.htm |
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:-- [[WeBToR]] 18:20, 28 December 2006 (EST)) |
:-- [[User:WeBToR|WeBToR]] 18:20, 28 December 2006 (EST)) |
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[[Category:Hardware ideas]] |
[[Category:Hardware ideas]] |
Revision as of 23:26, 28 December 2006
Introduction
An optolabe is a hand held computer vision input device designed to allow a user to signal three dimensional movements to a computer, including such things as pitch, roll and yaw.
An optolabe is not electronic, it is just a solid object. It could be made of plastic or wood or whatever, as long as it is the right shape and the right colours.
The optolabe would be of overall size of about a bit larger than a hand. It would consist of six blue spheres of different sizes supported on a neutral coloured frame, maybe beige or grey, with some neutral coloured discs as well. The idea is that from whatever angle a computer vision system sees the optolabe, some of the spheres are seen as blue discs, since a sphere seen from any angle gives the appearance of a disc. The discs in the optolabe are so that the spheres that at any time are on the side of the optolabe away from the computer vision system are occluded, either in whole or in part.
The neutral coloured frame would be in the shape of three-dimensional axes. There would be a blue sphere at each end of each axis.
There would be six neutral coloured discs, each mounted with an axis going through its centre, nearer to the origin than the sphere and almost, but not quite, touching the sphere. This is so that the camera view of a sphere is not occluded by the disc if the camera view is directly at right angles to the axis: the discs are to occlude views of blue spheres through the optolabe, not to occlude direct sideways views of spheres.
Questions
What happens if a blue sphere is only partly occluded?
- Then it presents a blue shape of some sort to the computer vision system. If the blue shape that is received is not a disc, then it is ignored.
Have you got it working?
- No.
Can it be made to work so that children using an OLPC laptop fitted with a camera can use an optolabe to signal three-dimensional information?
- ?
Documentation
The documentation would include a number of short modules dealing with well established matters, such as three dimensional geometry and the mathematics of rotations; and also the basic technology of existing computer vision systems.
There would be a module clearly stating the theory of the optolabe, the module clearly being marked as research work that is not as yet part of accepted theory.
There could be research modules so that people can try to work on part of the development of the optolabe.
Historical note
This page started with a chapter of a science fiction story, the particular chapter having been written in 1998 and published on the web at that time.
The author of the story hopes that the optolabe can be developed and become a useful peripheral for the OLPC laptop for use in conjunction with a miniature camera.
Rebuttal of the Idea
There is not much point in posting pages with speculative ideas that are not backed by research and/or implementation. In this case, motion tracking does not require objects with lots of spheres since researchers have already implemented such systems to track hands or lips. http://www.robots.ox.ac.uk/~vdg/abstracts/siggraph94.html
- An existing product works similar to the Optolabe. Colleagues of mine use one in their simulator room for 3D manipulation of stereoscopic images. It's a hand-held device with a mesh of reflective spheres that create a unique pattern for each orientation. It uses two camera's for absolute positioning and needs IR floodlighting. Additional buttons add functions like 'grab the object'. A couple of dozen times more expensive than an olpc laptop so not really an option here.
- Another single-camera prototype: http://www.inrialpes.fr/sed/6doftracker/index.htm
- -- WeBToR 18:20, 28 December 2006 (EST))