3DWebCam: Difference between revisions
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Acquisition |
Acquisition |
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* 2 webcams bas cout |
* 2 webcams bas cout |
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* Arduino Uno, 2 potentiomêtres, 2 servomoteurs, 1 LED super bright, 2 LED infra rouge, 1 laser |
* Arduino Uno, 2 potentiomêtres, 2 servomoteurs, 1 LED super bright, 2 LED infra rouge, 1 [http://www.dealextreme.com/p/6mm-5mw-red-laser-module-3-5-4-5v-13378 pointeur laser]. |
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* 1 écran 120Hz 3D Ready |
* 1 écran 120Hz 3D Ready |
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* Lunettes 3D actives |
* Lunettes 3D actives |
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==Code processing== |
==Code processing== |
Latest revision as of 08:09, 14 January 2012
- UE/Module: Projet innovant de RICM4 option CM
- Enseignant: Didier Donsez
- Élèves: 2 RICM4
Description
Matériel
Acquisition
- 2 webcams bas cout
- Arduino Uno, 2 potentiomêtres, 2 servomoteurs, 1 LED super bright, 2 LED infra rouge, 1 pointeur laser.
Visualisation
- 1 écran 120Hz 3D Ready
- Lunettes 3D actives
Code processing
Media:3Dwebcam.pde.txt others:
- http://processing.org/discourse/yabb2/YaBB.pl?num=1234875866
- http://www.openprocessing.org/visuals/?visualID=8253
- http://www.openprocessing.org/visuals/?visualID=10227
Liens
- GStreamer et stereoscopy http://gstconf.ubicast.tv/videos/3d-stereoscopic-and-gstreamer/
- http://www.minoru3d.com/
- Microsoft DirectShow
- OpenCV voir chapitre 12 Chapter 12 Projection and 3D Vision du livre Gary Bradski, Adrian Kaehler, Learning OpenCV Computer Vision with the OpenCV Library, 2008, OReilly.