Difference between revisions of "Projects"

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=<b>Active Projects</b>=
 
=<b>Active Projects</b>=
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===[[CalVR]] (Since 2010)===
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  <td>CalVR is our virtual reality middleware (a.k.a. VR engine), which we have been developing for our graphics clusters. It runs on anything from a laptop to a large multi-node CAVE, and builds under Linux, Windows and MacOS. More information about how to obtain the code and build it can be found on our main CalVR page. We also provide a [[Media:CalVR-Paper-SPIE2013.pdf | paper on CalVR]], as well as the [[Media:CalVR-Slides-SPIE2013.pdf | accompanying slide set]].</td>
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===[[Boxing Simulator]] (Russell Larson, 2014)===
 
===[[Boxing Simulator]] (Russell Larson, 2014)===

Revision as of 18:06, 25 November 2014

Contents

Past Projects

Active Projects

CalVR (Since 2010)

Image-missing.jpg CalVR is our virtual reality middleware (a.k.a. VR engine), which we have been developing for our graphics clusters. It runs on anything from a laptop to a large multi-node CAVE, and builds under Linux, Windows and MacOS. More information about how to obtain the code and build it can be found on our main CalVR page. We also provide a paper on CalVR, as well as the accompanying slide set.

Boxing Simulator (Russell Larson, 2014)

Image-missing.jpg

3D Spatial Visualization Trainer (Kyler Schwartz, 2014)

Image-missing.jpg

Parallel Raytracing (Rex West, 2014)

NightSky Frame Introduction 01.png

Altered Reality (Jonathan Shamblen, Cody Waite, Zach Lee, Larry Huynh, Liz Cai 2013)

AR.jpg

Focal Stacks (Jurgen Schulze, 2013)

Coral-thumbnail.png SIO will soon have a new microscope which can generate focal stacks faster than before. We are working on algorithms to visualize and analyze these focal stacks.

Android Head Tracking (Ken Dang, 2013)

Tumbnail.jpg The Project Goal is to create a Android App that would use face detection algorithms to allows head tracking on mobile devices

Camelot (Thomas Gray, 2013)

GoProHero2Stereoscopic.jpg The goal of this project is to create a multi-camera video capture system.

Zspace Linux Fix (Matt Kubasak, Thomas Gray, 2013-2014)

ZspaceProduct.jpg We created an Arduino-based solution to fix the problem that in Linux the Zspace's left and right views are initially in random order. The Arduino, along with custom software, is used to sense which eye is displayed when, so that CalVR can switch the eyes if necessary, in order to show a correct stereo image.

ZSculpt - 3D Sculpting with the zSpace (Thinh Nguyen, 2013)

Image-missing.jpg The goal of this project is to explore the use of the zSpace VR system for 3D sculpting.

Magic Lens (Tony Chan, Michael Chao, 2013)

MagicLens2.jpg The goal of this project is to research the use of smart phones in a virtual reality environment.

Pose Estimation for a Mobile Device (Kuen-Han Lin, 2013)

Kitchen.jpg The goal of this project is to develop an algorithm which runs on a PC to estimate the pose of a mobile Android device, linked via wifi.

Multi-User Graphics with Interactive Control (MUGIC) (Shahrokh Yadegari, Philip Weber, Andy Muehlhausen, 2012-)

TD performance.jpg Allow users simplified and versatile access to CalVR systems via network rendering commands. Users can create computer graphics in their own environments and easily display the output on any CalVR wall or system. See the project in action, and a condensed lecture on the mechanisms.

PanoView360 (Andrew Prudhomme, Dan Sandin, 2010-)

Image-missing.jpg Researchers at UIC/EVL and UCSD/Calit2 have developed a method to acquire very high resolution, surround and stereo panorama images using dual SLR cameras. This VR application allows viewing these approximately gigabyte sized images in real-time and supports real-time changes of the viewing direction and zooming.

VOX and Virvo (Jurgen Schulze, 1999-)

Deskvox.jpg Ongoing development of real-time volume rendering algorithms for interactive display at the desktop (DeskVOX) and in virtual environments (CaveVOX). Virvo is name for the GUI independent, OpenGL based volume rendering library which both DeskVOX and CaveVOX use.