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Difference between revisions of "Stereo 3D Display Options"
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Let's figure out together what stereo solutions work well in this post-CRT world! | Let's figure out together what stereo solutions work well in this post-CRT world! | ||
− | == | + | == Categories == |
* "Active Stereo 3D" requires expensive and/or bulky shutter glasses. For decades, this has been the standard solution for stereo 3D molecular visualization on the desktop | * "Active Stereo 3D" requires expensive and/or bulky shutter glasses. For decades, this has been the standard solution for stereo 3D molecular visualization on the desktop | ||
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* "Autostereoscopic 3D" means that no glasses are required. However, current autostereoscopic displays tend not to work well for molecular graphics due to their inability to faithfully represent fine detail such as thin bonds and wire meshes. | * "Autostereoscopic 3D" means that no glasses are required. However, current autostereoscopic displays tend not to work well for molecular graphics due to their inability to faithfully represent fine detail such as thin bonds and wire meshes. | ||
− | == Active Stereo 3D (High-Refresh) LCD Displays == | + | == Active Stereo 3D (High-Refresh) Displays == |
+ | |||
+ | === LCD Displays === | ||
This solution would be analogous to using desktop CRT monitors with shutter glasses. Are any of these displays on the market yet? | This solution would be analogous to using desktop CRT monitors with shutter glasses. Are any of these displays on the market yet? | ||
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* [http://www.engadget.com/2008/08/26/viewsonic-shows-off-a-120hz-lcd-display-for-computers ViewSonic VX2265wm] | * [http://www.engadget.com/2008/08/26/viewsonic-shows-off-a-120hz-lcd-display-for-computers ViewSonic VX2265wm] | ||
− | == | + | === DLP Projection Televisions === |
These solutions would also be analogous to using CRT monitors with shutter glasses. However, projection televisions tend to be too large and blurry for desktop use. | These solutions would also be analogous to using CRT monitors with shutter glasses. However, projection televisions tend to be too large and blurry for desktop use. | ||
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* [http://pages.samsung.com/us/dlp3d Samsung 3D-Ready DLP HDTVs] | * [http://pages.samsung.com/us/dlp3d Samsung 3D-Ready DLP HDTVs] | ||
− | == Passive Stereo 3D Mirror-based LCD | + | == Passive Stereo 3D Displays == |
+ | |||
+ | === Mirror-based Multi-LCD Solutions === | ||
* [http://www.planar3d.com Planar3D] | * [http://www.planar3d.com Planar3D] | ||
− | == | + | === One Piece Multi-layer LCD Displays === |
* [http://www.iz3d.com IZ3D] | * [http://www.iz3d.com IZ3D] | ||
* [http://www.zalman.co.kr/eng/product/Product_read.asp?Idx=219 Zalman 22-inch 3D LCD monitor] | * [http://www.zalman.co.kr/eng/product/Product_read.asp?Idx=219 Zalman 22-inch 3D LCD monitor] | ||
− | == Active Stereo 3D (High Refresh) | + | == Active Stereo 3D (High Refresh) Projectors == |
Although these displays require shutter glasses out of the box, when combined with the adapters below and a special "silvered" screen, they can be used to project Passive Stereo 3D to a large audience. | Although these displays require shutter glasses out of the box, when combined with the adapters below and a special "silvered" screen, they can be used to project Passive Stereo 3D to a large audience. | ||
+ | |||
+ | === DLP Projectors === | ||
* [http://www.depthq.com DepthQ Stereoscopic] | * [http://www.depthq.com DepthQ Stereoscopic] | ||
* [http://www.christiedigital.com/AMEN/Products/christieMirageS4K.htm Christie MIRAGE S+4K SXGA+ 6500 LUMEN DLP™ STEREOSCOPIC PROJECTOR] | * [http://www.christiedigital.com/AMEN/Products/christieMirageS4K.htm Christie MIRAGE S+4K SXGA+ 6500 LUMEN DLP™ STEREOSCOPIC PROJECTOR] | ||
− | == Passive Stereo 3D Adaptor Hardware for Projectors == | + | === Passive Stereo 3D Adaptor Hardware for Active Stereo 3D Projectors === |
These devices make it possible for a large audience to see projected stereo 3D using inexpensive polarized glasses. | These devices make it possible for a large audience to see projected stereo 3D using inexpensive polarized glasses. |
Revision as of 16:16, 18 September 2008
This page is for aggregating the latest know-how and links to current Stereo 3D display options best suited for molecular graphics applications like PyMOL. Please strive to provide fact-based objective information based on first-hand experiences while using the displays for real work and teaching.
Let's figure out together what stereo solutions work well in this post-CRT world!
Categories
- "Active Stereo 3D" requires expensive and/or bulky shutter glasses. For decades, this has been the standard solution for stereo 3D molecular visualization on the desktop
- "Passive Stereo 3D" requires inexpensive lightweight polarized glasses required. This has emerged as the standard solution for delivering stereo 3D to audiences which consist of more than a few people.
- "Autostereoscopic 3D" means that no glasses are required. However, current autostereoscopic displays tend not to work well for molecular graphics due to their inability to faithfully represent fine detail such as thin bonds and wire meshes.
Active Stereo 3D (High-Refresh) Displays
LCD Displays
This solution would be analogous to using desktop CRT monitors with shutter glasses. Are any of these displays on the market yet?
DLP Projection Televisions
These solutions would also be analogous to using CRT monitors with shutter glasses. However, projection televisions tend to be too large and blurry for desktop use.
Passive Stereo 3D Displays
Mirror-based Multi-LCD Solutions
One Piece Multi-layer LCD Displays
Active Stereo 3D (High Refresh) Projectors
Although these displays require shutter glasses out of the box, when combined with the adapters below and a special "silvered" screen, they can be used to project Passive Stereo 3D to a large audience.
DLP Projectors
Passive Stereo 3D Adaptor Hardware for Active Stereo 3D Projectors
These devices make it possible for a large audience to see projected stereo 3D using inexpensive polarized glasses.