Comments on: World’s largest 3D-display http://www.interactivearchitecture.org/worlds-largest-3d-display.html Sat, 17 May 2008 00:57:22 +0000 http://wordpress.org/?v=2.5 By: LedLightRay http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-146034 LedLightRay Sat, 12 Apr 2008 22:14:24 +0000 http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-146034 <strong>The World Largest 3D LED Display...</strong> The “Electrotechnische Vereeniging”, the association for students of electrical engineering from the Delft University of Technology (TU Delft), will reveal the world’s largest 3D-display Sunday 23rd of April. The display measures 8 ... The World Largest 3D LED Display…

The “Electrotechnische Vereeniging”, the association for students of electrical engineering from the Delft University of Technology (TU Delft), will reveal the world’s largest 3D-display Sunday 23rd of April. The display measures 8 …

]]> By: Ronald’s blog » Blog Archive » matrixx 3d display http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-9128 Ronald’s blog » Blog Archive » matrixx 3d display Fri, 27 Oct 2006 18:52:32 +0000 http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-9128 [...] the world’s largest 3D-display, measuring 8 metres in width, 4 metresin height & 2 metres in depth, consisting of a matrix of 8.000 LEDswith table tennis balls around them. its dynamic applications include3D snake, 3D pong, 3D duckhunt & a SMS (text messaging) display. see also 3d display cube. [tudelft.nl|also interactivearchitecture.org] [...] […] the world’s largest 3D-display, measuring 8 metres in width, 4 metresin height & 2 metres in depth, consisting of a matrix of 8.000 LEDswith table tennis balls around them. its dynamic applications include3D snake, 3D pong, 3D duckhunt & a SMS (text messaging) display. see also 3d display cube. [tudelft.nl|also interactivearchitecture.org] […]

]]> By: digitalexperience » Blog Archive » Ping Pong ball 3D-display http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-4743 digitalexperience » Blog Archive » Ping Pong ball 3D-display Mon, 31 Jul 2006 15:07:55 +0000 http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-4743 [...] Via Interactive Architecture. [...] […] Via Interactive Architecture. […]

]]> By: J Gingold http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-3731 J Gingold Mon, 19 Jun 2006 07:10:12 +0000 http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-3731 This appears suspicously similar to the <a href="http://www.nw.com/nw/projects/cubatron/" rel="nofollow">Cubatron, on a somewhat larger scale (but sans RGB control). Also, judging from the links to the "BRC" on the Cubatron site, the Delft display won't be the largest in the world for long...</a> This appears suspicously similar to the Cubatron, on a somewhat larger scale (but sans RGB control). Also, judging from the links to the “BRC” on the Cubatron site, the Delft display won’t be the largest in the world for long…

]]> By: Steve Boyer http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-1351 Steve Boyer Thu, 01 Jun 2006 19:13:18 +0000 http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-1351 The URL to above 3D Cube patent: http://www.skyboy.com/patents.html The URL to above 3D Cube patent:

http://www.skyboy.com/patents.html

]]> By: Steve Boyer http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-1350 Steve Boyer Thu, 01 Jun 2006 19:12:12 +0000 http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-1350 I created, patented and displayed a 3D animating LED Cube in 1999 in Chicago. This has often been credited to James Clar but I originally designed this in the late 1980s (I did a software simulation) and finally had the skills to build one by 1999. Just to set the record straight... I created, patented and displayed a 3D animating LED Cube in 1999 in Chicago. This has often been credited to James Clar but I originally designed this in the late 1980s (I did a software simulation) and finally had the skills to build one by 1999.
Just to set the record straight…

]]> By: Ruairi http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-951 Ruairi Mon, 29 May 2006 11:20:52 +0000 http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-951 An interesting point Lionel, I'll make sure the guys at Delft get a look at this Cheers Ruairi An interesting point Lionel, I’ll make sure the guys at Delft get a look at this

Cheers

Ruairi

]]> By: Lionel http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-928 Lionel Mon, 29 May 2006 08:04:42 +0000 http://www.interactivearchitecture.org/worlds-largest-3d-display.html#comment-928 The LEDs are one on top of the other in a square layout. I'd like to see them stacked in cubic close packed, aka CCP. CCP is the shape ping pong balls assume when you pile one on another. Molecules do the same. Chemists call it "CCP" or "HCP" (cubic or hexagonal close packing). Bucky Fuller called it IVM (isotropic vector matrix). I predict CCP display will look more attractive to the human eye. I predict waves will render better with a CCP display, as refraction, reflection and diffraction usually occur angles other than 90 and 45. BTW, Bucky <a href="http://www.rwgrayprojects.com/synergetics/s04/p2700.html#427.10" title="Synergetics 427.13" rel="nofollow">predicted this invention in Synergetics</a>. Here is that passage, translated into normal English: <blockquote cite="http://www.rwgrayprojects.com/synergetics/s04/p2700.html#427.1"> Atoms can be imagined as arranged in a matrix of "lights" which spreads equally in every direction. This model is like a three-dimensional version of the two- dimensional light-bulb-matrix billbooards on Broadway-and-Forty-Second Street, New York City. The billboards have fields of powerful little light bulbs which are switched off-and-on by remote controllers, varying their intensity and color. Our atomic model would display each and every atom in its naturally occuring arrangement. We could light a group of atoms to represent our own body. By turning on all the right lights at the right time, we could model "you," with your organically arranged "body" of lights surrounding "you" in every direction, moving through space in any direction. With accurate timing, we could activate the same number of lights in the same pattern, and achieve the optical effect (as with two-dimensional, flat movies), by successively activating each of the lights from one voxel to the next, with small, local "movement" variations of "you" accomplished by special local matrix sequence programmings. We could progressively and discretely activate each of the atoms of such a matrix to become "lights," and could move an arbitrary "form" through the field. The form could be a "sphere," a "polyhedron," or any other shape including complex ones such as you or me. This three-dimensional group of points can be programmed multidimensionally on a computer in such a manner that a concentric spherical cluster of "light" points can be progressively "turned on" to comprise a "substance" which seemingly moves from here to there. </blockquote> The LEDs are one on top of the other in a square layout. I’d like to see them stacked in cubic close packed, aka CCP. CCP is the shape ping pong balls assume when you pile one on another. Molecules do the same. Chemists call it “CCP” or “HCP” (cubic or hexagonal close packing). Bucky Fuller called it IVM (isotropic vector matrix).

I predict CCP display will look more attractive to the human eye. I predict waves will render better with a CCP display, as refraction, reflection and diffraction usually occur angles other than 90 and 45.

BTW, Bucky predicted this invention in Synergetics. Here is that passage, translated into normal English:

Atoms can be imagined as arranged in a matrix of “lights” which spreads equally in every direction. This model is like a three-dimensional version of the two- dimensional light-bulb-matrix billbooards on Broadway-and-Forty-Second Street, New York City. The billboards have fields of powerful little light bulbs which are switched off-and-on by remote controllers, varying their intensity and color.

Our atomic model would display each and every atom in its naturally occuring arrangement. We could light a group of atoms to represent our own body. By turning on all the right lights at the right time, we could model “you,” with your organically arranged “body” of lights surrounding “you” in every direction, moving through space in any direction.

With accurate timing, we could activate the same number of lights in the same pattern, and achieve the optical effect (as with two-dimensional, flat movies), by successively activating each of the lights from one voxel to the next, with small, local “movement” variations of “you” accomplished by special local matrix sequence programmings.

We could progressively and discretely activate each of the atoms of such a matrix to become “lights,” and could move an arbitrary “form” through the field. The form could be a “sphere,” a “polyhedron,” or any other shape including complex ones such as you or me. This three-dimensional group of points can be programmed multidimensionally on a computer in such a manner that a concentric spherical cluster of “light” points can be progressively “turned on” to comprise a “substance” which seemingly moves from here to there.

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