The Operating System

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$Art by { dvdp } THE PHYSICS OF SPIRALS? Perhaps someone with more experience in math & physics can give some insight about this: I’ve subscribed to a weekly newsletter from { Kurzweil AI } (Many of you might find it interesting; it covers futurism, technology, science, etc.) Recently, there were two consecutive articles about spiral shapes that I found curious: { Pasta-shaped radio waves beamed across Venice } A group of Italian and Swedish researchers may have solved the problem of radio congestion by cleverly twisting radio waves into the shape of fusilli pasta, allowing a potentially infinite number of channels to be broadcast and received. & { Scientists twist light to send data at more than 2 terabits per second } A multinational team led by USC with researchers in the U.S., China, Pakistan, and Israel has developed a system of transmitting data using twisted beams of light at ultra-high speeds — up to 2.56 terabits per second. Broadband cable supports up to about 30 megabits per second. The twisted-light system transmits about 85,000 times more data per second. Is there something inherent to spiral shapes that allows them to hold more “information”? (I’m using the word info. in a general way, like if we think of the universe as a system of variously configured “bits” of info.) Is the relationship — in terms of information — between these technologies and natural constructs like DNA and galaxies more than an aesthetic correlation? If it’s true that spirals “hold more”, why is this? P.S.I’ve also asked this question at { Udacity }, if any of you are enrolled in Intro to Physics. I’ll re-post answers here if anyone answers there, and vice versa. •••••• ANSWERS: { memeengine }: olena: THE PHYSICS OF SPIRALS? … I’ve heard a little about that second item - use of “twisted” light in optic cables. If you read my blog, you’ll know I’m no physicist, but I can offer my limited understanding… Physically, I’m not sure if we’re talking about photons forming a spiral shape as they move. It may have something to do with the polarity of the photons. However, I think that what allows more information to be crammed in is something like different channels. Even if it’s not completely accurate, I think that color is a good way for us amateurs to understand it. You may know that white light contains all the colors of the rainbow (ie all frequencies of visible light). Imagine if instead of sending one message in the white light, many messages could be encoded among the individual colors (frequencies) within the light. So there could be a “red message”, a “green message”, etc. The idea of twisting the light may have something to do with teasing apart the different frequencies, or channels so the individual messages can all be read. Clearly, this has a multiplicative effect on the information that can be sent. I think some of this research also looks at laying “meta-messages” on top of the normal light pulses. Imagine if the rate at which the light pulses are sent were marginally slowed down or sped up. This too can send information, and in theory, none of the original information from the pulses is lost (only perhaps marginally slowed). Think of sending morse code by switching from intervals of slow pulses to intervals of quick pulses. I know I’m not close to having a handle on this story in terms of the physics, but I think the above pseudo-examples capture the ideas of the more tightly packed information. Hope this helps! OS re: { memeengine }: Thanks for answering! I wonder if DVDP’s image inspired that explanation? :D Light can be twisted like a corkscrew around its axis of travel. { Optical Vortex } It seems that just the actual wave, as it travels, is made to rotate as if it were going around the outside of a tube. I don’t know if that contradicts what you said — “…I’m not sure if we’re talking about photons forming a spiral shape as they move…” ••• Thyrm at { Udacity }: Well, I can tell you that DNA coiled up can hold more information because its structure maximizes surface area while decreasing the volume that it occupies. If you were to uncoil DNA then it be about a meter long. If you unwrapped the two strands, then it’d be twice as long. Mind you, this is with one molecule of DNA that can easily fit inside the tiniest organelles of one of your cells. The geometry involved in that is beyond me. I am sure somebody else has a better answer. Another amazing material that has a lot of surface area is activated carbon. Its surface area is absolutely insane, at about 500 sq. meters per gram. Also, you might be interested in this: { http://en.wikipedia.org/wiki/Menger_sponge } ••• { hpgal3 }: It could be something to do with the surface area. I remember seeing something on “Through the Wormhole” about the surface area of an object being where it holds most of its information (not its volume). This is true in biology as well, yes. Especially in folds, like your mitochondria and intestines. You just have more room. http://www.youtube.com/watch?v=WbRvHbtB9AQ Starts around 27:27$

Art by { dvdp }

THE PHYSICS OF SPIRALS?

Perhaps someone with more experience in math & physics can give some insight about this:

I’ve subscribed to a weekly newsletter from { Kurzweil AI } (Many of you might find it interesting; it covers futurism, technology, science, etc.) Recently, there were two consecutive articles about spiral shapes that I found curious:

{ Pasta-shaped radio waves beamed across Venice }

A group of Italian and Swedish researchers may have solved the problem of radio congestion by cleverly twisting radio waves into the shape of fusilli pasta, allowing a potentially infinite number of channels to be broadcast and received.

& { Scientists twist light to send data at more than 2 terabits per second }

A multinational team led by USC with researchers in the U.S., China, Pakistan, and Israel has developed a system of transmitting data using twisted beams of light at ultra-high speeds — up to 2.56 terabits per second.

Broadband cable supports up to about 30 megabits per second. The twisted-light system transmits about 85,000 times more data per second.

Is there something inherent to spiral shapes that allows them to hold more “information”? (I’m using the word info. in a general way, like if we think of the universe as a system of variously configured “bits” of info.) Is the relationship — in terms of information — between these technologies and natural constructs like DNA and galaxies more than an aesthetic correlation? If it’s true that spirals “hold more”, why is this?

P.S.
I’ve also asked this question at { Udacity }, if any of you are enrolled in Intro to Physics. I’ll re-post answers here if anyone answers there, and vice versa.

••••••

ANSWERS:

{ memeengine }:

olena:

THE PHYSICS OF SPIRALS?

…

I’ve heard a little about that second item - use of “twisted” light in optic cables. If you read my blog, you’ll know I’m no physicist, but I can offer my limited understanding…

Physically, I’m not sure if we’re talking about photons forming a spiral shape as they move. It may have something to do with the polarity of the photons. However, I think that what allows more information to be crammed in is something like different channels.

Even if it’s not completely accurate, I think that color is a good way for us amateurs to understand it. You may know that white light contains all the colors of the rainbow (ie all frequencies of visible light). Imagine if instead of sending one message in the white light, many messages could be encoded among the individual colors (frequencies) within the light. So there could be a “red message”, a “green message”, etc.

The idea of twisting the light may have something to do with teasing apart the different frequencies, or channels so the individual messages can all be read. Clearly, this has a multiplicative effect on the information that can be sent.

I think some of this research also looks at laying “meta-messages” on top of the normal light pulses. Imagine if the rate at which the light pulses are sent were marginally slowed down or sped up. This too can send information, and in theory, none of the original information from the pulses is lost (only perhaps marginally slowed). Think of sending morse code by switching from intervals of slow pulses to intervals of quick pulses.

I know I’m not close to having a handle on this story in terms of the physics, but I think the above pseudo-examples capture the ideas of the more tightly packed information. Hope this helps!

OS re: { memeengine }:

Thanks for answering! I wonder if DVDP’s image inspired that explanation? :D

Light can be twisted like a corkscrew around its axis of travel.

{ Optical Vortex }

It seems that just the actual wave, as it travels, is made to rotate as if it were going around the outside of a tube. I don’t know if that contradicts what you said —

“…I’m not sure if we’re talking about photons forming a spiral shape as they move…”

•••

Thyrm at { Udacity }:

Well, I can tell you that DNA coiled up can hold more information because its structure maximizes surface area while decreasing the volume that it occupies. If you were to uncoil DNA then it be about a meter long. If you unwrapped the two strands, then it’d be twice as long. Mind you, this is with one molecule of DNA that can easily fit inside the tiniest organelles of one of your cells. The geometry involved in that is beyond me. I am sure somebody else has a better answer.

Another amazing material that has a lot of surface area is activated carbon. Its surface area is absolutely insane, at about 500 sq. meters per gram.

Also, you might be interested in this: { http://en.wikipedia.org/wiki/Menger_sponge }

•••

{ hpgal3 }:

It could be something to do with the surface area. I remember seeing something on “Through the Wormhole” about the surface area of an object being where it holds most of its information (not its volume). This is true in biology as well, yes. Especially in folds, like your mitochondria and intestines. You just have more room.

http://www.youtube.com/watch?v=WbRvHbtB9AQ

Starts around 27:27

10 months ago on July 09, 2012

Comments · 91 notes

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katiearms:

The poetic equation of the message has reached the end of its metaphor. via computersclub

#web #internet #computer #figure #drawing #gif #animated gif #amazing #exploding #beautiful

1 year ago on January 21, 2012 via computersclub.org

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The { Operating System } is featured today on { SVA Portfolios } at Behance.

Thank you!

1 year ago on January 10, 2012

Comments · 67 notes

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(via everythingjapanese)

#shiro #kuro #shiro kuro #black & white #black and white #White #toilet paper #Tekkon Kinkreet #TekkonKinkreet #animated gif #gif #sneeze

1 year ago on November 16, 2011 via 3of5

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I’ve just launched a new website: { OS }
(In time for my mom’s birthday — for anyone who knows us personally, it’s strange, but it’s her interests that inspired my eventual { skepticism }).

This work (in progress, as part of the { Operating System }) isn’t about friendly UI or showing off my portfolio. I’ve been exploring using the web as an art medium for some time, and that allows this project to live outside the usual guidelines and constraints of “web design”.

An artwork is allowed to be wrong, to fail, and thus has the power to convey ideas that can’t be communicated in “normalized” (especially commercial) realms. Now, if the artwork lives in a dynamic space, it can allow the viewer to access information about that idea instantly — not only to stare at something contained on a gallery wall and feel unable to understand, or only to appreciate the aesthetics, but to learn and engage within that space-time.

That requires some work — at least a desire for knowledge, and scrutiny. Any designer knows that it’s a lot to ask of a public that wants to be catered to in about 3 seconds or less, or else they’re gone. But the artist understands that a mind doesn’t work that way; { enough must be missing }, otherwise the observed is uninteresting.

As I continue to build in this space, I hope to encourage exploration and thoughtfulness, and especially (for now) a consideration of a new perception — can we understand ourselves and our world in a more comprehensive way than the paper doll, Newtonian, and human-centric views that have permeated culture until now?

1 year ago on October 10, 2011 via olena

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ˆ—ˆ

(via acornfables)

#fluffy #white #cute #things #^0^ #^_____^ #animated gif #gif #floating #lol

1 year ago on September 18, 2011 via berlin2011.festival.pictoplasma.com

Comments · 25,916 notes

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{ Ignatio Torres }: Stellar

This project began from the theory that humans are made of cosmic matter as a result of a stars death. I created imagery that showcased this cosmic birth through the use of dust and reflective confetti to create galaxies. The models organic bodily expressions as they are frozen in time between the particles suggest their celestial creation. In addition, space and time is heightened by the use of three-dimensional animated gifs. Their movement serves as a visual metaphor to the spatial link we share with stars as well as their separateness through time.

(via ignaciotorres)

#ignacio torres #gif #animation #3D #animated gif #stellar #fashion #dust #galaxy #universe #cosmic #stars #girl #youth

1 year ago on September 09, 2011 via ignacio-torres.com

Comments · 646 notes

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{ Ignatio Torres }: Stellar

This project began from the theory that humans are made of cosmic matter as a result of a stars death. I created imagery that showcased this cosmic birth through the use of dust and reflective confetti to create galaxies. The models organic bodily expressions as they are frozen in time between the particles suggest their celestial creation. In addition, space and time is heightened by the use of three-dimensional animated gifs. Their movement serves as a visual metaphor to the spatial link we share with stars as well as their separateness through time.

••••••

Perhaps it goes without saying, but please see the whole project (in larger sizes, also) on the artist’s website. It’s wonderful.

#wonderful #stars #cosmos #astronomy #Carl Sagan #evolution #art #science #photography #animated gif #star stuff #cosmic #celestial #body #particles #galaxy #beautiful

1 year ago on September 09, 2011

Comments · 30 notes