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Optical Cellphones

Posted by timothy on from the you-can't-hear-me dept.

foondog writes "Here is a story over at News.com about optical cellphones. It seems that the Department of Defense has given a grant to the University of California to develop optical cellphones that are faster and more secure. This sounds a little strange to me since you would need a line of site with no obstacles in the way to use this. The article doesn't explain how this might work."

5 of 211 comments (clear)

  1. LOS by Wyatt+Earp · · Score: 5, Informative

    "It seams that the Department of Defense has given a grant to the University of California to develop optical cellphones that are faster and more secure. This sounds a little strange to me since you would need a line of site with no obsticals in the way to use this. The article doesn't explain how this might work."

    What about from a soldier/spy/diplomat straight to a comm sat?

    It's easier to get line of sight to orbit.

    1. Re:LOS by tomhudson · · Score: 5, Informative

      The right-angle mirrors (the ones left by the Apollo missions) on the moon are about a meter wide, but the laser beam, at least for the Apollo experiments, was about 2 miles wide when it got to the moon. Even collimated laser light spreads as it travels.

  2. Re:actually, no. by spike+hay · · Score: 5, Informative


    X-rays are light energy, and they don't seem to have a problem passing through.. well.. you, among other things.

    Um, xrays, gamma rays, optical light, radio waves, and everything else is electromagnetic radiation. The penetration ability changes with different wavelengths. Low frequency, long wavelength radio waves penetrate through objects very easily, this is why 2.4 ghz 802.11b goes through walls better than 5 ghz 802.11a.

    Higher frequence microwaves, infrared, optical, and UV em radiation is basically line of sight. Ultra high frequency, high energy, sub microscopic wavelength xrays and expecially gamma rays can penetrate most materials due to their high energy.

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  3. Alexander Graham Bell thought of this already by anotherone · · Score: 4, Informative

    This is pretty old news.

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  4. Reasoning behind laser phone by randomErr · · Score: 4, Informative

    I'm going to dub this the 'Laser Phone'. The Laser Phone will not be made for general public use. Laser Phones will be made for military and corporate entities that require ultra secure communications.

    You maybe asking: âoeWhy would you need such a clunky method of communication? Line of site is not practical.â

    The answer is very simple: Supercomputers and triangulation.

    You see any voice communication has certain pitch and volume amplitude modulations. Pitch and volume amplitude modulations are part language and part human physiology. No matter how you scramble and encode the communication the human voice will always have certain keys that can be easily discerned in a conversation.

    An enemy can easily grab and record a radio signal. Then the digitally recorded file can be feed in a Beowulf cluster of cheap computers. That data can within a few minutes can decode your voice and thus get your tactical information.

    Another advantage of optical communication is that it is almost untraceable. Anytime you use a radio you sending out a beacon saying, "I'm right here; bomb the snot out of me!" An enemy can use simple triangulation to locate you.

    A Laser Phone will be virtually impossible to intercept, track, and decode.

    BTW: Anyone remembers those World War I movies where the soldiers would use mirrors to send Morse code message?

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