The system uses a high-powered laser diode -- a device that converts electricity into light -- as the optical transmitter and an avalanche photo diode -- a device that converts light to electricity -- as the receiver. The light bounces off the walls and is picked up by the receiver.
Jarir Fadlullah, a graduate student in electrical engineering, said:
"The optical system we have offers a very large bandwidth thus a very high speed. We can send one gigabit per second or more over a gigahertz band. Unless the walls are painted solid black [ABSORBS TOO MUCH LIGHT], there is no need to worry about transmission within a room."
"The optical system we have offers a very large bandwidth thus a very high speed. We can send one gigabit per second or more over a gigahertz band. Unless the walls are painted solid black [ABSORBS TOO MUCH LIGHT], there is no need to worry about transmission within a room."
Traditional radio frequency systems ( Wi-Fi , WiMAX , 3G etc. ) do not require line of sight transmission, but can pass through some substances and so present a security problem. Light, in a room without windows, will not escape the room, improving security, but also allowing the same frequencies to be used in adjacent rooms without interference.
Multiple sensors could allow the light signal to pass from room to room or even from floor to floor. The system could also be set up to convert the signal to electricity, transfer it to another location and change it back to light. Optical systems can also operate in locations where radio frequency transmission would interfere with other equipment.
There are certainly some clear advantages to the technology, although traditional wireless networks are already approaching similar speeds and have the added advantage of being cheap. They also do not require additional relay stations (in small home environments) to push the signal around additional rooms. In any case it's a long and slow road from the lab to a commercial product.
Fuente: Link
Publicado por: Reyes Vargas Jairo Alberto
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