Comment Fully Optical Systems (Score 5) 111
This is a rather important development for optical networks. Other than the initial energy source and the receptor at the end of the line, this technology may be the last piece required for a fully optical system.
The previous important development in optical transmission networks was the optical amplifier. By doped sections of fiber with a high voltage placed across each section, they were able to create an amplifier. The light waves coming into the doped section of fiber would be amplified.
To briefly describe it, imagine blinking a small flashlight into a window. On the other side of the glass it looks like a car's headlight rather than a small flashlight.
Ok, this amplifier is cool but why is it important. The amplifier allowed companies to move away from light to electric to light. In fiber optic system, the signal decays as it travels through the fiber. Once it reaches a certain level, it will become unusable. Thus, you have to boost the signal periodically. Traditionally, communication companies had to take the decayed signal, convert it to electric, then you drive another laser with the weak electric signal. This then completes the light to electric to light again, and you now have a usable signal again. (Until you have to boost the signal again) Anyway, this conversion process created a whole new set of problems. By converting it to electric, you introduced noise. After a "amplifying" the signal a few times, your signal was no longer clean buy now included some noise.
This optical amplifier was important and lead to the FLAG system. If you read Wired a few years ago, they did a really good job of discussing FLAG. FLAG is the "Fiber Optic Link 'round the Globe" and is a _large_ undersea fiber optic cable reaching from UK, to Egypt, to Malaysia, to Japan. This project and other like it, became feasible because of optical amplifiers.
Optical switches are important for the same reason. It will reduce noise and increase reliability of the system.
I would not look to see these switches replace the current technology (as mentioned in a previous post). However, I would expect to see these switches start to become incorporated into new systems such as subsea communication, pipeline right-of-way bandwidth, or other cross country communication networks. There already is a big market for piping ESPN to parts of the country. Imagine that you could route the information more like a phone system than a gas pipeline. This could create a whole new market.
The previous important development in optical transmission networks was the optical amplifier. By doped sections of fiber with a high voltage placed across each section, they were able to create an amplifier. The light waves coming into the doped section of fiber would be amplified.
To briefly describe it, imagine blinking a small flashlight into a window. On the other side of the glass it looks like a car's headlight rather than a small flashlight.
Ok, this amplifier is cool but why is it important. The amplifier allowed companies to move away from light to electric to light. In fiber optic system, the signal decays as it travels through the fiber. Once it reaches a certain level, it will become unusable. Thus, you have to boost the signal periodically. Traditionally, communication companies had to take the decayed signal, convert it to electric, then you drive another laser with the weak electric signal. This then completes the light to electric to light again, and you now have a usable signal again. (Until you have to boost the signal again) Anyway, this conversion process created a whole new set of problems. By converting it to electric, you introduced noise. After a "amplifying" the signal a few times, your signal was no longer clean buy now included some noise.
This optical amplifier was important and lead to the FLAG system. If you read Wired a few years ago, they did a really good job of discussing FLAG. FLAG is the "Fiber Optic Link 'round the Globe" and is a _large_ undersea fiber optic cable reaching from UK, to Egypt, to Malaysia, to Japan. This project and other like it, became feasible because of optical amplifiers.
Optical switches are important for the same reason. It will reduce noise and increase reliability of the system.
I would not look to see these switches replace the current technology (as mentioned in a previous post). However, I would expect to see these switches start to become incorporated into new systems such as subsea communication, pipeline right-of-way bandwidth, or other cross country communication networks. There already is a big market for piping ESPN to parts of the country. Imagine that you could route the information more like a phone system than a gas pipeline. This could create a whole new market.
