Add to ORKGFast optical switching (ms timebase) is realized by using a RF frequency tone inserted in the optical packet that carries a digital payload. By using a highly selective RF filtering for optical packet header frequency recognition, we have obtained excellent performance in optical switching function.. The RF header is detected at optical node input, and signals the node switching control, which instantly directs the packet to a prescribed output. No electronic processing of the digital payload is performed. The optical circuit is noise-free, has very low crosstalk, and is extremely selective in header frequency detection. BER measurements for payload consistently yield figures as low as 10-12 . This system is applicable to optical metropolit...
\u3cp\u3eWe demonstrate a novel all-optical header processing system based on time-to-wavelength con...
Demonstration of all-optical packet switching at 160 Gb/s over a total of 110-km field installed opt...
We investigate photonic packet switches that allow scaling to a large number of input and output por...
We demonstrate a novel optical packet switching and routing system applicable to future photonic net...
Optical signal processing for packet switching is discussed. Starting from a packet switch architect...
A new photonic packet switch based on wavelength encoding of information and on the broadcast-and-se...
Optical packet switching has received considerable attention over the last few years. In this paper...
Optical packet switching has received considerable attention over the last few years. In this paper ...
We propose a novel labeling technique for an optical packet switch based on in-band RF tones. We dem...
A novel all-optical packet switching concept with all-optical header processing and all-optical stor...
A new photonic packet switch based on wavelength encoding ofinformation and on the broadcast-and-sel...
Optical packet switching promises to bring the flexibility and efficiency of the Internet to transpa...
We discuss how all-optical signal processing might play a role in future all-optical packet switched...
Optical packet switches that introduce little latency, scale to large port-count and handles high-bi...
\u3cp\u3eWe demonstrate a novel all-optical header processing system based on time-to-wavelength con...
Demonstration of all-optical packet switching at 160 Gb/s over a total of 110-km field installed opt...
We investigate photonic packet switches that allow scaling to a large number of input and output por...
We demonstrate a novel optical packet switching and routing system applicable to future photonic net...
Optical signal processing for packet switching is discussed. Starting from a packet switch architect...
A new photonic packet switch based on wavelength encoding of information and on the broadcast-and-se...
Optical packet switching has received considerable attention over the last few years. In this paper...
Optical packet switching has received considerable attention over the last few years. In this paper ...
We propose a novel labeling technique for an optical packet switch based on in-band RF tones. We dem...
A novel all-optical packet switching concept with all-optical header processing and all-optical stor...
A new photonic packet switch based on wavelength encoding ofinformation and on the broadcast-and-sel...
Optical packet switching promises to bring the flexibility and efficiency of the Internet to transpa...
We discuss how all-optical signal processing might play a role in future all-optical packet switched...
Optical packet switches that introduce little latency, scale to large port-count and handles high-bi...
\u3cp\u3eWe demonstrate a novel all-optical header processing system based on time-to-wavelength con...
Demonstration of all-optical packet switching at 160 Gb/s over a total of 110-km field installed opt...
We investigate photonic packet switches that allow scaling to a large number of input and output por...