We experimentally show a 28 Gb/s PDM-QPSK real-time coherent receiver capable of recovering packet symbol timing and polarizations.
Adaptive Distributed Transmission (ADT) is a novel scheme for transmission of data in a wireless network.
All-optical demultiplexing from 4 x 2.5 Gb/s OTDM data stream is demonstrated using an all-optical switching based on ultrafast nonlinear interferometer (UNI) of semiconductor optical amplifier.
Core optical networks using reconfigurable optical switches and tunable lasers appear to be on the road towards widespread deployment and could evolve to all-optical mesh networks in the coming fut
We experimentally demonstrate the best known 16-ary modulation format in four dimensions at 25.6 Gb/s using coherent optical OFDM, achieving an OSNR gain of 0.58 dB over PDM-QPSK at a symbol error
Both the OIF and IETF inter-domain interfaces for control plane enabled networks are based on GMPLS protocols.
We demonstrate in an experiment that probabilistic shaping increases the capacity of the optical fiber and that it can be used to realize a flexible, versatile transmission system that can operate
We demonstrate and compare distributed and centralized impairment-aware control plane schemes for transparent optical networks with dynamic traffic.
We propose and demonstrate experimentally a novel technique for packet switching on a ring network.
We experimentally demonstrate the rate/reach adaptability of probabilistically constellation-shaped quadrature amplitude modulation from 80 km to 12,000 km using the same transponder hardware at 32