Title :
Optical time division multiplexing: systems and networks
Author :
Spirit, Dave M. ; Ellis, Andrew D. ; Barnsley, Pete E.
Author_Institution :
Network Res. Unit, British Telecom Res. Labs., Ipswich, UK
Abstract :
The recent advances in optical time division multiplexed (OTDM) systems and components research show the technique to be highly suited to the generation and transmission of high capacity data on a single optical carrier. This approach uses a single wavelength to carry capacities of at least 40 Gb/s. Such systems are based on a clock frequency and tributary data rates which are easily accessible using electronic components. Short optical pulses are used in a return-to-zero data transmission format with temporal interleaving to map a number of optical data channels into a single electronic clock cycle. It is an approach that can be used to achieve extremely high data-rate bit interleaved systems. This article summarizes the developments in this field and outlines a possible methodology to evolve transport networks to encompass the potential that both WDM and OTDM have to offer.<>
Keywords :
optical communication equipment; optical fibre networks; time division multiplexing; wavelength division multiplexing; 40 Gbit/s; OTDM networks; OTDM systems; WDM; bit interleaved systems; clock frequency; electronic clock cycle; electronic components; optical carrier; optical data channels; optical time division multiplexing; return-to-zero data transmission format; short optical pulses; temporal interleaving; transport networks; tributary data rates; Clocks; Data communication; Electronic components; Frequency; Interleaved codes; Optical devices; Optical fiber networks; Optical pulses; Time division multiplexing; Ultraviolet sources;
Journal_Title :
Communications Magazine, IEEE
