Title :
LARnet, a local access router network
Author :
Zirngibl, M. ; Joyner, C.H. ; Stulz, L.W. ; Dragone, C. ; Presby, H.M. ; Kaminow, I.P.
Author_Institution :
AT&T Bell Labs., Holmdel, NJ, USA
Abstract :
A novel local access network, LARNet, is proposed and demonstrated. A multifrequency laser, whose wavelength COMB94 is matched to that of a passive waveguide router in the remote node, is used as a downstream signal source. A 1.3-μm commercially available LED provides the upstream signal. LARNet solves a major problem of WDM networks, the spectral alignment between the optical wavelengths of different channels. Furthermore. The expensive components are shared among all subscribers. Our measurements indicate that aggregate rates of 2 Gbps downstream and 155 Mbps upstream are feasible.
Keywords :
light emitting diodes; local area networks; optical fibre LAN; optical fibre subscriber loops; telecommunication network routing; time division multiplexing; 1.3 mum; 155 Mbit/s; 2 Gbit/s; LARnet; LED; WDM networks; aggregate rates; downstream signal source; local access router network; matched; multifrequency laser; optical wavelengths; passive waveguide router; remote node; spectral alignment; subscribers; upstream signal; wavelength COMB94; Optical filters; Optical network units; Optical receivers; Optical transmitters; Optical waveguides; Passive optical networks; Stimulated emission; Time division multiplexing; Waveguide lasers; Wavelength division multiplexing;
Journal_Title :
Photonics Technology Letters, IEEE
