Field deployment and evaluation of 1510 nm data communication network for MONET Washington DC network trial

We report on the design and field performance evaluation of an embedded, out-of-band, 1510-nm data communication network (DCN) at OC-3c data rate for the eight-wavelength, reconfigurable MONET washington D.C. testbed. The results of this field trial demonstrate that a multinode control and managemen...

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Hauptverfasser:	Dai, H., Chang, G.K., Meagher, B., Young, J., Xin, W., Yoo, S.J., Ellinas, G., Andersen, W.T., McFarland, R., Gary, P., Dardy, H.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Asynchronous transfer mode Data communication Fabrics Optical design Optical fiber communication Optical fiber networks Physical layer Springs Switches Wavelength division multiplexing
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container_end_page	189 vol.2
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creator	Dai, H. Chang, G.K. Meagher, B. Young, J. Xin, W. Yoo, S.J. Ellinas, G. Andersen, W.T. McFarland, R. Gary, P. Dardy, H.
description	We report on the design and field performance evaluation of an embedded, out-of-band, 1510-nm data communication network (DCN) at OC-3c data rate for the eight-wavelength, reconfigurable MONET washington D.C. testbed. The results of this field trial demonstrate that a multinode control and management system can depend on such a highly reliable DCN.
doi_str_mv	10.1109/OFC.1999.766378
format	Conference Proceeding
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subjects	Asynchronous transfer mode Data communication Fabrics Optical design Optical fiber communication Optical fiber networks Physical layer Springs Switches Wavelength division multiplexing
title	Field deployment and evaluation of 1510 nm data communication network for MONET Washington DC network trial
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