IRIS publication 255314350
Single- and Multi-Carrier Techniques to Build up Tb/s per Channel Transmission Systems
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TY - CONF - Freund, R.,Noelle, M.,Schmidt-Langhorst, C.,Ludwig, R.,Schubert, C.,Bosco, G.,Carena, A.,Poggiolini, P.,Oxenlowe, L.,Galili, M.,Mulvad, H. C. Hansen,Winter, M.,Hillerkuss, D.,Schmogrow, R.,Freude, W.,Leuthold, J.,Ellis, A. D.,Gunning, F. C. Garcia,Zhao, J.,Frascella, P.,Ibrahim, S. K.,Mac Suibhne, N.,Ieee, - ICTON - Single- and Multi-Carrier Techniques to Build up Tb/s per Channel Transmission Systems - 2011 - Unknown - Validated - 1 - () - In this paper, we review emerging technologies to build up Tb/s per channel transmission capacity. The different approaches, mainly based on various implementations of orthogonal frequency division multiplexing, Nyquist wavelength division multiplexing and optical time division multiplexing, are introduced and compared with respect to complexity, spectral efficiency and transmission reach. In addition to this analysis, we review recent Tb/s per channel transmission experiments, which have employed at least one of these techniques, and compare them to conventional WDM systems.In this paper, we review emerging technologies to build up Tb/s per channel transmission capacity. The different approaches, mainly based on various implementations of orthogonal frequency division multiplexing, Nyquist wavelength division multiplexing and optical time division multiplexing, are introduced and compared with respect to complexity, spectral efficiency and transmission reach. In addition to this analysis, we review recent Tb/s per channel transmission experiments, which have employed at least one of these techniques, and compare them to conventional WDM systems. - ://WOS:000307108000005://WOS:000307108000005 DA - 2011/NaN ER -
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@inproceedings{V255314350, = {Freund, R. and Noelle, M. and Schmidt-Langhorst, C. and Ludwig, R. and Schubert, C. and Bosco, G. and Carena, A. and Poggiolini, P. and Oxenlowe, L. and Galili, M. and Mulvad, H. C. Hansen and Winter, M. and Hillerkuss, D. and Schmogrow, R. and Freude, W. and Leuthold, J. and Ellis, A. D. and Gunning, F. C. Garcia and Zhao, J. and Frascella, P. and Ibrahim, S. K. and Mac Suibhne, N. and Ieee, }, = {ICTON}, = {{Single- and Multi-Carrier Techniques to Build up Tb/s per Channel Transmission Systems}}, = {2011}, = {Unknown}, = {Validated}, = {1}, = {()}, = {{In this paper, we review emerging technologies to build up Tb/s per channel transmission capacity. The different approaches, mainly based on various implementations of orthogonal frequency division multiplexing, Nyquist wavelength division multiplexing and optical time division multiplexing, are introduced and compared with respect to complexity, spectral efficiency and transmission reach. In addition to this analysis, we review recent Tb/s per channel transmission experiments, which have employed at least one of these techniques, and compare them to conventional WDM systems.In this paper, we review emerging technologies to build up Tb/s per channel transmission capacity. The different approaches, mainly based on various implementations of orthogonal frequency division multiplexing, Nyquist wavelength division multiplexing and optical time division multiplexing, are introduced and compared with respect to complexity, spectral efficiency and transmission reach. In addition to this analysis, we review recent Tb/s per channel transmission experiments, which have employed at least one of these techniques, and compare them to conventional WDM systems.}}, = {://WOS:000307108000005://WOS:000307108000005}, source = {IRIS} }
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AUTHORS | Freund, R.,Noelle, M.,Schmidt-Langhorst, C.,Ludwig, R.,Schubert, C.,Bosco, G.,Carena, A.,Poggiolini, P.,Oxenlowe, L.,Galili, M.,Mulvad, H. C. Hansen,Winter, M.,Hillerkuss, D.,Schmogrow, R.,Freude, W.,Leuthold, J.,Ellis, A. D.,Gunning, F. C. Garcia,Zhao, J.,Frascella, P.,Ibrahim, S. K.,Mac Suibhne, N.,Ieee, | ||
TITLE | ICTON | ||
PUBLICATION_NAME | Single- and Multi-Carrier Techniques to Build up Tb/s per Channel Transmission Systems | ||
YEAR | 2011 | ||
MONTH | Unknown | ||
STATUS | Validated | ||
PEER_REVIEW | 1 | ||
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ABSTRACT | In this paper, we review emerging technologies to build up Tb/s per channel transmission capacity. The different approaches, mainly based on various implementations of orthogonal frequency division multiplexing, Nyquist wavelength division multiplexing and optical time division multiplexing, are introduced and compared with respect to complexity, spectral efficiency and transmission reach. In addition to this analysis, we review recent Tb/s per channel transmission experiments, which have employed at least one of these techniques, and compare them to conventional WDM systems.In this paper, we review emerging technologies to build up Tb/s per channel transmission capacity. The different approaches, mainly based on various implementations of orthogonal frequency division multiplexing, Nyquist wavelength division multiplexing and optical time division multiplexing, are introduced and compared with respect to complexity, spectral efficiency and transmission reach. In addition to this analysis, we review recent Tb/s per channel transmission experiments, which have employed at least one of these techniques, and compare them to conventional WDM systems. | ||
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URL | ://WOS:000307108000005://WOS:000307108000005 | ||
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