IRIS publication 255314371
Progress in Multichannel All-Optical Regeneration Based on Fiber Technology
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TY - JOUR - Parmigiani, Francesca,Provost, Lionel,Petropoulos, Periklis,Richardson, David J.,Freude, Wolfgang,Leuthold, Juerg,Ellis, Andrew D.,Tomkos, Ioannis - 2012 - April - Ieee Journal Of Selected Topics In Quantum Electronicsieee Journal Of Selected Topics In Quantum Electronics - Progress in Multichannel All-Optical Regeneration Based on Fiber Technology - Validated - () - 18 - 22 - 689 - 700689 - Multiwavelength all-optical regeneration has the potential to substantially increase both the capacity and scalability of future optical networks. In this paper, we review recent promising developments in this area. First, we recall the basic principles of multichannel regeneration of high bit rate signals in optical communication systems before discussing the current technological approaches. We then describe in detail two fiber-based multichannel 2R regeneration techniques for return-to-zero-on-off keying based on 1) dispersion managed systems and 2) direction and polarization multiplexing. We present results illustrating the levels of performance so far achieved and discuss various practical issues and prospects for further performance enhancement.Multiwavelength all-optical regeneration has the potential to substantially increase both the capacity and scalability of future optical networks. In this paper, we review recent promising developments in this area. First, we recall the basic principles of multichannel regeneration of high bit rate signals in optical communication systems before discussing the current technological approaches. We then describe in detail two fiber-based multichannel 2R regeneration techniques for return-to-zero-on-off keying based on 1) dispersion managed systems and 2) direction and polarization multiplexing. We present results illustrating the levels of performance so far achieved and discuss various practical issues and prospects for further performance enhancement. - 1077-260X1077-260X - ://WOS:000301508100018://WOS:000301508100018 DA - 2012/04 ER -
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@article{V255314371, = {Parmigiani, Francesca and Provost, Lionel and Petropoulos, Periklis and Richardson, David J. and Freude, Wolfgang and Leuthold, Juerg and Ellis, Andrew D. and Tomkos, Ioannis }, = {2012}, = {April}, = {Ieee Journal Of Selected Topics In Quantum Electronicsieee Journal Of Selected Topics In Quantum Electronics}, = {Progress in Multichannel All-Optical Regeneration Based on Fiber Technology}, = {Validated}, = {()}, = {18}, = {22}, pages = {689--700689}, = {{Multiwavelength all-optical regeneration has the potential to substantially increase both the capacity and scalability of future optical networks. In this paper, we review recent promising developments in this area. First, we recall the basic principles of multichannel regeneration of high bit rate signals in optical communication systems before discussing the current technological approaches. We then describe in detail two fiber-based multichannel 2R regeneration techniques for return-to-zero-on-off keying based on 1) dispersion managed systems and 2) direction and polarization multiplexing. We present results illustrating the levels of performance so far achieved and discuss various practical issues and prospects for further performance enhancement.Multiwavelength all-optical regeneration has the potential to substantially increase both the capacity and scalability of future optical networks. In this paper, we review recent promising developments in this area. First, we recall the basic principles of multichannel regeneration of high bit rate signals in optical communication systems before discussing the current technological approaches. We then describe in detail two fiber-based multichannel 2R regeneration techniques for return-to-zero-on-off keying based on 1) dispersion managed systems and 2) direction and polarization multiplexing. We present results illustrating the levels of performance so far achieved and discuss various practical issues and prospects for further performance enhancement.}}, issn = {1077-260X1077-260X}, = {://WOS:000301508100018://WOS:000301508100018}, source = {IRIS} }
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AUTHORS | Parmigiani, Francesca,Provost, Lionel,Petropoulos, Periklis,Richardson, David J.,Freude, Wolfgang,Leuthold, Juerg,Ellis, Andrew D.,Tomkos, Ioannis | ||
YEAR | 2012 | ||
MONTH | April | ||
JOURNAL_CODE | Ieee Journal Of Selected Topics In Quantum Electronicsieee Journal Of Selected Topics In Quantum Electronics | ||
TITLE | Progress in Multichannel All-Optical Regeneration Based on Fiber Technology | ||
STATUS | Validated | ||
TIMES_CITED | () | ||
SEARCH_KEYWORD | |||
VOLUME | 18 | ||
ISSUE | 22 | ||
START_PAGE | 689 | ||
END_PAGE | 700689 | ||
ABSTRACT | Multiwavelength all-optical regeneration has the potential to substantially increase both the capacity and scalability of future optical networks. In this paper, we review recent promising developments in this area. First, we recall the basic principles of multichannel regeneration of high bit rate signals in optical communication systems before discussing the current technological approaches. We then describe in detail two fiber-based multichannel 2R regeneration techniques for return-to-zero-on-off keying based on 1) dispersion managed systems and 2) direction and polarization multiplexing. We present results illustrating the levels of performance so far achieved and discuss various practical issues and prospects for further performance enhancement.Multiwavelength all-optical regeneration has the potential to substantially increase both the capacity and scalability of future optical networks. In this paper, we review recent promising developments in this area. First, we recall the basic principles of multichannel regeneration of high bit rate signals in optical communication systems before discussing the current technological approaches. We then describe in detail two fiber-based multichannel 2R regeneration techniques for return-to-zero-on-off keying based on 1) dispersion managed systems and 2) direction and polarization multiplexing. We present results illustrating the levels of performance so far achieved and discuss various practical issues and prospects for further performance enhancement. | ||
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ISBN_ISSN | 1077-260X1077-260X | ||
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URL | ://WOS:000301508100018://WOS:000301508100018 | ||
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