Architectural tradeoffs for reconfigurable dense wavelength-division multiplexing systems

Advances in optical technology now allow practical reconfigurable wavelength networks to be constructed. These networks use wavelength-switching components to dynamically route wavelengths, and provide a level of flexibility and scalability previously not possible. Other components such as low-noise...

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Published inIEEE journal of selected topics in quantum electronics Vol. 12; no. 4; pp. 615 - 626
Main Authors Basch, E.B., Egorov, R., Gringeri, S., Elby, S.
Format Journal Article
LanguageEnglish
Published New York IEEE 01.07.2006
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
All-optical networks
Architecture
Dense wavelength division multiplexing (DWDM)
Dynamical systems
Dynamics
Electronics
fiber dispersion
Flexibility
Low-noise amplifiers
modulation formats
network architecture
Networks
optical amplification
Optical amplifiers
Optical devices
Optical fiber networks
Optical modulation
reconfigurable add/drop multiplexer (ROADM)
Scalability
Semiconductor optical amplifiers
Stimulated emission
Transport
Wavelength division multiplexing
wavelength selective switch (WSS)
Wavelengths
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Abstract Advances in optical technology now allow practical reconfigurable wavelength networks to be constructed. These networks use wavelength-switching components to dynamically route wavelengths, and provide a level of flexibility and scalability previously not possible. Other components such as low-noise optical amplifiers, electronic dispersion compensators, and advanced modulation techniques simplify system operation, increase capacity, and extend reach. From an application perspective, the architecture of optical transport networks is evolving based on the requirement to support a higher bandwidth access infrastructure. The network architecture also needs to provide the flexibility to incrementally expand on the basis of customer demand and to provide key features such as optical broadcast to lower the cost of video services. The development of new architectures for optical transport networks and how these networks are influenced by critical system parameters and emerging component technologies is reviewed
AbstractList Advances in optical technology now allow practical reconfigurable wavelength networks to be constructed. These networks use wavelength-switching components to dynamically route wavelengths, and provide a level of flexibility and scalability previously not possible. Other components such as low-noise optical amplifiers, electronic dispersion compensators, and advanced modulation techniques simplify system operation, increase capacity, and extend reach. From an application perspective, the architecture of optical transport networks is evolving based on the requirement to support a higher bandwidth access infrastructure. The network architecture also needs to provide the flexibility to incrementally expand on the basis of customer demand and to provide key features such as optical broadcast to lower the cost of video services. The development of new architectures for optical transport networks and how these networks are influenced by critical system parameters and emerging component technologies is reviewed
Author Gringeri, S.
Egorov, R.
Basch, E.B.
Elby, S.
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Snippet Advances in optical technology now allow practical reconfigurable wavelength networks to be constructed. These networks use wavelength-switching components to...
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SubjectTerms All-optical networks
Architecture
Dense wavelength division multiplexing (DWDM)
Dynamical systems
Dynamics
Electronics
fiber dispersion
Flexibility
Low-noise amplifiers
modulation formats
network architecture
Networks
optical amplification
Optical amplifiers
Optical devices
Optical fiber networks
Optical modulation
reconfigurable add/drop multiplexer (ROADM)
Scalability
Semiconductor optical amplifiers
Stimulated emission
Transport
Wavelength division multiplexing
wavelength selective switch (WSS)
Wavelengths
Title Architectural tradeoffs for reconfigurable dense wavelength-division multiplexing systems
URI https://ieeexplore.ieee.org/document/1668103
https://www.proquest.com/docview/912116396
https://search.proquest.com/docview/896199400
Volume 12
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