Assessing the Scalability of Next-Generation Wavelength Switched Optical Networks

Rizzelli, Giuseppe; Maier, G.; Quagliotti, Marco; Schiano, M.; Pattavina, Achille

doi:10.1109/jlt.2014.2315759

Cited by 15 publications

(2 citation statements)

References 17 publications

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“…Rapid development of access and backbone optical networks has created a situation in which they have become the basic solutions that can simultaneously offer alike resource management mechanisms with high variability of service quality and high bitrates. Presently, and concurrently with the development of systems based on Dense Wavelength-Division Multiplexing (DWDM) technology, telecommunications optical networks of the next generation are the subject of intense research and interest in a large number of research centres and the subject of a large number of publications [1,2].…”

Section: Introductionmentioning

confidence: 99%

Modelling and Optimization of Multi-Service Optical Switching Networks with Threshold Management Mechanisms

2021

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DWDM networks make use of optical switching networks that allow light waves of multiple lengths to be serviced and provide the possibility of converting them appropriately. Research work on optical switching networks focuses on two main areas of interest: new non-blocking structures for optical switching networks and finding traffic characteristics of switching networks of the structures that are already well known. In practical design of switching nodes in optical networks, in many cases, the Clos switching networks are successfully used. Clos switching networks are also used in Elastic Optical Networks that can effectively manage allocation of resources to individual multi-service traffic streams. The research outcomes presented in this article deal with the problems of finding traffic characteristics in blocking optical switching networks with known structures. This article aims at presenting an analysis of the influence of traffic management threshold mechanisms on the traffic characteristics of multi-service blocking Clos switching networks that are used in the nodes of elastic optical networks as well as their influence on the traffic efficiency of network nodes. The analysis was carried out on the basis of research studies performed in a specially dedicated purpose-made simulation environment. The article presents a description of the simulation environment used in the experiments. The study was focused on the influence of the threshold mechanism, which is one of the most commonly used and elastic traffic management mechanisms, and on the traffic characteristics of switching networks that service different mixtures of multi-service Erlang, Engset and Pascal traffic streams. The conducted study validates the operational effectiveness and practicality of the application of the threshold mechanism to model traffic characteristics of nodes in an elastic optical network.

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Section: Introductionmentioning

confidence: 99%

Modelling and Optimization of Multi-Service Optical Switching Networks with Threshold Management Mechanisms

2021

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“…To increase the capacity of coherent optical systems and re-configurable and transparent optical networks [1,2] with respect the present level a viable solution is to extend the exploited optical bandwidth beyond the currently used spectral region in the C-band [3]. In this transmission scenario, the optical physical layer plays a crucial role on overall performances, since it affects network design, management and orchestration [4,5].…”

Section: Introductionmentioning

confidence: 99%

Observing the effect of polarization mode dispersion on nonlinear interference generation in wide-band optical links

Pilori¹,

Cantono²,

Ferrari³

et al. 2019

OSA Continuum

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With the extension of the spectral exploitation of optical fibers beyond the Cband, accurate modeling and simulation of nonlinear interference (NLI) generation is of the utmost performance. Models and numerical simulation tools rely on the widely used Manakov equation (ME): however, this approach when considering also the effect of polarization mode dispersion (PMD) is formally valid only over a narrow optical bandwidth. In order to analyze the range of validity of the ME and its applicability to future wide-band systems, we present numerical simulations, showing the interplay between NLI generation and PMD over long dispersion-uncompensated optical links, using coherent polarization division multiplexing (PDM) quadrature amplitude modulation (QAM) formats. Using a Monte-Carlo analysis of different PMD realizations based on the coupled nonlinear Schrödinger equations, we show that PMD has a negligible effect on NLI generation, independently from the total system bandwidth. Based on this, we give strong numerical evidence that the ME can be safely used to estimate NLI generation well beyond its bandwidth of validity that is limited to the PMD coherence bandwidth.

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Energy Efficiency in Optical Networks

Kilper

2020

Springer Handbook of Optical Networks

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Firstly, for the proper understanding of this project, the main architectures and technologies used to develop a network over fiber are going to be presented. In addition, some energy-saving models proposed by different working groups, applicable in a close future at the optical unit, will be introduced. Next, the most important devices used in the deployment of a network over fiber optics are shown. Also, the main technical data, relevant for some simulations described in the final part of the project, are presented. Finally, the results on the energy efficiency of the different technologies discussed will be shown. The efficiency of each one will be studied based on the most important physical parameters in the deployment of an access network over fiber.

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Assessing the Scalability of Next-Generation Wavelength Switched Optical Networks

Cited by 15 publications

References 17 publications

Modelling and Optimization of Multi-Service Optical Switching Networks with Threshold Management Mechanisms

Modelling and Optimization of Multi-Service Optical Switching Networks with Threshold Management Mechanisms

Observing the effect of polarization mode dispersion on nonlinear interference generation in wide-band optical links

Energy Efficiency in Optical Networks

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