A. Pagano scite author profile

This article reports the work on next generation transponders for optical networks carried out within the last few years. A general architecture supporting super-channels (i.e., optical connections composed of several adjacent subcarriers) and sliceability (i.e., subcarriers grouped in a number of independent super-channels with different destinations) is presented. Several transponder implementations supporting different transmission techniques are considered, highlighting advantages, economics, and complexity. Discussions include electronics, optical components, integration, and programmability. Application use cases are reported

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Next generation elastic optical networks: The vision of the European research project IDEALIST

Napoli

et al. 2015

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In this work we detail the strategies adopted in the European research project IDEALIST to overcome the predicted data plane capacity crunch in optical networks. In order for core and metropolitan telecommunication systems to be able to catch up with Internet traffic, which keeps growing exponentially, we exploit the elastic optical networks paradigm for its astounding characteristics: flexible bandwidth allocation and reach tailoring through adaptive line rate, modulation formats, and spectral efficiency. We emphasize the novelties stemming from the flex-grid concept and report on the corresponding proposed target network scenarios. Fundamental building blocks, like the bandwidth-variable transponder and complementary node architectures ushering those systems, are detailed focusing on physical layer, monitoring aspects, and node architecture design

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Network Planning With Actual Margins

Soumplis

Christodoulopoulos

Quagliotti

et al. 2017

J. Lightwave Technol.

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Multi-Period Planning With Actual Physical and Traffic Conditions

Soumplis¹,

Christodoulopoulos²,

Quagliotti

et al. 2017

J. Opt. Commun. Netw.

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ORCHESTRA - Optical performance monitoring enabling flexible networking

Christodoulopoulos

Kokkinos

Giglio

et al. 2015

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An optical network, like any system, has to be observable before it can become subject to optimization, and this is the main capability that ORCHESTRA project introduces. ORCHESTRA's high observability will rely on information provided by the coherent transceivers that can be extended, almost for free, to operate as software defined optical performance monitors (soft-OPM). Novel digital signal processing (DSP) OPM algorithms will be developed and combined with a novel hierarchical monitoring plane, cross-layer optimization algorithms and active-control functionalities. ORCHESTRA vision is to close the control loop, enabling true network dynamicity and unprecedented network capacity efficiency

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A. Pagano

Next generation sliceable bandwidth variable transponders

Next generation elastic optical networks: The vision of the European research project IDEALIST

Network Planning With Actual Margins

Multi-Period Planning With Actual Physical and Traffic Conditions

ORCHESTRA - Optical performance monitoring enabling flexible networking

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