New Trends in Optical Networks

doi:10.3390/books978-3-0365-8687-8

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New Trends in Optical Networks

Edited by

September 2023

290 pages

ISBN978-3-0365-8686-1 (Hardback)
ISBN978-3-0365-8687-8 (PDF)

https://doi.org/10.3390/books978-3-0365-8687-8

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This book is a reprint of the Special Issue New Trends in Optical Networks that was published in

Biology & Life Sciences

Chemistry & Materials Science

Computer Science & Mathematics

Engineering

Environmental & Earth Sciences

Physical Sciences

Summary

A photonics-enhanced information and communication infrastructure will be the key enabler that the future digital society, industry, and economy will rely upon, shared by humans and machines. This infrastructure will be connected to a myriad of connected devices. It will require unprecedented capacity, energy, and cost efficiency and ultrafast responsivity for time-sensitive applications for humans and robots.

This reprint covers recent advances and new trends in the research and standardization of optical networks with high impacts on the future digitized society and economy, encompassing all network layers from new optical components to smart network operations. Covered topics include new materials, technologies, and production processes for optical communications devices; high-speed optical transport networks, beyond terabit/s; optical wireless communications; new switching paradigms for flexible capacity scaling, low latency, and time-deterministic networking; virtualized highly flexible network control; integrated fixed-mobile architectures; and convergence of mobile, optical, and cloud computing.

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Keywords

silicon photonics; 3-dB power splitter; low-loss; broadband; shallow-etched rib waveguides; data center networks; elastic optical networks; rearrangeable nonblocking (RNB); edge-coloring; software defined networking (SDN); gigabit passive optical networks (GPONs); online service configuration policies; experimental validation; 5G; beyond 5G; SDN; NFV; convergent network; Xhaul; integrated silicon photonics; tunable filters; ROADM; optical networks; standard essential patents; patent analysis; network analysis; technical analysis; disaggregated optical networks; software defined networking; optical network emulation; passive optical network; digital signal processing; feedforward equalization; decision feedback equalization; noise suppression; beamforming; ultra-dense wireless networks; heterogeneous networks (HetNets); optical wireless communication (OWC); indoor free-space optics (FSO); optical network; multicore fibre; programmable ROADM; bypass connection; 4G/5G; fronthaul; optical-wireless systems; VLC; Software Defined Networking; network slicing; 5G; network automation; L3VPN; silicon photonics; 5G; 6G; co-packaged optics; data centers; integrated photonics; micro-transceiver; high-performance computer (HPC); 5G networks; centralized radio access network; packet-switched xHaul network; optical network; WDM; network planning; network optimization; ILP modeling; multiple-valued logic; data verification; quantum key; linked list; ledger; data centers; integrated photonics; silicon photonics; fiber optics; polymer waveguides; copackaged optics; high-performance computers; optical interconnects; optical communications; optical neural network; fiber; deep learning; software-defined networks; integrated satellite–terrestrial network; semi-physical simulation platform; label-based CCSDS AOS frame switching