10G-PON

About: 10G-PON is a research topic. Over the lifetime, 1675 publications have been published within this topic receiving 27843 citations. The topic is also known as: XG-PON.

Network consolidation - how to improve the efficiency of provisioning oriented optical networks

Abstract: Fast provisioning capabilities enabled by signalling intelligence and automated switching flexibility are becoming fundamental features of next generation networks based on optical transport. Throughout the recent years numerous research and development projects, standardisation activities, and a large number of publications have been devoted to fast provisioning enabled optical networks. However, in the related research activities less attention has been paid to network state evolution during provisioning. The main scope of the paper is to propose a consolidation based lifecycle for network design and development of provisioning oriented optical networks in order to improve the performance of networks of this type. The proposal is motivated by the identified inherent lack of capacity efficiency of optical channel provisioning processes.

Highly-efficient ONU power-saving technique with HGW-determined sleep pattern toward next-generation optical access systems

Abstract: We propose a novel power-saving technique by interworking with the home network via the home-gateway. Numerical simulations show it is highly effective even if the UNI throughput is 100 Mbit/s; it has moderate buffer size requirement. It is also shown that the optical and electrical components and command processing for the state transitions must offer quick response times for higher power efficiency.

Optical network control and management technology using OpenFlow

Abstract: In this paper, we review OpenFlow-based control and management technology for optical networks including multi-layer optical networks, multi-domain optical networks and elastic optical networks. We also present the interworking between OpenFlow and PCE/GMPLS control planes.

Introduction to Optical Networks

Abstract: This chapter describes the changing face of the telecom industry. This new face is depicted by the large increase in traffic demands, the increase in data traffic relative to voice traffic, the deregulation of the telecom industry, the need for new and flexible types of services, and an infrastructure to support all of these. The chapter also describes two generations of optical networks: first-generation networks and second-generation networks. First-generation networks use optical fiber as a replacement for copper cable to get higher capacities. Second-generation networks provide circuit-switched light-paths by routing and switching wavelengths inside the network. The key elements that enable this are optical line terminals (OLTs), optical add/drop multiplexers (OADMs), and optical crossconnects (OXCs). Optical packet switching may develop over time but faces several technological hurdles. Finally, there are two complementary approaches to increasing transmission capacity: using wavelength division multiplexing (WDM) and time division multiplexing (TDM).