Topic
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.
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Papers
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01 Nov 2013TL;DR: Two different optimizations are alternatively evaluated, fiber and trenching minimization, over two of the most typical fiber access architectures, Point-to-Point (P2P) and Passive Optical Network (PON), and the best returned output in terms of minimum trenching and fiber length is highlighted.
Abstract: Due to the emergence of high bandwidth-requiring services, telecommunication operators (telcos) are called to upgrade their fixed access network. In order to keep up with the competition, they must consider different optical access network solutions with Fiber To The Home (FTTH) as the prevailing one. It provides an obvious advantage for the end users in terms of high achievable data rates. On the other hand, the high initial deployment cost required exists as the heaviest impediment. The main goal of this paper is to study different approaches when designing a fiber access network. More concretely, two different optimizations are alternatively evaluated, fiber and trenching minimization, over two of the most typical fiber access architectures, Point-to-Point (P2P) and Passive Optical Network (PON). These are applied to a real geographical scenario and the best returned output in terms of minimum trenching and fiber length is highlighted. Finally, a physical topology that fits best in one of these architectures will be chosen with regards to minimum total capital expenditure (CAPEX).
7 citations
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03 Nov 2011
TL;DR: In this article, the authors propose a scalable triple M routing framework for dynamic optical networks and first experimentally demonstrate a DREAM-based optical transport network with 1000 control plane nodes and multi-terabit per second ODUk electrical cross-connects.
Abstract: We propose a scalable framework for triple M routing in dynamic optical networks and first experimentally demonstrates a DREAM-based optical transport network with 1000 control plane nodes and multi-terabit per second ODUk electrical cross-connects.
7 citations
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TL;DR: Main focus is on the realization of a node amplifying a burst mode signal, and the reliability and upgradeability of such networks, in an access network based on a cascade of PONs.
Abstract: Currently, the developed bi-directional broadband Passive Optical Networks (PONs) have a maximum splitting factor around 32 and a range less than 20 km. Due to the expected switching node consolidation the access network will have to cover a wider range. An access network based on a cascade of PONs is proposed. Optical transmission is supported by the introduction of optical amplifiers, offering the advantage of transparency. In this paper, the technological issues to realize a high split, wide range PON are discussed. Main focus is on the realization of a node amplifying a burst mode signal, and the reliability and upgradeability of such networks.© (1995) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.
7 citations
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10 Nov 2014TL;DR: Possible architectures and requirements of a mobile optical network that forms mobile fronthaul and mobile backhaul of the small cells, as well as some passive optical network (PON)-based technologies are provided.
Abstract: As a future step of LTE-Advanced, future radio access based on large numbers of small cells of various types has been studied. Possible architectures and requirements of a mobile optical network that forms mobile fronthaul and mobile backhaul of the small cells, as well as some passive optical network (PON)-based technologies are provided.
7 citations
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01 Oct 2006TL;DR: Desirable features of network architectures for delivering future super broadband (>1 Gb/s) symmetric wireless services over optical access networks are investigated and system integration for transmission of optical mm-wave over both fiber and air is discussed.
Abstract: Desirable features of network architectures for delivering future super broadband (>1 Gb/s) symmetric wireless services over optical access networks are investigated. Requirements of signal generation and system integration for transmission of optical mm-wave over both fiber and air will be discussed.
7 citations