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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17 Mar 2001TL;DR: In this paper, the authors present the potential of newly emerging optical layer networks that support a rapidly growing Internet backbone, and the potential stems from the value of extended reach to remove costly regenerators and configurability to reduce provisioning times between IP routers.
Abstract: There is enormous potential in newly emerging optical layer networks that support a rapidly growing Internet backbone. This potential stems from the value of extended reach to remove costly regenerators, the value of configurability to reduce provisioning times between IP routers, and the value of optical peering to increase the efficiency of the EP backbone network.
17 citations
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25 Mar 2007TL;DR: The first demonstration of an agile WDM-PON architecture compatible with radio-over-fiber system to provide 2.5Gbit/s symmetric data services is presented.
Abstract: We present the first demonstration of an agile WDM-PON architecture compatible with radio-over-fiber system to provide 2.5Gbit/s symmetric data services. Several enabling techniques are employed to increase transmission capacity while keeping low cost.
17 citations
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TL;DR: This article analyzes and explores four architectures for a typical large ISP backbone and proposes an integrated architecture for IP over optical cross-connect networks that may provide an attractive alternative for providing rapid and cost-effective restoration from network failures.
Abstract: IP over optical network architectures have been extensively discussed within the research literature over the past few years. However, although signaling protocols between IP routers and optical cross-connect networks have been standardized, large IP backbones are not typically deployed over optical cross-connect networks with automatic reconfigurability features, such as automatic restoration or dynamic establishment of new IP links. One of the most important criteria in determining whether an IP backbone should be carried over such an optical cross-connect network is economic viability. In this article we analyze and explore four architectures for a typical large ISP backbone. In contrast with some other published claims, our results suggest it is more economically attractive to bypass an intermediate cross-connect network, given current equipment and IP backbone network design requirements. However, for ISPs who also provide a large volume of private line services, we propose an integrated architecture for IP over optical cross-connect networks that may provide an attractive alternative for providing rapid and cost-effective restoration from network failures
17 citations
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22 Mar 2015TL;DR: An overview of the underlying drivers for capacity growth is provided and technologies and emerging management models (e.g., SDN) to actualize and manage this capacity in terrestrial long haul and subsea links are discussed.
Abstract: We provide an overview of the underlying drivers for capacity growth and discuss technologies and emerging management models (e.g., SDN) to actualize and manage this capacity in terrestrial long haul and subsea links.
17 citations
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TL;DR: The proposed ring-based EPON architecture facilitates the implementation of the X2 interface for LTE network by enabling the optical network units of the EPON backhaul to directly communicate with each other.
Abstract: This paper proposes a ring-based integrated wireless optical network architecture and an associated protocol that involves Ethernet passive optical network (EPON) and long term evolution (LTE) wireless network. The architecture along with the proposed protocol is instrumental toward the reduction of handover delay. The proposed ring-based EPON architecture facilitates the implementation of the X2 interface for LTE network by enabling the optical network units of the EPON backhaul to directly communicate with each other. The work further discusses about an open access network architecture where a single EPON can be used by multiple mobile service providers without compromising information security. Extensive simulations have been carried out to evaluate the performance of the proposed network. An analytical model has been introduced to calculate the queuing delay experienced by the X2 interface. The model has been validated with the simulations results.
17 citations