Abstract
In the very last years, optical access networks are growing very rapidly, from both the network operators and the research interests points of view. Fiber To The Home (FTTH) is already a reality in plenty of real contexts and there has been a further stimulus to the proposal of new solutions and the investigation of new possibilities, in order to optimize network performance and reduce capital and operational expenditure. A complete and systematic overview of passive optical access networks is presented in this paper, concerning both the hot research topics and the main operative issues about the design guidelines and the deployment of Passive Optical Networks (PON) architectures, nowadays the most commonly implemented approach to realize optical fiber links in the access networks. A comparison of advantages and disadvantages of different multiplexing techniques is discussed, with specific reference to WDM-based networks, almost universally considered as the enabling technology for future proof bandwidth requirements. An exhaustive summary is also given about the-state-of-the-art of modulation and encoding techniques recently proposed by the scientific community, as well as the open challenges (such as colorless and coolerless ONUs) for telecom companies and international standardization compliance.
Highlights
In the very last years, optical access networks are growing very rapidly, from both the network operators and the research interests points of view
Long links operating at high symbol rate can require the use of polarization mode dispersion compensators (PMDCs) whose features are described in the recommendation ITU-T G.666 [19]
In order to further increase the number of users on a single Passive Optical Networks (PON) tree, two future trends can be predicted: a progressive channel bandwidth shrinking in favor of Ultra-dense WDM (UDWDM) solutions or the adoption of innovative multiplexing techniques (e.g., optical code division multiplexing (OCDM) and orthogonal frequency division multiplexing (OFDM)) over dense WDM (DWDM) wavelength grid
Summary
This aspect, combined with fiber group velocity dispersion (GVD), should limit the available reach Both LiNbO3 Mach-Zehnder interferometers and electro-absorption modulators can be used in order to increase both bandwidth and extinction ratio and reduce the insertion losses. In LR-PONs, in-line amplifier configuration is preferable to booster solution basically for two reasons: a booster amplifier would require very high saturation power not achievable and the optical signal reaches the amplifier input port when it has already been attenuated through the feeder fiber, avoiding the non-linear effects induced by high powers. Long links operating at high symbol rate can require the use of polarization mode dispersion compensators (PMDCs) whose features are described in the recommendation ITU-T G.666 [19] Both line PMDCs, in the middle of the transmission link, and PMDC receivers, with compensating functionalities integrated in the terminal, can be used [17]. A micro-structured fiber, reported in 2004, shows an effective area of 130 μm, despite a quite large dispersion, 27 ps/(nm·km) and a loss of 0.48 dB/km [20]
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