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Journal articles on the topic 'Next Generation Optical Access network'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 February 2022

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1

Kuznetsov, M., N. M. Froberg, S. R. Henion, H. G. Rao, J. Korn, K. A. Rauschenbach, E. H. Modiano, and V. W. S. Chan. "A next-generation optical regional access network." IEEE Communications Magazine 38, no. 1 (2000): 66–72. http://dx.doi.org/10.1109/35.815454.

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2

Kazovsky, Leonid G., Wei-Tao Shaw, David Gutierrez, Ning Cheng, and Shing-Wa Wong. "Next-Generation Optical Access Networks." Journal of Lightwave Technology 25, no. 11 (November 2007): 3428–42. http://dx.doi.org/10.1109/jlt.2007.907748.

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3

Al-RUBAYE, Saba, Anwer AL-DULAIMI, and Hamed Al-RAWESHIDY. "Next Generation Optical Access Network Using CWDM Technology." International Journal of Communications, Network and System Sciences 02, no. 07 (2009): 636–40. http://dx.doi.org/10.4236/ijcns.2009.27071.

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4

Kramer, G., and G. Pesavento. "Ethernet passive optical network (EPON): building a next-generation optical access network." IEEE Communications Magazine 40, no. 2 (2002): 66–73. http://dx.doi.org/10.1109/35.983910.

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5

Chanclou, Philippe, Anna Cui, Frank Geilhardt, Hirotaka Nakamura, and Derek Nesset. "Network operator requirements for the next generation of optical access networks." IEEE Network 26, no. 2 (March 2012): 8–14. http://dx.doi.org/10.1109/mnet.2012.6172269.

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6

Yuang, Maria, Cedric Lam, Hideo Kuwahara, and Alan Willner. "Next-generation broadband optical access network technologies [Guest editorial." IEEE Journal on Selected Areas in Communications 28, no. 6 (August 2010): 769–72. http://dx.doi.org/10.1109/jsac.2010.100801.

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7

Cvijetic, Neda. "OFDM for Next-Generation Optical Access Networks." Journal of Lightwave Technology 30, no. 4 (February 2012): 384–98. http://dx.doi.org/10.1109/jlt.2011.2166375.

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8

Skubic, Bjorn, Einar In de Betou, Tolga Ayhan, and Stefan Dahlfort. "Energy-efficient next-generation optical access networks." IEEE Communications Magazine 50, no. 1 (January 2012): 122–27. http://dx.doi.org/10.1109/mcom.2012.6122542.

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9

Luo, Yuanqiu, Meng Sui, and Frank Effenberger. "Energy-efficient next generation passive optical network supported access networking." Optical Switching and Networking 14 (August 2014): 43–52. http://dx.doi.org/10.1016/j.osn.2014.01.007.

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10

Breuer, Dirk, Frank Geilhardt, Ralf Hulsermann, Mario Kind, Christoph Lange, Thomas Monath, and Erik Weis. "Opportunities for next-generation optical access." IEEE Communications Magazine 49, no. 2 (February 2011): s16—s24. http://dx.doi.org/10.1109/mcom.2011.5706309.

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11

Breskovic, Damir, Mladen Sikirica, and Dinko Begusic. "Next Generation Access Network Deployment in Croatia: Optical Access Networks and Current IoT/5G Status." Fiber and Integrated Optics 37, no. 3 (March 20, 2018): 123–39. http://dx.doi.org/10.1080/01468030.2018.1452313.

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12

An, F. T., K. S. Kim, D. Gutierrez, S. Yam, E. Hu, K. Shrikhande, and L. G. Kazovsky. "SUCCESS: A Next-Generation Hybrid WDM/TDM Optical Access Network Architecture." Journal of Lightwave Technology 22, no. 11 (November 2004): 2557–69. http://dx.doi.org/10.1109/jlt.2004.836768.

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13

Dixit, Abhishek, Bart Lannoo, Goutam Das, Didier Colle, Mario Pickavet, and Piet Demeester. "Flexible TDMA/WDMA passive optical network: Energy efficient next-generation optical access solution." Optical Switching and Networking 10, no. 4 (November 2013): 491–506. http://dx.doi.org/10.1016/j.osn.2013.03.001.

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14

Wang, K., C. Mas Machuca, L. Wosinska, P. J. Urban, A. Gavler, K. Brunnström, and J. Chen. "Techno-Economic Analysis of Active Optical Network Migration Toward Next-Generation Optical Access." Journal of Optical Communications and Networking 9, no. 4 (March 31, 2017): 327. http://dx.doi.org/10.1364/jocn.9.000327.

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15

Guang Yong Chu, Guang Yong Chu, Adolfo Lerín Adolfo Lerín, Iván N. Cano Iván N. Cano, Victor Polo Victor Polo, and and Josep Prat and Josep Prat. "Coherent ONU based on 850 μm-long cavity-RSOA for next-generation ultra-dense access network." Chinese Optics Letters 14, no. 5 (2016): 050605–50609. http://dx.doi.org/10.3788/col201614.050605.

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16

Wei, Jinlong, Ji Zhou, Elias Giacoumidis, Paul Haigh, and Jianming Tang. "DSP-Based 40 GB/s Lane Rate Next-Generation Access Networks." Future Internet 10, no. 12 (November 30, 2018): 118. http://dx.doi.org/10.3390/fi10120118.

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To address the continuous growth in high-speed ubiquitous access required by residential users and enterprises, Telecommunication operators must upgrade their networks to higher data rates. For optical fiber access networks that directly connect end users to metro/regional network, capacity upgrade must be done in a cost- and energy-efficient manner. 40 Gb/s is the possible lane rate for the next generation passive optical networks (NG-PONs). Ideally, existing 10 G PON components could be reused to support 40 Gb/s lane-rate NG-PON transceiver, which requires efficient modulation format and digital signal processing (DSP) to alleviate the bandwidth limitation and fiber dispersion. The major contribution of this work is to offer insight performance comparisons of 40 Gb/s lane rate electrical three level Duobinary, optical Duobinary, and four-level pulse amplitude modulation (PAM-4) for incorporating low complex DSPs, including linear and nonlinear Volterra equalization, as well as maximum likelihood sequence estimation. Detailed analysis and comparison of the complexity of various DSP algorithms are performed. Transceiver bandwidth optimization is also undertaken. The results show that the choices of proper modulation format and DSP configuration depend on the transmission distances of interest.
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17

Heron, Ronald W., Thomas Pfeiffer, Doutje T. van Veen, Joe Smith, and Sanjay S. Patel. "Technology innovations and architecture solutions for the next-generation optical access network." Bell Labs Technical Journal 13, no. 1 (May 15, 2008): 163–81. http://dx.doi.org/10.1002/bltj.20289.

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18

Zhang, Lijia, Xiangjun Xin, Bo Liu, Jianjun Yu, and Qi Zhang. "A novel ECDM-OFDM-PON architecture for Next-Generation optical access network." Optics Express 18, no. 17 (August 12, 2010): 18347. http://dx.doi.org/10.1364/oe.18.018347.

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19

Maeda, Y. "Standardization trends of next generation optical access systems." IEEE Communications Magazine 44, no. 10 (October 2006): 30–31. http://dx.doi.org/10.1109/mcom.2006.1710409.

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20

Dong, Xiaoqing, Lianglun Cheng, Gengzhong Zheng, and Tao Wang. "Network access and spectrum allocation in next-generation multi-heterogeneous networks." International Journal of Distributed Sensor Networks 15, no. 8 (August 2019): 155014771986614. http://dx.doi.org/10.1177/1550147719866140.

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In a multi-heterogeneous network with dense deployment and convergence environment, how to efficiently and reasonably allocate idle spectrum resources of the primary network to meet the diversified business demands of secondary users is a difficult problem. In this article, with the goal of maximizing the total transmission rate and minimizing the total cost, a dual-objective optimization mathematical model for network selection and idle spectrum allocation is established in the context of comprehensive consideration of the diversity of spectrum resource attributes and the diversification of secondary users’ business needs. Based on this, two kinds of technical paths to solve the complex network selection and spectrum allocation problem are applied in this article. The first is the simplification method. By preprocessing of objective function, constraint simplification, and standardization, the complex spectrum allocation problem is transformed into a standard form of the 01 programming problem, and the solution is obtained by an improved Hungarian algorithm. Second, an intelligent optimization algorithm named improved non-dominated sorting genetic algorithm II is proposed, which combines the interference constraints of the primary network and the service quality requirements of the secondary users into the objective value evaluation of non-dominated sorting, and corrects the chromosomes that do not meet the constraints. And then makes a decision selection on the optimal solution set to select a compromise solution. Finally, methods proposed in this article are compared with the multi-objective artificial bee colony algorithm through experiments. Experimental results show that the simplified method has higher efficiency, and the improved non-dominated sorting genetic algorithm II can get higher transmission rate, especially the transmission rate–priority strategy.
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21

Chimot, Nicolas, Siddharth Joshi, Francois Lelarge, Alain Accard, Jean-Guy Provost, Florent Franchin, and Helene Debregeas-Sillard. "QDash-Based Directly Modulated Lasers for Next-Generation Access Network." IEEE Photonics Technology Letters 25, no. 17 (September 2013): 1660–63. http://dx.doi.org/10.1109/lpt.2013.2272800.

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22

Ha, J. Y., A. Wonfor, P. Ghiggino, R. V. Penty, and I. H. White. "Spectrally efficient next-generation optical access network incorporating a novel CWDM uplink combiner." Optics Express 17, no. 2 (January 13, 2009): 978. http://dx.doi.org/10.1364/oe.17.000978.

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23

Wang, Jianping, Chunming Qiao, Yan Li, and Kejie Lu. "On guaranteed VoD services in next generation optical access networks." IEEE Journal on Selected Areas in Communications 28, no. 6 (August 2010): 875–88. http://dx.doi.org/10.1109/jsac.2010.100812.

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24

Elmagzoub, M. A., Asadullah Shaikh, Abdullah Alghamdi, and Khairan Rajab. "A Review on MIMO Wireless Signals over Fibre for Next Generation Fibre Wireless (FiWi) Broadband Networks." Electronics 9, no. 12 (November 28, 2020): 2014. http://dx.doi.org/10.3390/electronics9122014.

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Next-generation access/mobile networks have set high standards in terms of providing wireless services at high data rates in order to keep up with the vast demands for other mobility and multiple services. Wireless-optical broadband access network (WOBAN) technology, also known as fibre-wireless (FiWi), has uncovered incredible opportunities for the future of next-generation networks because it gets the best of both domains: huge bandwidth provided by the optical fibre and high ubiquity of the wireless domain. The objective of FiWi networks is to integrate the high data rate and long reach provided by optical networks and the ubiquity and mobility of wireless networks, with the target to decrease their expense and complexity. Multiple-input–multiple-output (MIMO) is an inevitable technique for most of the new mobile/wireless networks that are driven by the huge data rates required by today’s users. Consequently, to construct any FiWi system for next-generation (NG) access/broadband networks, an MIMO technique has to be considered. This article presents a comprehensive, contemporary review of the latest subsystems, architectures and integrated technologies of MIMO wireless signals backhauling using optical fibre or fibre access networks, such as passive optical networks (PONs). An overview for FiWi, PONs and MIMO wireless systems is provided. In addition, advanced techniques of accommodating the MIMO wireless signals over optical fibre are explained and compared. Different types of wireless MIMO signals over fibre, such as 5G, WiFi and related transport technologies, are reviewed. Moreover, future research trends are also discussed.
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25

Park, Kihwan. "OATM/WDM Optical Access Network Using Header Decoder-Based Router for Next-Generation Communications." Journal of the Optical Society of Korea 20, no. 3 (June 25, 2016): 335–42. http://dx.doi.org/10.3807/josk.2016.20.3.335.

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26

Clupek, Vlastimil, Tomas Horvath, Petr Munster, and Vaclav Oujezsky. "New Security Improvements in Next-Generation Passive Optical Networks Stage 2." Applied Sciences 9, no. 20 (October 18, 2019): 4430. http://dx.doi.org/10.3390/app9204430.

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Passive optical networks are currently the most promising solution for access networks. These networks rely on broadcast signal distribution in the downstream direction and unicast signal transmission in the upstream direction. The upstream direction is controlled by optical line termination (OLT). The broadcast transmission method increases security vulnerability because the attacker is able to connect his/her modified optical network unit (ONU) to the free port of the splitter (commonly in the basement). We present the concept for the activation process of ONUs based on physical unclonable function (PUF) for next-generation passive optical networks stage 2 (NG-PON2). The use of PUF increases security in the NG-PON2. Furthermore, the registration identifier (ID) is not stored in a nonvolatile memory, in comparison with the common solution defined by the International Telecommunication Union (ITU) recommendation G.989.3. An attacker cannot perform a reverse engineering attack to obtain the registration ID. For this reason, the attacker cannot clone an ONU. We proposed security improvements that involve authentication, encryption, integrity protection, and data origin verification methods in the NG-PON2. Our model uses the standard implementation of the transmission convergence layer of NG-PON2 with the new physical layer operations, administration, and maintenance (PLOAM) messages. The recommendation G.989.3 allows specifying own PLOAM messages since not all IDs are used in the current specification.
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27

Lin, Shu-Chuan, San-Liang Lee, Han-Hyuan Lin, Gerd Keiser, and Rajeev J. Ram. "Cross-Seeding Schemes for WDM-Based Next-Generation Optical Access Networks." Journal of Lightwave Technology 29, no. 24 (December 2011): 3727–36. http://dx.doi.org/10.1109/jlt.2011.2174194.

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28

Zou, Jim (Shihuan), Silviu Adrian Sasu, Mirko Lawin, Annika Dochhan, Jörg-Peter Elbers, and Michael Eiselt. "Advanced optical access technologies for next-generation (5G) mobile networks [Invited]." Journal of Optical Communications and Networking 12, no. 10 (June 23, 2020): D86. http://dx.doi.org/10.1364/jocn.391033.

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29

Mas Machuca, Carmen, Lena Wosinska, and Jiajia Chen. "Assessment methodology of protection schemes for next generation optical access networks." Optical Fiber Technology 26 (December 2015): 82–93. http://dx.doi.org/10.1016/j.yofte.2015.07.014.

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30

Mahloo, Mozhgan, Carmen Mas Machuca, Jiajia Chen, and Lena Wosinska. "Protection cost evaluation of WDM-based next generation optical access networks." Optical Switching and Networking 10, no. 1 (January 2013): 89–99. http://dx.doi.org/10.1016/j.osn.2012.07.002.

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31

Zhang, Lijia, Xiangjun Xin, Bo Liu, Qi Zhang, Jianjun Yu, Nan Chi, and Chongxiu Yu. "A Novel MAMSK-OFDM Technology for Next-Generation Optical Access Networks." IEEE Photonics Technology Letters 23, no. 1 (January 2011): 60–62. http://dx.doi.org/10.1109/lpt.2010.2091118.

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32

Yu-Li Hsueh, Wei-Tao Shaw, L. G. Kazovsky, A. Agata, and S. Yamamoto. "Success PON demonstrator: experimental exploration of next-generation optical access networks." IEEE Communications Magazine 43, no. 8 (August 2005): S26—S33. http://dx.doi.org/10.1109/mcom.2005.1497553.

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33

Dhaini, Ahmad R., Pin-Han Ho, Gangxiang Shen, and Basem Shihada. "Energy Efficiency in TDMA-Based Next-Generation Passive Optical Access Networks." IEEE/ACM Transactions on Networking 22, no. 3 (June 2014): 850–63. http://dx.doi.org/10.1109/tnet.2013.2259596.

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34

Mohamed, Ibrahim M. M., and Mohammad Syuhaimi Bin Ab-Rahman. "Options and challenges in next-generation optical access networks (NG-OANs)." Optik 126, no. 1 (January 2015): 131–38. http://dx.doi.org/10.1016/j.ijleo.2014.08.131.

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35

Pinho, Cátia, Francisco Rodrigues, Ana Maia Tavares, Carla Rodrigues, Cláudio Emanuel Rodrigues, and António Teixeira. "Photonic Integrated Circuits for NGPON2 ONU Transceivers (Invited)." Applied Sciences 10, no. 11 (June 10, 2020): 4024. http://dx.doi.org/10.3390/app10114024.

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The development of photonic integrated circuits (PIC) for access network applications, such as passive optical networks (PON), constitutes a very attractive ecosystem due to PON’s potential mass market. The implementation of PIC solutions in this context is expected to facilitate the possibility of increasing the complexity and functionalities of devices at a potentially lower cost. We present a review addressing the prominent access network market requirements and the main restrictions stemming from its specific field of application. Higher focus is given to PON devices for the optical network unit (ONU) and the implications of designing a device ready for market by discussing its various perspectives in terms of technology and cost. The discussed PIC solutions/approaches in this paper are mainly based on indium phosphide (InP) technology, due to its monolithic integration capabilities. A comprehensive set of guidelines considering the current technology limitations, benefits, and processes are presented. Additionally, key current approaches and efforts are analyzed for PON next generations, such as next-generation PON 2 (NGPON2) and high-speed PON (HSP).
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36

Wu, Bin, Hongxi Yin, Jie Qin, Chang Liu, Anliang Liu, Qi Shao, and Xiaoguang Xu. "Design and implementation of flexible TWDM-PON with PtP WDM overlay based on WSS for next-generation optical access networks." Modern Physics Letters B 30, no. 25 (September 20, 2016): 1650324. http://dx.doi.org/10.1142/s0217984916503243.

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Aiming at the increasing demand of the diversification services and flexible bandwidth allocation of the future access networks, a flexible passive optical network (PON) scheme combining time and wavelength division multiplexing (TWDM) with point-to-point wavelength division multiplexing (PtP WDM) overlay is proposed for the next-generation optical access networks in this paper. A novel software-defined optical distribution network (ODN) structure is designed based on wavelength selective switches (WSS), which can implement wavelength and bandwidth dynamical allocations and suits for the bursty traffic. The experimental results reveal that the TWDM-PON can provide 40 Gb/s downstream and 10 Gb/s upstream data transmission, while the PtP WDM-PON can support 10 GHz point-to-point dedicated bandwidth as the overlay complement system. The wavelengths of the TWDM-PON and PtP WDM-PON are allocated dynamically based on WSS, which verifies the feasibility of the proposed structure.
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37

Lv, Yunxin, Ning Jiang, Kun Qiu, and Chenpeng Xue. "Study on the energy-efficient scheme based on the interconnection of optical-network-units for next generation optical access network." Optics Communications 332 (December 2014): 114–18. http://dx.doi.org/10.1016/j.optcom.2014.06.055.

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38

Chen, Chen, Chongfu Zhang, Wei Zhang, Wei Jin, and Kun Qiu. "Scalable and reconfigurable generation of flat optical comb for WDM-based next-generation broadband optical access networks." Optics Communications 321 (June 2014): 16–22. http://dx.doi.org/10.1016/j.optcom.2014.01.059.

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39

Ghazisaidi, Navid, Michael Scheutzow, and Martin Maier. "Survivability Analysis of Next-Generation Passive Optical Networks and Fiber-Wireless Access Networks." IEEE Transactions on Reliability 60, no. 2 (June 2011): 479–92. http://dx.doi.org/10.1109/tr.2011.2134210.

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40

Amaya, F., A. Cárdenas, and I. Tafur. "Modeling the video distribution link in the Next Generation Optical Access Networks." Journal of Physics: Conference Series 274 (January 1, 2011): 012012. http://dx.doi.org/10.1088/1742-6596/274/1/012012.

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41

Neaime, Joelle, and Ahmad R. Dhaini. "Resource Management in Cloud and Tactile-Capable Next-Generation Optical Access Networks." Journal of Optical Communications and Networking 10, no. 11 (September 26, 2018): 902. http://dx.doi.org/10.1364/jocn.10.000902.

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42

van Veen, Dora, Marco Presi, Naoki Suzuki, and Vincent Houtsma. "Editorial: JLT Special Issue on DSP in Next Generation Optical Access Networks." Journal of Lightwave Technology 38, no. 3 (February 1, 2020): 555–56. http://dx.doi.org/10.1109/jlt.2020.2967876.

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43

Cho, K. Y., B. S. Choi, Y. Takushima, and Y. C. Chung. "25.78-Gb/s Operation of RSOA for Next-Generation Optical Access Networks." IEEE Photonics Technology Letters 23, no. 8 (April 2011): 495–97. http://dx.doi.org/10.1109/lpt.2011.2112759.

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44

Róka, Rastislav. "An Effective Evaluation of Wavelength Scheduling for Various WDM-PON Network Designs with Traffic Protection Provision." Symmetry 13, no. 8 (August 23, 2021): 1540. http://dx.doi.org/10.3390/sym13081540.

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Recently, metropolitan and access communication networks have markedly developed by utilizing a variety of technologies. Their bearer communication infrastructures will be mostly exploiting the optical transmission medium where wavelength division multiplexing techniques will play an important role. This contribution discusses the symmetric sharing of common optical network resources in wavelength and time domains. Wavelength-Division Multiplexed Passive Optical Networks (WDM-PON) attract considerable attention regarding the next generation of optical metropolitan and access networks. The main purpose of this contribution is presented by the analysis of possible scheduling of wavelengths for our novel hybrid network topologies considered for WDM-PON networks. This contribution briefly deploys adequate Dynamic Wavelength Allocation (DWA) algorithms for selected WDM-PON network designs with the provision of traffic protection when only passive optical components in remote nodes are utilized. The main part of this study is focused on the use of wavelength scheduling methods for selected WDM-PON network designs. For evaluation of offline and online wavelength scheduling for novel hybrid network topologies, a simulation model realized in the Matlab programming environment allows to analyze interactions between various metropolitan and access parts in the Optical Distribution Network (ODN) related to advanced WDM-PON network designs. Finally, wavelength scheduling methods are compared from a viewpoint of utilization in advanced WDM-PON networks designs.
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45

TAJIMA, Akio, Hiroki YANAGISAWA, and Seigo TAKAHASHI. "Next Generation Optical Access Network: Standardization Outline and Key Technologies for Co-existence with Legacy Systems." IEICE Transactions on Electronics E93.C, no. 7 (2010): 1146–51. http://dx.doi.org/10.1587/transele.e93.c.1146.

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46

Mehedy, Lenin, Masuduzzaman Bakaul, and Ampalavanapillai Nirmalathas. "Frequency interleaving towards spectrally efficient directly detected optical OFDM for next-generation optical access networks." Optics Express 18, no. 22 (October 19, 2010): 23161. http://dx.doi.org/10.1364/oe.18.023161.

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47

Ruffini, M., F. Slyne, C. Bluemm, N. Kitsuwan, and S. McGettrick. "Software Defined Networking for Next Generation Converged Metro-Access Networks." Optical Fiber Technology 26 (December 2015): 31–41. http://dx.doi.org/10.1016/j.yofte.2015.08.008.

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48

Jong Hoon Lee, Jung-Hyung Moon, Ki-Man Choi, and Chang-Hee Lee. "Seamless Maintenance and Protection Scheme for Next-Generation Access Networks." IEEE Photonics Technology Letters 21, no. 12 (June 2009): 799–801. http://dx.doi.org/10.1109/lpt.2009.2018136.

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49

Ullah, Rahat, Bo Liu, Qi Zhang, Qinghua Tian, Amjad Ali, Yousaf Khan, Feng Tian, et al. "Cost effective scheme for OLT in next generation passive optical access network based on noise free optical multi carrier." China Communications 13, no. 6 (June 2016): 76–87. http://dx.doi.org/10.1109/cc.2016.7513204.

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50

Wei, Jinlong, and Elias Giacoumidis. "Multi-band CAP for Next-Generation Optical Access Networks Using 10-G Optics." Journal of Lightwave Technology 36, no. 2 (January 15, 2018): 551–59. http://dx.doi.org/10.1109/jlt.2017.2772894.

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