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The passive optical networks are widely used nowadays. Service providers have many customers in their distribution networks. The most important thing for communication between the end unit and the control unit is an establishment contact. Design and measurement of the activation process between optical network unit and optical line termination is presented. In general, the service providers have a big split ratio (up to 1:128) due to the connection eminent value of the customers per optical line termination port in chassis. We present the simulation of the connection process for 16, 32, 64, and 128 optical network units and the measurement for single optical network unit (the GPON Xpert is able to read a single connection process). We compare our results in simulation discussion.
Czasopismo
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Tom
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459--471
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Bibliogr. 15 poz., rys., tab.
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- Brno University of Technology, Faculty of Elecrical Engineering and Communication, Department of Telecommunications, Technicka 12, 616 00, Brno, Czech Republic
autor
- Brno University of Technology, Faculty of Elecrical Engineering and Communication, Department of Telecommunications, Technicka 12, 616 00, Brno, Czech Republic
autor
- Brno University of Technology, Faculty of Elecrical Engineering and Communication, Department of Physics, Technicka 8, 616 00, Brno, Czech Republic
autor
- Brno University of Technology, Faculty of Elecrical Engineering and Communication, Department of Telecommunications, Technicka 12, 616 00, Brno, Czech Republic
autor
- Brno University of Technology, Faculty of Elecrical Engineering and Communication, Department of Telecommunications, Technicka 12, 616 00, Brno, Czech Republic
Bibliografia
- [1] Cisco: The Zettabyte Era: Trends and Analysis, Cisco (online). Available from: http://www.cisco.com/c/en/us/solutions/collateral/service-provider/visual-networking-index-vni/VNI_Hyperconnectivity_WP.pdf
- [2] JACKSON M., UK ultrafast FTTH fiber optic broadband lines slow to grow – global ranking, February 18–20, 2014, http://www.ispreview.co.uk/
- [3] PAN H., China Telecom Monthly Newsletter 17(11), 2010, pp. 1–5.
- [4] SMITH T.G., TUCKER R.S., HINTON K., TRAN A.V., Packet delay variance and bandwidth allocation algorithms for extended-reach GPON, [In] 14th OptoElectronics and Communications Conference, 2009, OECC 2009, pp. 1–2.
- [5] KYEONG-HWAN DOO, SANG-SOO LEE, WHAN-WOO KIM, Design of a retimed long-reach GPON extender using FPGA, [In] 2010 9th International Conference on Optical Internet (COIN), 2010, pp. 1–3.
- [6] SALIOU F., CHANCLOU P., LANDOUSIES B., GENAY N., LE BOUETTE C., Extended reach access network based on aggregation of the G-PON traffic, [In] Conference on Optical Fiber Communication – Incudes Post Deadline Papers, 2009, OFC 2009, pp. 1–3.
- [7] STEPNIAK G., MAKSYMIUK L., SIUZDAK J., Bandwidth analysis of multimode fiber passive optical networks (PONs), Optica Applicata 39(2), 2009, pp. 233–239.
- [8] LEE K.L., RIDING J.L., TRAN A.V., TUCKER R.S., Extended-reach gigabit passive optical network for rural areas using distributed Raman amplifiers, [In] Conference on Optical Fiber Communication – Incudes Post Deadline Papers, 2009, OFC 2009, pp. 1–3.
- [9] KOCI L., HORVATH T., MUNSTER P., JURCIK M., FILKA M., Transmission convergence layer in XG-PON, [In] 2015 38th International Conference on Telecommunications and Signal Processing (TSP), 2015, pp. 104–108.
- [10] MERCIAN A., MCGARRY M.P.,REISSLEIN M., Impact of report message scheduling (RMS) in 1G/10G EPON and GPON, Optical Switching and Networking 12, 2014, pp. 1–13.
- [11] ALSHAER H., ALYAFEI M., An end-to-end QoS scheme for GPON access networks, [In] 2011 IEEE GCC Conference and Exhibition (GCC), 2011, pp. 513–516.
- [12] YUANQIU LUO, EFFENBERGER F., BO GAO, Transmission convergence layer framing in XG-PON1, [In] IEEE Sarnoff Symposium, 2009, SARNOFF ’09, 2009, pp. 1–5.
- [13] G.984.2: Gigabit-Capable Passive Optical Networks (G-PON): Physical Media Dependent (PMD) Layer Specification, International Telecommunication Union, 2003, pp. 1–38.
- [14] G.984.3: Gigabit-Capable Passive Optical Networks (G-PON): Transmission Convergence Layer Specification, International Telecommunication Union, 2003, pp. 1–170.
- [15] G.987.3: 10-Gigabit-capable Passive Optical Networks (XG-PON): Transmission Convergence (TC) Layer Specification, International Telecommunication Union, 2003, pp. 1–146.
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Bibliografia
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bwmeta1.element.baztech-46675f14-7a95-4d8e-a502-c0becf87f620