scholarly journals New Security Improvements in Next-Generation Passive Optical Networks Stage 2

2019 ◽  
Vol 9 (20) ◽  
pp. 4430 ◽  
Author(s):  
Vlastimil Clupek ◽  
Tomas Horvath ◽  
Petr Munster ◽  
Vaclav Oujezsky
Keyword(s):  
Optical Networks ◽  
Nonvolatile Memory ◽  
Signal Transmission ◽  
Passive Optical Networks ◽  
Activation Process ◽  
Next Generation ◽  
Transmission Method ◽  
International Telecommunication Union ◽  
Verification Methods ◽  
Upstream Direction

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.

Ethernet Passive Optical Networks

2009 ◽  
pp. 482-488
Author(s):  
Mário M. Freire ◽  
Paulo P. Monteiro ◽  
Henrique J.A. da Silva ◽  
José Ruela
Keyword(s):  
Optical Networks ◽  
High Speed ◽  
Low Cost ◽  
Optical Network ◽  
Cost Effective ◽  
Passive Optical Networks ◽  
Multipoint Control ◽  
Upstream Direction ◽  
Working Groups ◽  
Ethernet Passive Optical Networks

Recently, Ethernet Passive Optical Networks (EPONs) have received a great amount of interest as a promising cost-effective solution for next-generation high-speed access networks. This is confirmed by the formation of several fora and working groups that contribute to their development, namely the EPON Forum (http://www. ieeecommunities.org/epon), the Ethernet in the First Mile Alliance (http://www.efmalliance.org), and the IEEE 802.3ah working group (http://www.ieee802. org/3/efm), which is responsible for the standardization process. EPONs are a simple, inexpensive, and scalable solution for high-speed residential access capable of delivering voice, high-speed data, and multimedia services to end users (Kramer, Mukherjee, & Maislos, 2003; Kramer & Pesavento, 2002; Lorenz, Rodrigues, & Freire, 2004; McGarry, Maier, & Reisslein, 2004; Pesavento, 2003). An EPON combines the transport of IEEE 802.3 Ethernet frames over a low-cost and broadband point-to-multipoint passive optical fibre infrastructure connecting the optical line terminal (OLT) located at the central office to optical network units (ONUs) usually located at the subscriber premises. In the downstream direction, the EPON behaves as a broadcast and select shared medium, with Ethernet frames transmitted by the OLT reaching every ONU. In the upstream direction, Ethernet frames transmitted by each ONU will only reach the OLT, but an arbitration mechanism is required to avoid collisions. This article provides an overview of EPONs focused several issues: EPON architecture, multipoint control protocol (MPCP), quality of service (QoS), and operations, administration, and maintenance (OAM) capability of EPONs.

scholarly journals Activation Process of ONU in EPON/GPON/XG-PON/NG-PON2 Networks

2018 ◽  
Vol 8 (10) ◽  
pp. 1934 ◽  
Author(s):  
Tomas Horvath ◽  
Petr Munster ◽  
Vaclav Oujezsky ◽  
Josef Vojtech
Keyword(s):  
Optical Networks ◽  
Activation Process ◽  
Numerical Implementation ◽  
Activation Time ◽  
International Telecommunication Union ◽  
Reduction Time ◽  
International Telecommunication ◽  
Transmission Parameters ◽  
Split Ratio ◽  
Frame Duration

This article presents a numerical implementation of the activation process for gigabit and 10 gigabit next generation and Ethernet passive optical networks. The specifications are completely different because GPON, XG-PON and NG-PON2 were developed by the International Telecommunication Union, whereas Ethernet PON was developed by the Institute of Electrical and Electronics Engineers. The speed of an activation process is the most important in a blackout scenario because end optical units have a timer after expiration transmission parameters are discarded. Proper implementation of an activation process is crucial for eliminating inadvisable delay. An OLT chassis is dedicated to several GPON (or other standard) cards. Each card has up to eight or 16 GPON ports. Furthermore, one GPON port can operate with up to 64/128 ONUs. Our results indicate a shorter duration activation process (due to a shorter frame duration) in Ethernet-based PON, but the maximum split ratio is only 1:32 instead of up to 1:64/128 for gigabit PON and newer standards. An optimization improves the reduction time for the GPON activation process with current PLOAM messages and with no changes in the transmission convergence layer. We reduced the activation time from 215 ms to 145 ms for 64 ONUs.

A Survey of Energy Conservation Schemes for Present and Next Generation Passive Optical Networks

2018 ◽  
pp. 129-138 ◽  
Author(s):  
Rizwan Aslam Butt ◽  
◽  
Sevia M. Idrus ◽  
Nadiatulhuda Zulkifli ◽  
M. Waqar Ashraf
Keyword(s):  
Energy Conservation ◽  
Optical Networks ◽  
Passive Optical Networks ◽  
Next Generation
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