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Fiber to the X –FTTX: Next Generation Access Networks

Overview
As copper has already begun showing its limitations – notwithstanding the various DSL technology enhancements – optical access networks have recently attracted a lot of attention. The main competing technologies for supporting the so-called Fiber-to-the-x (FTTx) are currently Active Ethernet and Passive Optical Networks (PONs). Active Ethernet is a direct application of the well-known Ethernet paradigm to the access network and employs an active switch to distribute traffic from a Central Office (CO) to a number of customers using the standard Ethernet framing. PONs are a cost-effective solution based on a tree-like topology where user terminals or even whole buildings (Optical Network Terminations - ONTs) are located at the branches, while at the other end resides the Optical Line Termination (OLT) (located at the CO) which provides connectivity to the rest of the network. Downstream traffic is broadcast from the OLT to all ONTs as the optical signal is split using a passive coupler, while upstream traffic is sent in a time division multiple access (TDMA) fashion regulated by the OLT.

Implementations of Active Ethernet, Gigabit-PON (GPON) and Ethernet-PON (EPON) systems have already taken place in various countries, offering an increase of over one order of magnitude in the bandwidth offered to the end user. For the exact choice of an optical access technology, several criteria must be taken into account, including desired geographical coverage, scalability, deployment / operation and maintenance costs, offered bandwidth and quality of service per user.

This course gives an overview of the optical access network enabling technologies and provides an in depth understanding of their concept of operation, their individual characteristics (pros and cons) and their potential for deployment.
Objectives

The course objective is to provide an overview of optical access technologies and an understanding of the design, implementation, and techno-economic issues associated with optical access network solutions. It is designed as an introductory/intermediate course on the topic.

Who should attend

This Short Course is addressed to:

  • Managers/engineers/professional scientists working for operators and equipment manufacturers involved in network, system and subsystem design, operation and maintenance of telecommunications networks as well as business development & strategy planning
  • Students and individuals who seek to advance their personal and/or professional status through learning.
Course Description

Day 1
• The need for FTTx
• Worldwide deployment situation and plans
• Overview of FTTx architectures and technologies
• Business models for FTTx
• Case studies of FTTx deployments
Day 2
• Elements of an optical communication system
• How to engineer an optical access network
• Requirements from optical components
• Design parameters
• Description of multiple access techniques (TDMA, WDMA, CDMA, SC-MA)
Day 3
• Star-based Active Ethernet
• Home-run Active Ethernet
• The standardized PON Variants (BPON, GPON, EPON)
• Quality of Service (QoS) in PONs
• The importance of the PON MAC layer
• Latest advances in PON technology
• Hybrid PONs
• WDM PONs
• Next-Generation PONs
• Protection Issues
• Evaluation and comparison of the various alternatives

Training Methodology
  • International and domestic case studies
  • Research project results
  • Lab demos
Prerequisites

Basic knowledge of communications networks

Instructors

Professor Ioannis Tomkos

Tuition Fee

 

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Professional's Views

“Outstanding instructors, material and training space!”

Firas Al-Ghool (2006), Program Manager, Ministry of Information & Telecommunication Technology, (Jordan)

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