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Optical Networking Training Overview

Optical Networking Training Overview

Optical Networking Training Overview:

Optical Networking Training Overview Course (Online, Onsite, and Classroom Live!)

This Optical Networking Training Overview course is the answer to your Optical Networks technology needs from current to next-generation technologies for public and private networks. Our mission is to clarify highly complex technical standards and topics.

Underlying principles are reviewed along with common optical solutions and practices. Our newly upgraded Optical Networking Series includes Examples, Implementation, and Trade-offs. It explains and provides practical tips on how to design and implement Networks for Optimum Performance. Hours of Real-life case studies are used to demonstrate key concepts. The Optical Networking Training seminar provides a Rock-Solid foundation of optical systems.

What’s Included?

  • 4 days of Optical Networking Training Overview with an expert instructor
  • Optical Networking  Overview Electronic Course Guide
  • Certificate of Completion
  • 100% Satisfaction Guarantee

Resources:

Related Courses

Customize It:

  • If you are familiar with some aspects of this Optical Networking Training course, we can omit or shorten their discussion.
  • We can adjust the emphasis placed on the various topics or build the Optical Networking course around the mix of technologies of interest to you (including technologies other than those included in this outline).
  • If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the Optical Networking course in a manner understandable to lay audiences.

Audience / Target Group:

The target audience for this Optical Networking Training course is defined here:

  • This Optical Networking Training course is designed to provide a good technical overview for strategic or technical managers, consultants, communications professionals, software engineers, system engineers, network professionals, marketing and sales professionals, IT professionals, and others who plan on using, evaluating or working with optical networks, applications, and services. It is also applicable to Engineers and technicians responsible for maintaining, monitoring, and optimizing optical systems.

Objectives:

After completing this Optical Networking Training course, attendees will be able to:

  • This Optical Networking Training course provides you with a comprehensive technical foundation in optical networking and its services and applications development. ENO Optical Networking Training Boot Camps is an intensive learning experience that covers the essential elements of the Optical Networking domain. Optical Networking Boot camps is ideal for busy professionals who want to stay current in the optical networking field but have limited time to be away from the office.

Course Syllabus:

Overview of Optical Networking

  • What is the different type of fiber optics?
  • What are the differences between SONET/SDH and DWDM?
  • GMPLS, MPLS-TP, Seamless MPLS, and OTN
  • What is an all-optical network?
  • Will optical networks mean the end of the existing telecom structure?
  • What is next?
  • What does the future hold for photonic switching?
  • Will we ever have the photonic equivalent of the Pentium chip?

Principles of Fiber Optic Communications

  • Characteristics of optical fibers
  • Fiber optic cable installation
  • Fiber optic connectors and splicing
  • Fiber optic system design
  • Fiber optic testing, maintenance and documentation
  • Optical fiber types
  • Optical sources and detectors
  • Optical transmitters and receivers

Advanced Topics

  • Light Sources
  • Introduction to Fiber Optic Systems
  • Propagation of Signals in Optical Fiber
  • Optical Network Breakthroughs
  • Modulation and Demodulation
  • Transmission System Engineering

Photonic Networks

  • First-Generation Optical Networks
  • Second-Generation Optical Networks
  • Wavelength Routing Networks
  • Optical Core Networks Technology Trends
  • Optoelectronic Devices
  • Optical Components
  • Optical Amplification
  • Optical Transmitters
  • Tunable Lasers
  • Multiplexers and Filters
  • Modulators
  • Optical Switches, Routers, Cross-Connects, and Processors
  • Wavelength Division Multiplexing/Dense Wavelength Division Multiplexing
  • Optical Networks and the Optical Layer

All-Optical Network Architecture and design

  • Control and Management
  • Configuration, Fault and Performance Management
  • Protection Concepts, Deployment Considerations
  • IP, ATM, DWDM and the Future of SONET/SDH

Technical Details of Optical Communications

  • The Nature of Light
  • Light as an Electromagnetic Wave (Photons, Polarization, Interference)
  • Physics of the Optics
  • Fiber Optics Network Design
  • Fiber Losses, Dispersion, Nonlineraties, and Fiber Types
  • Technical Details of Synchronous Optical Network (SONET)
  • Technical Details of Synchronous Digital Hierarchy (SDH)
  • Technical Details of Gigabit Ethernet (GigE)
  • Technical Details of Dense Wavelength Division Multiplexing (DWDM)
  • Technical Details of MPLS and GMPLS
  • Networking with CWDM and DWDM
    • Lasers
    • Modulation
    • Cavities and Filters
    • Basic Components
    • Complex Components
    • ADMs and Cross Connnects
    • Switches (MEMS, Holograms, Bubbles, and more)
    • EDFA and Raman Amplifiers
    • Dispersion Compensation Units (DCUs)
  • DWDM Impairments
    • Availability, Occupancy, Efficiency
    • Bandwidth & Distance Limitations
    • Chromatic Dispersion (CD)
    • Polarization Mode Dispersion (PMD)
    • Noise, Dispersion, Non-linearities
    • Four Wave Mixing (FWM)
    • Self-phase Modulation (SPM)
    • Cross-phase Modulation (XPM)
    • Stimulated Brillouin Scattering (SBS)
    • Stimulated Raman Scattering (SRS)
    • Amplified Spontaneous Emission (ASE)
    • Modeling of Nonlinearities
    • Modeling of Noise
  • DWDM Span Engineering
    • Engineering a DWDM link
    • Fiber Types
    • Power Budget Design
    • Q-Factor and OSNR
    • Margin Requirements
    • Design Using Chromatic Dispersion Compensation
    • Effects of FWM, XPM, and SPM on Long-Haul Design
    • Nonlinear Effects (SPM, XPM, FWM, Raman)
    • Polarization Dependent Effects (PDL and PMD)
    • Noise Sources and Noise Accumulation
    • Bit Error Rate and Signal-to-Noise-Ratio
    • Signal Crosstalk
    • Amplifier Spacing
    • Channel Bit Rate
    • Dispersion and polarization
    • Non-linear Effects and Dispersion
  • Components and Subsystem Consideration on Design
  • Test and Measurements
  • Optical Loss Testing & Troubleshooting
  • OTDR Theory & Operation
  • CDWM and DWDM Simulation Projects
  • Design Projects and Case Studies

FTTx Access Networks

  • FTTx networks architecture
  • FTTC, FTTN, FTTD, FTTP, FTTH
  • Principles behind FTTH
  • FTTH topology, technology, and network layers
  • What is Passive Optical Networks (PON)?
  • BPON architecture and components
  • BPON and EPON
  • Fundamentals of GPON
  • GPON Infrastructure
  • GPON Standards
  • GPON Network Elements
  • GPON Infrastructure Examples
  • Optical Power Budgets
  • GPON Services

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