Practical Fundamentals of Telecommunications and Wireless Communications
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Practical Fundamentals of Telecommunications and Wireless Communications Course
Introduction:
In recent years, there has been a significant transformation in the composition and organization of telecommunications networks. These modifications have an effect on the tools you buy, the services you avail, the suppliers you can work with, and the data transmission methods. Those who wish to instantly implement the newest and most efficient telecommunications technologies will find this training especially beneficial.
A review of the fundamentals of telecommunications and common transmission media, such as copper and fiber optics, opens the program. This refreshes everyone's memory on the principles of telecommunications. After that, a normal infrastructure analysis is conducted for public telephone network services, which includes ISDN and DDN.
Course Objectives:
- The fundamentals of telecommunications
- The “jargon” used in telecommunications
- The “nuts and bolts” about selecting and installing telecommunications systems
- How to increase the bandwidth by exploiting your existing copper wire more effectively
- How to make “best practice” decisions on the best and most cost effective access options for your company
- How to apply the latest technologies such as wireless communications
- To understand and apply high speed access systems such as ADSL and beyond
Who Should Attend?
- Electrical Engineers
- Project Engineers
- Technicians
- Systems Engineers
- Managers
- Process Engineers
- Maintenance Engineers
- Network Administrators
- Sales Engineers
- Software Engineers
- Engineering Managers
- Field Technical Support Staff
- Instrumentation Engineers & Technicians
- Process Control Engineers & Technicians
Course Outlines:
Introduction
- Introduction
- Standards Organizations
Telecommunication Basics
- Bandwidth, Channel Capacity
- Full vs. Half Duplex
- Baseband, Broadband, Narrowband and Wideband
- Analogue vs. Digital transmission
- Multiplexing techniques: FDM, TDM, PCM,WDM
- Connection Oriented vs. Connectionless Communication
- Circuit Switching vs. Packet Switching
- Switching vs. Routing
- Local Area vs. Wide Area Networks
- The "Communications Cloud"
- The PSTN vs. the Internet
- The OSI Model
The Public Switched Telephone Network
- PSTN Infrastructure
- Local Networks
- Switching
- Line Circuit Functions
- Signaling System #7
Transmission Media Comparison
- Twisted Pair
- Coaxial cables
- Fiber Optic
- Power System Carrier
Private Switched Systems
- PBX
- Centrex
- Key Systems
Public Network Transport Technologies
- Analogue Switched (dial-up)
- Public Switched Telephone Network (PSTN)
- Analogue Dedicated (leased) Alternatives: Unconditioned leased lines; Conditioned (C/D Type) leased lines
- Digital Switched (dial-up) Alternatives: Switched 56, Integrated Services Data Network (ISDN-BRI); Frame Relay (SVC); Switched Multi-megabit Data Services (SMDS); Asynchronous Transfer Mode (ATM)
- Digital Dedicated (leased) Alternatives: Digital Data Services (DDS); T-1 and Fractional T-1; T-3 and Fractional T-3; E-1; Integrated Services Data Network (ISDNPRI); Broadband ISDN (B-ISDN); X.25; Frame Relay (PVC); Synchronous Data Hierarchy (SDH/SONET)
Transmission Media Comparison
- Microwave Radio
- Satellite Systems
- Infra-Red
Customer Access Technologies (Broadband)
- Digital Subscriber Lines (xDSL): Asymmetric DSL(ADSL); High-data-rate DSL (HDSL); Symmetric DSL (SDSL);Very High Speed
- DSL (VDSL); G.Lite (ITU G.992.2)
- Etherloop ("next generation DSL")
- Hybrid Fiber Coax (HFC)
- Multipoint Microwave Distribution System (MMDS)
- Local Multipoint Distribution Services (LMDS) Bluetooth
- IEEE 802.16 WirelessHUMAN™
Local And Wide Area Networking
- LAN Topologies
- LAN Media Access Control techniques
- LAN Standards
- LAN Extension and Interconnection (Bridging, Switching, Routing)
- Metropolitan Area Networks (MANs)