FUNDAMENTALS OF TELECOM – TRAINING COURSE
DURATION : 10 DAYS
Training Course on Fundamentals of Telecom is distilled into a ten-day intensive course, designed for engineering & non engineering students & professionals who need to understand telecom jargon and buzzwords, and get up to speed on broadband, telecom, datacom and networking at a high level.
Fundamentals of Telecom Basics Training Course
Telecom is a critical part of modern business and everyday life. Keeping up with the latest technologies, acronyms, and jargon can be a challenge for non-engineering professionals. That’s where this Course, Fundamentals of Telecom, comes in.
Overview
The course is designed for individuals looking to enhance their understanding of broadband telecom, datacom, and networking. It provides a high-level overview of crucial telecom topics such as Ethernet, IP, MPLS, VoIP and SIP, LTE, and 5G. Additionally, it delves into upcoming 5G IoT applications, making the content both informative and relevant.
Course Content
The course is divided into several parts, beginning with Fundamentals. This section covers the basics of telecom, including telecom circuits provisioning, IP packet network fundamentals, and the business aspects of the Internet.
By providing a structured knowledge base and explaining concepts in a systematic way, the course enables participants to build a solid foundation that will serve them well in the long term. Moreover, it aims to eliminate frustration, increase confidence, and enhance productivity by offering a vendor-independent perspective.
Are you ready to gain the knowledge you need to make informed decisions and ask the right questions? Fundamentals of Telecom is the answer.
Who Should Attend
- Professionals needing to fill in the knowledge gaps, understand the buzzwords and jargon, mainstream technologies and standard practices… and more importantly, the ideas behind these technologies, and how it all fits together.
- Engineering & Non-Engineering professionals who are in need of a solid knowledge base to be more effective in dealing with technology projects and technical personnel.
- Managers and planners. Telecom system administrators. Finance, tax and accounting personnel. Software and support system developers.
- Decision-makers and project managers who need to understand what the “techies” are saying.
- Anyone who wants to understand the concepts and how it all fits together.
- Anyone willing to invest ten days to obtain career-enhancing training, with certification and reference book.
FUNDAMENTALS OF TELECOM – CONTENTS
- The Telecommunications Scene
- Current Information Sources
- Telecommunications Market
- Effect of Video Services
- Network Scalability
Standardization and Regulation
- Standardization
- Bodies
- ITU
- ETSI
- IEEE
- IETF
- CEPT
- ANSI
- ARIB
- TTC
- 3GPP
- 3GPP2
- Broadcast Standardization
- Industry Forums
- GSM Association
- UMTS Forum
- WiMAX Forum
- BMCO Forum and Open IPTV Forum
- Global Mobile Suppliers Association
- CDMA Development Group
- Other Standardization Bodies
- WRC
Telecommunications Principles
- Terminology and Planning Principles
- Decibel
- Erlang
- Noise and Interferences
- Other Typical Telecommunications Units
- Mobile Networks
- Mobile Data
- Demand for Multimedia
- Spectrum Allocations
- ITU Regions and Principles
Protocols
- OSI
- Physical Layer (1)
- Data Link Layer (2)
- Network Layer (3)
- Transport Layer (4)
- Session Layer (5)
- Presentation Layer (6)
- Application Layer (7)
- Fixed Networks
- SS7
- SIGTRAN
- Mobile Networks
- SCCP
- BSSAP
- MAP
- TCAP
- LAPD/LAPDm
- Data Networks
- TCP/IP
- UDP
- LAP Protocol Family
Connectivity
- Definitions
- IP Connectivity
- Multilink Dial-Up
- ISDN
- Leased Lines
- E1/T1
- Cable Modem
- DSL
- Power-Line
- Connectivity
- ATM
- Wired Connectivity
- Radio Connectivity in the Near Field
- NFC and Secure Payment
- Readers and Tags
- Architecture
- Standardization
- Products and Use Cases
- Secure Payment
- Bluetooth
- Bluetooth RF
- Bluetooth Profiles
Fixed Telecommunications Networks
- Network Topologies
- Point-to-Point
- Bus
- Star
- Ring
- Redundancy
- Telephone Network
- User Devices
- Telephones
- Data Equipment
- Plain Old Public Telephone System (POTS)
- Numbering of Telephony Networks
- The Principle of Telephone Networks
- Billing Principles
- Integrated Services Digital Network (ISDN)
- Standardization of ISDN
- Principles of ISDN
- ISDN Reference Model
- ISDN Signaling
- ISDN Services
- Intelligent Network (IN)
- SIP
- Cloud Computing
Data Networks
- IPv4
- IPv6
- Routing
- ATM
- Frame Relay
- LAN and MAN
- IEEE 802.1 (Bridging)
- IEEE 802.2 (LLC)
- IEEE 802.3 (Ethernet)
- IEEE 802.4 (Token Bus)
- IEEE 802.5 (Token Ring)
- IEEE 802.6 (MAN)
- IEEE 802.7 (Broadband LAN via Coaxial)
- IEEE 802.8 (Fiber Optic TAG)
- IEEE 802.9 (ISLAN)
- IEEE 802.10 (Interoperable LAN Security)
- IEEE 802.11 (WLAN)
- IEEE 802.12 (100BaseVG)
- IEEE 802.13 (Unused)
- IEEE 802.14 (Cable Modems)
- IEEE 802.15 (Wireless PAN)
- IEEE 802.16 (WiMAX)
- IEEE 802.17 (Resilient Packet Ring)
- IEEE 802.18 (Radio Regulatory TAG)
- IEEE 802.19 (Coexistence TAG)
- IEEE 802.20 (Mobile Broadband Wireless Access)
- IEEE 802.21 (Media Independent Handoff)
- IEEE 802.22 (Wireless Regional Area Network)
- IEEE 802.23 (Emergency Services Working Group)
- IEEE 802.24 (Smart Grid TAG)
- IEEE 802.25 (Omni-Range Area Network)
- Wi-Fi
Telecommunications Network Services and Applications
- Voice, Messaging, Audio and Video, Streaming
- Videoconferencing
- Telecommuting
Transmission Networks
- Physical Transmission Systems
- Coding Techniques
- PCM
- PDH
- SDH
- WDM
- Carrier Ethernet Transport
- IP Multimedia Subsystem
- IMS Architecture
Modulation and Demodulation
- Analog Modulation Methods
- Digital Modulation and Demodulation
- Typical Transmitter- and Receiver-Side Signal Processing
- Multiplexing, Multiple Access and Duplexing
- Orthogonal Frequency Division Multiplex
3GPP Mobile Communications: GSM
- Development of GSM
- Architecture of GSM
- GSM Data
- The Network Architecture
- GPRS Interfaces
- EDGE
3GPP Mobile Communications: WCDMA and HSPA
- Network Architecture
- Node B – Base Station
- Radio Network Controller
- UTRAN Interfaces
- Physical Layer Aspects
- Data Transmission in WCDMA and HSPA
- Overview on Transport Channels and Physical Channels
- Radio Interface Procedures
- Handover and Soft Handover
- WCDMA/HSPA Evolution since Release 5
- Planning and Dimensioning of WCDMA/HSPA Networks
- Capacity and Coverage Optimization
3GPP Mobile Communications: LTE/SAE and LTE-A
- Architecture
- Elements
- Evolved Universal Terrestrial Radio Access Network
- eNodeB
- User Equipment
- S-GW
- P-GW
- MME
- Policy and Charging Resource Function (PCRF)
- Home Subscription Server (HSS)
- GSM and UMTS Domain
- Packet Data Network
- Interfaces
- Protocol Stacks
- User Plane
- Control Plane
- Layer 1
- Layer 2
- Layer 3
- LTE Radio Network
- LTE Spectrum
- Physical Layer
- Principles of OFDMA and SC-FDMA
- Frame Structure and Physical Channels
- Downlink
- Uplink
- Physical Layer
- Procedures
- Radio Resource Management Procedures
- QoS and Associated Parameters
- LTE-Advanced Features (Rel. 10)
- LTE Transport and Core Network
- Charging
Wireless LAN and Evolution
- WLAN Standards
- IEEE 802.11 (Wi-Fi)
- Wi-Fi Variants
- Wi-Fi and Other Wireless Networks
- IEEE 802.16 (WiMAX)
- WiMAX Frequencies
- Technology for WiMAX Deployments
- Architecture of WiMAX
Terrestrial Broadcast Networks
- Analog Systems
- Radio
- Television
- Digital Radio
- Digital Television
Satellite Systems: Communications
- Principles of Satellite Systems
- Orbits
- Frequencies
- Characteristics of Satellite Systems
- Functionality
- Equipment
- System Architecture
- Voice and Data Services
- Broadcast Satellite Systems
- Commercial Satellite Systems
- Telstar
- Globalstar
- ORBCOMM
- Mars Odyssey
- SkyBridge
- Iridium
- Teledesic
- Inmarsat
- Thuraya
- MSAT/SkyTerr
- VSAT
- Radio Link Budget
- Principle of the Link Budget
Satellite Systems: Location Services and Telemetry
- GPS
- GALILEO
- GLONASS
- Weather and Meteorological Satellites
- Geostationary Satellites
- Polar Orbiting Satellites
Other and Special Networks
- TETRA
- TETRA I
- TETRA II
Security Aspects of Telecommunications: 3GPP Mobile Networks
- Basic Principles of Protection
- GSM Security
- UMTS Security
- LTE Security
- PSec
Planning of 2G Networks
- General Planning Guidelines for Fixed Networks
- Capacity Planning
- Coverage Planning
- Link Budget
- Radio Wave Propagation Models
- Frequency Planning
- Parameter Planning
- Network Measurements
- Quality of Service Levels
- Transmission
- Simulations
Planning of Advanced 3G Networks
- Radio Network Planning Process
- Quality of Service
- Capacity Planning
- Coverage Planning
- Radio Link Budget
- Radio Propagation Models
- Frequency Planning
- Self-Optimizing Network
- Parameter Planning
- Path Loss Prediction
Planning of Mobile TV Networks
- High-Level Network Dimensioning Process
- Capacity Planning
- Coverage and QoS Planning
- Propagation Models
- Safety Distance
- Cost Prediction
- Detailed Radio Network Design
- Identifying the Planning Items
- Capacity Planning
- Coverage Planning
- Local Measurements
- Radiation Limitations
- Cost Prediction and Optimization
Planning of Core Networks
- General Planning Guidelines for Fixed Networks
- Capacity Planning
EMF – Radiation Safety and Health Aspects
Emerging Enterprise Technologies
New technologies like cloud computing, social networks, and mobile applications are changing the way companies do business. Today’s enterprises can reach more people and deliver superior performance faster than ever before. No matter what product or service you provide, the digital revolution is transforming your industry. As a CIO, your challenge will be to leverage digital technology to streamline your business model and enhance your customers’ experience.
- What is Digital Business & Digital Transformation
- Cloud Computing
- Mobility & Mobile Technologies
- Internet of Things
- Big Data
- Business Analytics
- Artificial Intelligence
- Machine learning
- Cryptocurrencies
- E – Business & E – Commerce
- Agile Business Processes
- Lean Organization
- Customer Relationship Management
- Customer Experience
- Maximize Sales and Profits
WHY JOIN OUR TRAINING COURSE ….
In conclusion, mastering the fundamentals of telecom basics is essential for anyone looking to excel in the ever-evolving telecommunications industry. By investing in a comprehensive training course, you can lay a solid foundation for a successful and fulfilling career in this dynamic field.
To sum up, a solid understanding of telecom basics is the cornerstone of professional growth and development in the telecommunications sector. With the right training, you can position yourself as a valuable asset to any organization and open up countless opportunities for advancement and specialization.
In summary, the telecom basics training course provides invaluable knowledge and skills that are crucial for excelling in the telecommunications industry. By honing your understanding of fundamental concepts, you can confidently navigate the complexities of this field and contribute significantly to your professional success.
To wrap it up, embracing the fundamentals of telecom basics through a comprehensive training course is a strategic investment in your career growth. Equipped with essential knowledge and expertise, you can confidently pursue exciting opportunities and make a meaningful impact in the dynamic world of telecommunications.