Telecom Training

Telecom Training
(Duration: 1 Month)

Course Overview

ICT meets the technology and research needs of the Global Communications industry. We offer innovative solutions for communication and networking technologies. While the world is moving towards digital transformation, the impact of mobile on the socio economic dynamics is highly appreciable.

In this era of the new world order it is highly imperative that all your human resources are equipped in communications and internet technology competencies, thus empowering your enterprise to face the future generation challenges and threats. It would expand your employees horizons with exceptional growth opportunities. Such knowledge base for your manpower can help to identify and harness new and yet undiscovered market opportunities for your enterprises.

Our Telecommunications courses are highly valued by the industry verticals worldwide. The trainings ranges from basic boot camp training to advanced protocol development designed by experts of the selective segments. Our certification programs can boost the professional competency levels of the professionals in arming them with benchmarks in differentiating themselves in the niche domains of the industry.


Eligibility

People enrolling for Telecom Training should have Diploma or Degree in Engineering in EEE, ECE,IT, CSC, MS, M.Tech or any communications branch or BSc in any sciences other than commerce and life sciences.


Opportunities

The opportunities for Telecom are in Development, Testing, Installation & Commissioning, Networking, Switching, RF Planning, RF Testing, RF Survey, O&M, Optimisation, VAS Implementation, Deployment etc.


Syllabus

Long Term Evolution (4G LTE)

Introduction to LTE (Long Term Evolution), Overview of IP Convergence in the mobile networks, Introduction to LTE (Long Term Evolution) and SAE/ePC/EPS, LTE Network Architecture, LTE Interfaces and protocols, LTE Packet Core (SAE/EPC and EPS), LTE/SAE/EPC Network Architecture, Evolved UTRAN and Evolved Packet Core, LTE/EPC Interworking, LTE Protocol Stacks, LTE Interfaces, LTE-EPC Signaling, IMS (IP Multimedia Subsystem) in LTE, Overview of Diameter Protocol, Diameter Applications in IMS, LTE Operations and Procedures, LTE Planning and Optimization, Ethernet Backhaul for LTE, Voice over LTE, WiFi Offloading, QoS Applied to LTE-EPC, PCC (Policy and Charging Control), LTE and EPC Security, Overview of LTE Air Interface; Overview of OFDM and MIMO, LTE RF Planning and Design, LTE Backhaul Requirements, IRAT Handovers between GSM, UMTS and LTE, LTE Backhaul Aggregation Network Technology, Overview of LTE-Advanced.


RF Frequency planning and Optimization

Introduction to Radio Network Planning - The Overall Process, Outage, Initial Preparation, Cell Count Estimation, Detailed Network Planning

Introduction to GSM Planning - Cell Types, Cell Reuse Distance, Co-channel Interference, The GSM Air Interface, Network Capacity, The Erlang and the Erlang Formulae, Network Planning Tasks, Creating a Nominal Plan, Getting Sites, Ten Commitments to Best Siting Practice, Objectors, Radio Network Planning, Parameter Planning, GSM Channels, Network Optimisation, When IP Gets Involved, Mobility Management, Location Areas

Radio Network Planning Tools - Planning Methodology, Tools Overview, Frequency Planning, System Planning, Signalling Capacity, Bearer Dimensioning

UMTS Planning - Introduction to UMTS Radio Network, The UMTS Network, CS Plane, PS Plane, QoS, UTRAN, UMTS Channels, UMTS Physical Layer

UMTS Radio Network Planning - RNC Capacity and Configuration Options, Total CS Traffic (Erlangs), Total PS Traffic (Mbps), Total Traffic and Signalling Load, Total Number of Node Bs, Total Number of Cells, Total Number of Carriers, Scrambling Code Planning, Used Channel Configurations, Required RNC Optional Features, Type of Transmission Interfaces, Expansion Possibilities, Core Network Planning, Transmission Design

LTE RF Planning - Introduction to RF Fundamentals, Introduction to Radio Network Design & Optimization Procedure, LTE Network Architecture, Introduction to Node functions & Comparison with UMTS, Evolution of UMTS, LTE Radio Aspects / Air Interface, Physical Layer Downlink: Orthogonal Frequency Division Multiplexing - OFDM, Types Of Propagation Models And Their Uses, Physical Layer: Radio Interface Channels, LTE Link Budgeting, LTE & NLOS Environment, Frequency Reuse in LTE Networks, Timing and Synchronization for LTE Networks


TEMS Drive Test

Fundamentals - Telecom & Wireless Basics, Advanced telecom & Wireless concepts, Packet Switching & IP Concepts, RF Planning & Optimization (Refer below for detailed topics for RF Planning & Optimization), RF Overview, RF Technologies and Deployment, RF Propagation Principles, Types Of Propagation Models And Their Uses, Antennas, Basic Principles of Traffic Engineering and Optimization, System Design Considerations

Cellular Technology - Mobile Communication Principles, Mobile Telephone System Using the Cellular Concepts, Cellular Planning and Configuration, Second Generation Network Planning, Third Generation Network Planning, Forth Generation Network Planning

Spread Spectrum - Principles of Spread Spectrum, Direct Sequence Spread Spectrum - DSSS, Frequency Hopping Spread Spectrum - FHSS, Time Hopping Spread Spectrum - THSS, Hybrid Spread Spectrum

Global System for Mobile Communications (GSM) - GSM Architecture, Time Division Multiple Access -TDMA, IS -136 TDMA Technology, IS -136 Radio Technologies, GSM Security, GSM Channels, Handoffs and Roaming, GSM Channel Coding and Vocoders, Radio Channel Operation, Abis and A Interface Design, BCCH System Information Types and Decoding, Frequency Scanning, Protocol Architecture, GSM Signalling and Call Processing, BTS Installation, Migration to GPRS

General Packet Radio Services (GPRS) - Evolution of Wireless Data, The GSM Phase II Overlay Network, GPRS Network Architecture, GPRS Radio Technologies, Cells & Routing Areas, Packet Data Protocol Context - PDPC, GPRS Terminals Mobile Station Classes, Mobility Management, GPRS Attach, GPRS Attach Scenario, Mobile Initiated GPRS Detach, Network Initiated Detach Activating a PDP Context Activation, GPRS Data Transfer, GPRS Signalling and Call Processing, GPRS Protocols

Enhanced Data Rates for GSM Evolution (EDGE) - EDGE Network Architecture, EDGE Coding Schemes, Link Adaptation, Incremental Redundancy, GPRS EDGE Radio Access Network - GERAN, Radio Network Dimensioning, Implementation Constraints of EDGE

UMTS Drive Test - UMTS Network Architecture, WCDMA Radio Network, UMTS Channels, Channelisation and Scrambling Codes, Code Groups, WCDMA Radio Network Planning, Call Processing, 3G Drive Test Procedures, RXLEVEL Vs RSCP, RXQUAL Vs EC/NO, RSSI Scanning, Cell Parameter, CPICH Ec/Io and CPICH RSCP Analysis, Soft, Softer and Hard Handovers, Call Statistics - AMR, CS Call Analysis, PS Calls Analysis, Short Call and Long Call Analysis, KPI (Mobile Test), Radio Optimisation

LTE Planning, Drive Test and Optimization - LTE Introduction, Radio Cellular technology, Architecture & Interface, OFDM, OFDMA & SC-FDMA, LTE TDD & LTE FDD frame & Channel, LTE Cell Planning - Frequency Planning, PCI Planning, PRACH Plannig, LTE RF Parameter - Cell Search Parameter, Handover in LTE, LTE Feature - Beamforming, ICIC (Inter cell Interference Coordination), MLB (Mobility Load Balancing), SON (Self Optimization Network) : ANR, CSFB, LTE Drive Test Basic Knowledge - Drive test tools Introduction, Onsite Hardware Introduction, LTE Drive test RF parameter, LTE Drive Test Step & Procedure - Accesibility test, Retainability test, Throughput test, LTE Drive Test Analysis - Weak Coverage, Weak Quality, Low Handover Success Rate, LTE Optimization - Accesibility Improvement, Service Drop Rate Improvement, Handover Improvement