Full mobile package

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🎓 Program Title

Full Mobile Network Technology Package – From 2G to 5G (Theory, Drive Test & Planning)

📝 Program Description

The Full Mobile Network Technology Package is a comprehensive and end-to-end training program that covers mobile communication technologies from 2G to 5G, combining theoretical foundations, real network analysis, drive testing, post-processing, and radio network planning.

The program starts with telecom fundamentals and career orientation, then progressively moves through GSM, GPRS, EDGE, UMTS, HSPA, LTE, LTE-Advanced, and 5G (NSA & SA).
It also includes practical Drive Test analysis for 2G, 3G, and 4G, in addition to professional radio network planning and dimensioning for both LTE and 5G.

This package is carefully designed to transform learners from beginners into job-ready mobile network engineers, with strong technical depth and practical understanding aligned with real operator environments.

⏱ Total Duration

81 Hours

🎯 Target Audience

  • Telecom & Communication Engineering students
  • Fresh graduates
  • Junior and mid-level mobile network engineers
  • Drive Test and Optimization beginners
  • Engineers aiming to build a full mobile network skill set
  • Anyone planning a professional career in mobile networks

✅ Prerequisites

  • No prerequisites required
    The program starts from telecom basics and builds knowledge step by step up to 5G planning.

🎯 Learning Outcomes

By completing this program, learners will be able to:

  • Understand telecom fundamentals and mobile career paths
  • Explain cellular concepts and access techniques
  • Understand 2G, 3G, 4G, and 5G network architectures
  • Analyze air interface concepts, channels, modulation, and coding
  • Understand mobility management, power control, and handover
  • Perform basic Drive Test analysis and post-processing
  • Identify and troubleshoot common radio network problems
  • Understand LTE and 5G radio network planning and dimensioning
  • Work with real planning workflows and simulations
  • Build a strong foundation for optimization, planning, and RAN roles

📚 Program Structure & Detailed Content

Section 1: Telecom Fundamentals & Career Orientation

  • Introduction to mobile communications
  • Mobile network career paths
  • Telecom basics and system overview

Section 2: 2G – GSM, GPRS & EDGE

  • Access techniques and evolution of mobile communications
  • Cellular structure and planning basics
  • Power control and cell types
  • GSM network architecture and core elements
  • Mobile station, SIM, BTS, BSC, MSC, HLR, VLR, AUC, EIR, OMC
  • GSM air interface and radio propagation
  • Fading, Doppler effect, timing advance
  • Burst structure and channel types
  • Speech coding, channel coding, security, and modulation
  • Mobility management (handover, location update)
  • GSM call scenarios
  • GPRS and EDGE architecture, protocols, and air interface

Section 3: 2G Drive Test & Post-Processing

  • Drive Test concepts and objectives
  • DT tools and live measurements
  • Using TEMS
  • Common radio problems:
    • Cross sector & cross feeder
    • Missing neighbors
    • Handover failures
    • Blocked and dropped calls
    • Overshooting and hardware issues
  • Practical case studies

Section 4: 3G – CDMA, UMTS & HSPA

  • Motivation for UMTS
  • CDMA fundamentals and spreading concepts
  • Scrambling, PN codes, and multi-user systems
  • Rake receiver
  • UMTS evolution and access techniques
  • UMTS bands, codes, and channels
  • UMTS network architecture and core elements
  • UTRAN, UE states, and protocol stack
  • Physical layer processing, interleaving, and modulation
  • Synchronization, power control, admission control
  • Handover and call scenarios
  • Introduction to HSPA

Section 5: 3G Drive Test & Post-Processing

  • UMTS TEMS windows
  • Measurement sequences
  • Radio issues analysis:
    • Cross sector & feeder
    • Missing neighbors
    • Overshooting
    • Blocked and dropped calls
  • Practical case studies

Section 6: 4G – LTE, LTE-Advanced & LTE-Advanced Pro

  • OFDM, SC-FDMA, FFT, and MIMO
  • Channel dependent scheduling
  • LTE network architecture (E-UTRAN & EPC)
  • LTE air interface and resource mapping
  • Frame structure and channels
  • LTE protocol stack and physical layer
  • Synchronization, paging, RACH, and power control
  • Timing advance and handover
  • Voice services in LTE
  • Carrier aggregation, CoMP, and small cells

Section 7: 4G Drive Test

  • LTE DT parameters and measurements
  • LTE TEMS windows
  • PCI issues and Cross MIMO analysis

Section 8: 4G Radio Network Planning

  • LTE planning concepts and types
  • Coverage and capacity dimensioning
  • Practical dimensioning examples
  • Hands-on planning workflow and practical exercises

Section 9: 5G – NSA & SA

  • 5G motivation and use cases
  • 5G architecture and deployment options
  • Network slicing, RAN, and Core
  • 5G security concepts
  • 5G air interface fundamentals
  • FR1 & FR2 bands
  • Massive MIMO
  • NR resource grid, bandwidth parts, and reference signals
  • 5G channels and protocol stack
  • Physical layer processing
  • Synchronization, random access, power control, and handover
  • Voice over New Radio (VoNR)

Section 10: 5G Radio Network Planning

  • 5G planning concepts and steps
  • Coverage and capacity dimensioning
  • Propagation models and link budget calculations
  • Practical planning examples
  • Planning tool preparation and configuration
  • Site creation and antenna settings
  • Coverage and traffic simulations
  • PCI planning and optimization

🚀 Program Value

  • Complete End-to-End Mobile Engineering Track
  • Combines theory + drive test + planning
  • Strong alignment with real operator workflows
  • Ideal for training centers, universities, and corporate programs
  • Excellent foundation for RAN, Optimization, and Planning roles

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