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5G NR Indoor Design

This course will introduce audience into a good understanding on 5G NR Indoor planning
Aimed At
Course Review
Why Choose this Course
You will learn
Course Outline
Training Format

Customer Tailored

We can tailor the included topics,tech level,and duration of this course right to your team’s technical requirements and needs. - MCNS offers courses to companies, institutions, departments etc and not to individuals as per open courses.
Aimed At

This course is suitable for technical professionals, RAN operators, Radio planning engineers, RAN optimization engineers, E2E System architects, RAN System Engineers.

Prerequisites: Those wishing to take this course should have a good and solid understanding of 5G NR Air interface technology.

Course Review

This training course leads the audience into 5G NR indoor planning and dimensioning principles. It introduces the engineers on how to maximize RAN Indoor coverage, capacity and enhance data transmission. The course is supported by excel files for practical exercises and case studies

Course Benefits for individuals (Professionals)
  • Understanding 5G RAN requirements
  • Explore 5G RAN indoor coverage and capacity principles
  • Understand the indoor antennas and practice on their characteristics for the planning procedure
  • Practice on capacity and coverage planning tools (i.e. excel calculators examples) through practical exercises
Course Benefits for your Organization
  • Keep ahead of competitors in offering well planned and high quality customers’ 5G Indoor services
  • Identify new revenue streams that can be enabled through 5G
You will learn
The key points you will learn through this course

Section 1: 5G RAN overview

5G RAN Preliminary Indoor Design Prerequisites

5G RAN Indoor Planning

5G Indoor Transport Design

Course Outline
A short brief of your program details & schedule

5G RAN NR Preview

  • 5G Air interface overview
  • 5G NR FR1 and FR2 bands
  • Scalable numerology
  • NR frame structure
  • 5G NR signals and channels review
  • 5G NSA architecture
  • 5G SA architecture
  • 5G NSA eMBB service
  • 5G SA Services: eMBB, massive IoT, URLLC

5G Indoor Channel Modeling

  • Mobile Physical Channel and Channel modeling
  • Indoor channel modeling
  • Indoor Multipath
  • Indoor micro and pico architecture
  • FR1 Pathloss models (below 3 GHz, C-Band, 5-6 GHz, 7 GHz)
  • FR2 Pathloss models for mmW (24-30 GHz)

5G Indoor MIMO Technology

  • 5G Indoor antennas and types
  • 5G Indoor DAS system
  • 5G Indoor Active MIMO implementation
  • 5G Indoor mMIMO Beam-forming principles
  • 5G AAS mMIMO technology
  • 5G Indoor mMIMO EiRP
  • Example 5G special MIMO design – Ericsson Dot system

5G Indoor Deployment

  • 5G Indoor scenarios with Active Antenna systems
  • 5G Indoor deployment using active antennas
  • 5G Indoor gNB deployment requirements
  • 5G Indoor capacity calculation
  • 5G Indoor practical deployment examples
  • Example: Indoor Link budget analysis overview (indoor)
  • Exercise: Indoor Link Budget calculations using Excel

5G Outdoor to Indoor (O2I) coverage

  • 5G O2I losses
  • 5G O2I capacity calculations
  • 5G O2I interference
  • 5G pico/micro cell features (HetNets)
  • Example: O2I Link budget analysis overview
  • Exercise: O2I Link Budget calculations using Excel

Indoor Uplink Planning

  • Network quality requirements
  • Vendor (equipment) UL requirements
  • RACH Root Sequence planning
  • RACH Preamble selection and cell size coordination
  • RACH SINR requirements
  • Exercise: RACH collision probability vs. SINR
  • Power control factor
  • Coverage planning for PUSCH channel
  • Coverage planning for control channels (PUCCH, RACH)
  • Coverage planning for signals (SRS, DMRS)
  • 5G NR sector indoor UL capacity estimations – single service
  • 5G NR UL indoor throughput estimation (average, cell edge, max)
  • 5G NR Indoor Carrier Aggregation UL capacity
  • Exercise: UL capacity estimations using Excel spread-sheet calculator

Indoor Downlink Planning

  • Network quality requirements
  • Vendor (equipment) DL requirements
  • Power gain calculation
  • Indoor Interference factor: Optional features for Interference mitigation
  • Indoor Coverage planning for PDSCH channel
  • Indoor Coverage planning (including aggregation level) for control channel PDCCH
  • Coverage planning for signals (PSS, SSS, PBCH, SIB1, SIBx, CSI-RS, DMRS, PTRS, TRS)
  • 5G NR sector DL capacity estimations – single service
  • 5G NR indoor DL throughput estimation (average, cell edge, max)
  • 5G NR Indoor Carrier Aggregation DL capacity
  • Exercise: DL capacity estimations using Excel spread-sheet calculator

Indoor Transport network capacity deployment

  • ront-haul indoor transport requirements
  • Back-haul indoor transport network requirements
  • Indoor Transport throughput and capacity
  • Exercise: capacity estimations using Excel spread-sheet calculator
Training Format

Instructor-Led Training

On-Site Classroom or web delivery: 3 days

Web delivered (Virtual): 3 days

Course pdf material will be provided

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    5G NR Indoor Design

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