The course starts with a review of the planning process, requirements and motivation for indoor design. After this part, participants should be able to define the indoor planning design criteria. The engineering part of the course covers all the issues related to propagation and capacity theory, traffic modelling, electromagnetic radiation safety and repeater design. Throughout this part participants will also be guided into practical exercises to better understand the indoor environment losses and propagation. Before digging into a design use-case, participants will be presented with specific components used indoor, difference between passive and active DAS, radiating cable solutions and component’s radio characteristics. In the Indoor Design Case chapter participants will be challenged to develop their own project, applying the knowledge obtained in previous chapters. . The remainder focuses on optimization issues including radio parameters settings, troubleshooting, solutions and surveys.

Who should attend

This course is focused on planning indoor coverage solutions for GSM and UMTS/eHSPA networks. It is targeted at operators eager to improve network performance by means of adding effective indoor sites in hotspots and gold corporate customers.


Participants must hold basic knowledge of GSM and UMTS network architecture so as to know basic practical aspects of implementing and optimizing indoor systems. Some background in Mathematics, Statistical Analysis, RF Systems Design and Digital Communication is also a must have. Previous knowledge of planning and optimization of GSM and UMTS networks is beneficial but not essential.

Indoor Cell Planning Basics

  • Cell planning process
  • Coverage requirements
  • Capacity requirements
  • Service requirements
  • QoS Definition
  • Motivation for indoor design
  • Examples of indoor cell planning requirements
  • Tools and tips

Indoor Cell Planning Engineering

  • Traffic models for Voice and Data
  • Capacity theory
  • Indoor Radio Propagation theory
  • Planning for Active and Passive DAS System
  • Noise Figure & noise factor definitions. Friis cascade formula.
  • Planning for Electromagnetic Radiation Safety
  • Indoor Radio Link Budget
  • Repeater Network Engineering
  • Practical exercise: losses & propagation

Indoor Site Components

  • Radio characteristics (gain, noise figure, intermodulation interference, coupling losses, etc.)
  • Passive components
  • Active components
  • Repeaters
  • Tunnel with fiber optic repeaters and Radiating Cable example
  • System Noise Figure control in Active vs Passive DAS design
  • Common pitfalls
  • Case study exercises

Exercise: Indoor Design Case

  • Site design techniques
  • Environment issues
  • Common Pitfalls
  • Group project presentation and discussion

Indoor Site Tuning

  • Parameters settings guidelines: e.g. CPICH EIRP tunning vs coverage/capacity; NodeB CPICH power broadcast @ Active DAS
  • Network indoor surveys
  • Guidelines of troubleshooting and optimization

Duration: 3 days


Classroom training: € 2410

Virtual classroom training: € 2410

We offer substantial discounts for group bookings, and we have corporate rates with most of the operators and equipment suppliers in the world.

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