Indoor Radio Planning
A Practical Guide for GSM, DCS, UMTS, HSPA and LTE
(Sprache: Englisch)
Why is indoor coverage needed, and how it is best implemented? As the challenge of providing higher data speeds and quality for mobile applications intensifies, ensuring adequate in-building and tunnel coverage and capacity is increasingly important.
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Why is indoor coverage needed, and how it is best implemented? As the challenge of providing higher data speeds and quality for mobile applications intensifies, ensuring adequate in-building and tunnel coverage and capacity is increasingly important.A unique, single-source reference on the theoretical and practical knowledge behind indoor and tunnel radio planning, Indoor Radio Planning, Second Edition provides an overview of mobile networks systems and coverage solutions with GSM, UMTS, HSPA and LTE cellular systems technologies as a backdrop.
All of the available solutions, from basic passive distributed antenna systems (DAS) through to advanced fiber optic systems supporting MIMO and LTE, are discussed in detail to give the reader a good understanding. In addition, there is a section covering multi-operator systems, as this becomes a more and more utilized approach. Systematically moving from the basic considerations through to advanced indoor planning, aspects such as upgrading passive DAS from 2G to 3G, noise analysis, link budgets, traffic calculations and software tools that can be used to help create in-building designs are also covered. Femtocells, outdoor DAS and tunnel radio planning are newly included in this edition.
- A new version of the bestseller, updated with an introduction to LTE and treatments of modulation principle, DAS systems for MIMO/LTE , designing repeater systems and elevator coverage
- Addresses the challenge of providing coverage inside train, and high speed rail
- Outlines the key parameters and metrics for designing DAS for GSM, DCS, UMTS, HSPA & LTE
- Essential reading for engineering and planning personnel at mobile operators, also giving a sound grounding in indoor radio planning for equipment manufacturers
- Written by a leading practitioner in the field with more than 20 years of practical experience
Why is indoor coverage needed, and how it is best implemented? As the challenge of providing higher data speeds and quality for mobile applications intensifies, ensuring adequate in-building and tunnel coverage and capacity is increasingly important.
A unique, single-source reference on the theoretical and practical knowledge behind indoor and tunnel radio planning, Indoor Radio Planning, Second Edition provides an overview of mobile networks systems and coverage solutions with GSM, UMTS, HSPA and LTE cellular systems technologies as a backdrop.
All of the available solutions, from basic passive distributed antenna systems (DAS) through to advanced fiber optic systems supporting MIMO and LTE, are discussed in detail to give the reader a good understanding. In addition, there is a section covering multi-operator systems, as this becomes a more and more utilized approach. Systematically moving from the basic considerations through to advanced indoor planning, aspects such as upgrading passive DAS from 2G to 3G, noise analysis, link budgets, traffic calculations and software tools that can be used to help create in-building designs are also covered. Femtocells, outdoor DAS and tunnel radio planning are newly included in this edition.
- A new version of the bestseller, updated with an introduction to LTE and treatments of modulation principle, DAS systems for MIMO/LTE , designing repeater systems and elevator coverage
- Addresses the challenge of providing coverage inside train, and high speed rail
- Outlines the key parameters and metrics for designing DAS for GSM, DCS, UMTS, HSPA & LTE
- Essential reading for engineering and planning personnel at mobile operators, also giving a sound grounding in indoor radio planning for equipment manufacturers
- Written by a leading practitioner in the field with more than 20 years of practical experiencethrough to advanced indoor planning, aspects such as up
A unique, single-source reference on the theoretical and practical knowledge behind indoor and tunnel radio planning, Indoor Radio Planning, Second Edition provides an overview of mobile networks systems and coverage solutions with GSM, UMTS, HSPA and LTE cellular systems technologies as a backdrop.
All of the available solutions, from basic passive distributed antenna systems (DAS) through to advanced fiber optic systems supporting MIMO and LTE, are discussed in detail to give the reader a good understanding. In addition, there is a section covering multi-operator systems, as this becomes a more and more utilized approach. Systematically moving from the basic considerations through to advanced indoor planning, aspects such as upgrading passive DAS from 2G to 3G, noise analysis, link budgets, traffic calculations and software tools that can be used to help create in-building designs are also covered. Femtocells, outdoor DAS and tunnel radio planning are newly included in this edition.
- A new version of the bestseller, updated with an introduction to LTE and treatments of modulation principle, DAS systems for MIMO/LTE , designing repeater systems and elevator coverage
- Addresses the challenge of providing coverage inside train, and high speed rail
- Outlines the key parameters and metrics for designing DAS for GSM, DCS, UMTS, HSPA & LTE
- Essential reading for engineering and planning personnel at mobile operators, also giving a sound grounding in indoor radio planning for equipment manufacturers
- Written by a leading practitioner in the field with more than 20 years of practical experiencethrough to advanced indoor planning, aspects such as up
Inhaltsverzeichnis zu „Indoor Radio Planning “
- Foreword by Professor Simon Saunders- Preface to the Second Edition
- This is Still Not a Book for Scientists!
- The Practical Approach
- Keep the Originals!
- Preface to the First Edition
- This is Not a Book for Scientists
- The Practical Approach
- Acknowledgments
- Second Edition
- First Edition
1 Introduction
2 Overview of Cellular Systems
2.1 Mobile Telephony
2.2 Introduction to GSM
2.3 Universal Mobile Telecommunication System
2.4 Introduction to HSPA
2.5 Modulation
2.6 Advanced Antenna Systems for HSPA? and LTE
2.7 Short Introduction to LTE
3 Indoor Radio Planning
3.1 Why is In-building Coverage Important?
3.2 Indoor Coverage from the Macro Layer
3.3 The Indoor UMTS/HSPA Challenge
3.4 Common UMTS Rollout Mistakes
3.5 The Basics of Indoor RF Planning
4 Distributed Antenna Systems
4.1 What Type of Distributed Antenna System is Best?
4.2 Passive Components
4.3 The Passive DAS
4.4 Active DAS
4.5 Hybrid Active DAS Solutions
4.6 Other Hybrid DAS Solutions
4.7 Indoor DAS for MIMO Applications
4.8 Using Repeaters for Indoor DAS Coverage
4.9 Repeaters for Rail Solutions
4.10 Designing with Pico and Femtocells
4.11 Active DAS Data
4.12 Electromagnetic Radiation, EMR
4.13 Conclusion
5 Designing Indoor DAS Solutions
5.1 The Indoor Planning Procedure
5.2 The RF Design Process
5.3 Designing the Optimum Indoor Solution
5.4 Indoor Design Strategy
5.5 Handover Considerations Inside Buildings
5.6 Elevator Coverage
5.7 Multioperator Systems
5.8 Co-existence Issues for GSM/UMTS
5.9 Co-existence Issues for UMTS/UMTS
5.10 Multioperator Requirements
6 Traffic Dimensioning
6.1 Erlang, the Traffic Measurement
7 Noise
7.1 Noise Fundamentals
7.2 Cascaded Noise
7.3 Noise Power
7.4 Noise Power from Parallel Systems
7.5 Noise Control
7.6 Updating a Passive DAS from 2G to 3G
8 The Link Budget
8.1 The Components and Calculations of the RF Link
9 Tools for Indoor Radio Planning
9.1 Live and Learn
9.2 Diagram Tools
9.3 Radio
... mehr
Survey Tools
9.4 The Simple Tools and Tips
9.5 Tools for Link Budget Calculations
9.6 Tools for Indoor Predictions
9.7 The Advanced Toolkit (RF-vu from iBwave.com)
10 Optimizing the Radio Resource Management Parameters on Node B When Interfacing to an Active DAS, BDA, LNA or TMA
10.1 Introduction
10.2 Impact of DL Power Offset
10.3 Impact of Noise Power
10.4 Delay of the Active DAS
10.5 Impact of External Noise Power
11 Tunnel Radio Planning
11.1 The Typical Tunnel Solution
11.2 The Tunnel HO Zone
11.3 Covering Tunnels with Antennas
11.4 Radiating Cable Solutions
11.5 Tunnel Solutions, Cascaded BDAs
11.6 Tunnel Solutions, T-Systems
11.7 Handover Design inside Tunnels
11.8 Redundancy in Tunnel Coverage Solutions
11.9 Sector Strategy for Larger Metro Tunnel Projects
11.10 RF Test Specification of Tunnel Projects
11.11 Timing Issues in DAS for Tunnels
12 Covering Indoor Users From the Outdoor Network
12.1 The Challenges of Reaching Indoor Users From the Macro Network
12.2 Micro Cell Capacity
12.3 ODAS - Outdoor Distributed Antenna Systems
12.4 Digital Distribution on DAS
12.5 High Speed Rail Solutions
- References
- Appendix
- Reference Material
- Indexpact of Noise Power
10.4 Delay of the Active DAS
10.5 Impact of External Noise Power
11 Tunnel Radio Planning
11.1 The Typical Tunnel Solution
11.2 The Tunnel HO Zone
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9.4 The Simple Tools and Tips
9.5 Tools for Link Budget Calculations
9.6 Tools for Indoor Predictions
9.7 The Advanced Toolkit (RF-vu from iBwave.com)
10 Optimizing the Radio Resource Management Parameters on Node B When Interfacing to an Active DAS, BDA, LNA or TMA
10.1 Introduction
10.2 Impact of DL Power Offset
10.3 Impact of Noise Power
10.4 Delay of the Active DAS
10.5 Impact of External Noise Power
11 Tunnel Radio Planning
11.1 The Typical Tunnel Solution
11.2 The Tunnel HO Zone
11.3 Covering Tunnels with Antennas
11.4 Radiating Cable Solutions
11.5 Tunnel Solutions, Cascaded BDAs
11.6 Tunnel Solutions, T-Systems
11.7 Handover Design inside Tunnels
11.8 Redundancy in Tunnel Coverage Solutions
11.9 Sector Strategy for Larger Metro Tunnel Projects
11.10 RF Test Specification of Tunnel Projects
11.11 Timing Issues in DAS for Tunnels
12 Covering Indoor Users From the Outdoor Network
12.1 The Challenges of Reaching Indoor Users From the Macro Network
12.2 Micro Cell Capacity
12.3 ODAS - Outdoor Distributed Antenna Systems
12.4 Digital Distribution on DAS
12.5 High Speed Rail Solutions
- References
- Appendix
- Reference Material
- Indexpact of Noise Power
10.4 Delay of the Active DAS
10.5 Impact of External Noise Power
11 Tunnel Radio Planning
11.1 The Typical Tunnel Solution
11.2 The Tunnel HO Zone
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... weniger
Autoren-Porträt von Morten Tolstrup
Morten Tolstrup Morten Tolstrup is the Director of TE Wireless Group, International Service & Solutions. Prior to working for LGC/ADC/TE he spent 13 years in a number of different engineering positions with a mobile operator in Denmark, mainly focusing on indoor RF planning, tunnels, Airports, Pico-cells and micro cells. Over the past 15 years Morten has presented more than 50 papers and workshops at conferences around the world.
Bibliographische Angaben
- Autor: Morten Tolstrup
- 2011, 2. Aufl., 480 Seiten, Maße: 17,4 x 25,1 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 0470710705
- ISBN-13: 9780470710708
Sprache:
Englisch
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