LTE for UMTS
OFDMA and SC-FDMA Based Radio Access
(Sprache: Englisch)
This book is a one-stop resource on LTE (Long Term Evolution) written by best-selling authors who are the renowned authorities in the field. Succinctly presents the 3GPP LTE standard and describes its expected performance. It will be one of the first books...
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This book is a one-stop resource on LTE (Long Term Evolution) written by best-selling authors who are the renowned authorities in the field. Succinctly presents the 3GPP LTE standard and describes its expected performance. It will be one of the first books to market after the LTE L1 standard is finalized at the end of 2007. It will give a complete overview of LTE for UMTS and includes chapters on MBMS, HSPA Evolution, and WiMAX.
Klappentext zu „LTE for UMTS “
This book gives a complete overview of LTE for UMTS and includes chapters on MBMS, HSPA Evolution and WiMAX. Chapter 1 gives an overview to LTE with Chapter 2 covering the standardization background and process being. The system architecture evolution (SAE) is presented in Chapter 3 and the basics of air interface modulation choices in Chapter 4. Chapter 5 describes 3GPP LTE physical layer solutions and protocol solution is covered in Chapter 6. The mobility aspects are addressed in Chapter 7 and the packet scheduling in Chapter 8. Chapter 9 illustrates the radio and end-to-end performance while the voice performance is addressed in Chapter 10. Chapter 11 shows the operation of Multimedia Broadcast Multicast System (MBMS) and Chapters 12 and 13 describe other wireless broadband solutions: HSPA evolution in 3GPP Releases 7 and 8, and WiMAX based on IEEE and WiMAX forum definitions.Written by the best-selling editors of the highly successful WCDMA for UMTS, internationally recognised as the book on WCDMA and also HSDPA/HSUPA for UMTS
Covers all the key aspects of LTE and its performance
Presents 3GPP LTE standard in release 8 and examines its predicted performance
Includes chapters on MBMS, HSPA Evolution and WiMAX
From the editors of the highly successful WCDMA for UMTS , this new book gives a complete and up-to-date overview of Long Term Evolution (LTE) in a systematic and clear manner. It starts with an in-depth explanation of the background and standardization process before moving on to examine the system architecture evolution (SAE). The basics of air interface modulation choices are introduced and key subjects such as 3GPP LTE physical layer and protocol solutions are described. Mobility aspects and radio resource management together with radio and end-to-end performance are assessed. The voice solution and voice capacity in LTE are also illustrated. Finally, the main differences between LTE TDD and FDD modes are examined and HSPA evolution in 3GPP Releases 7 and 8 is described.
LTE for UMTS is one of the first books to provide a comprehensive guide to the standards and technologies of LTE. Key features of the book include:
- Covers all the key aspects of LTE in a systematic manner
- Presents full description of 3GPP Release 8 LTE
- Examines the expected performance of LTE
- Written by experts actively involved in the 3GPP standards and product development
LTE for UMTS is one of the first books to provide a comprehensive guide to the standards and technologies of LTE. Key features of the book include:
- Covers all the key aspects of LTE in a systematic manner
- Presents full description of 3GPP Release 8 LTE
- Examines the expected performance of LTE
- Written by experts actively involved in the 3GPP standards and product development
Inhaltsverzeichnis zu „LTE for UMTS “
PrefaceAcknowledgements
List of Abbreviations
1 Introduction (Harri Holma and Antti Toskala)
1.1 Mobile Voice Subscriber Growth
1.2 Mobile Data Usage Growth
1.3 Wireline Technologies Evolution
1.4 Motivation and Targets for LTE
1.5 Overview of LTE
1.6 3GPP Family of Technologies
1.7 Wireless Spectrum
1.8 New Spectrum Identifi ed by WRC-07
1.9 LTE-Advanced
2 LTE Standardization (Antti Toskala)
2.1 Introduction
2.2 Overview of 3GPP Releases and Process
2.3 LTE Targets
2.4 LTE Standardization Phases
2.5 Evolution Beyond Release 8
2.6 LTE-Advanced for IMT-Advanced
2.7 LTE Specifi cations and 3GPP Structure
References
3 System Architecture Based on 3GPP SAE (Atte Länsisalmi and Antti Toskala)
3.1 System Architecture Evolution in 3GPP
3.2 Basic System Architecture Confi guration with only E-UTRAN Access Network
3.3 System Architecture with E-UTRAN and Legacy 3GPP Access Networks
3.4 System Architecture with E-UTRAN and Non-3GPP Access Networks
3.5 Inter-working with cdma2000(r) Access Networks
3.6 IMS Architecture
3.7 PCC and QoS
References
4 Introduction to OFDMA and SC-FDMA and to MIMO in LTE (Antti Toskala and Timo Lunttila)
4.1 Introduction
4.2 LTE Multiple Access Background
4.3 OFDMA Basics
4.4 SC-FDMA Basics
4.5 MIMO Basics
4.6 Summary
References
5 Physical Layer (Antti Toskala, Timo Lunttila, Esa Tiirola, Kari Hooli and Juha Korhonen)
5.1 Introduction
5.2 Transport Channels and Their Mapping to the Physical Channels
5.3 Modulation
5.4 Uplink User Data Transmission
5.5 Downlink User Data Transmission
5.6 Uplink Physical Layer Signaling Transmission
5.7 PRACH Structure
5.8 Downlink Physical Layer Signaling Transmission
5.9 Physical Layer Procedures
5.10 UE Capability Classes and Supported Features
5.11 Physical Layer Measurements
5.12 Physical Layer Parameter Confi guration
5.13 Summary
References
6 LTE
... mehr
Radio Protocols (Antti Toskala and Woonhee Hwang)
6.1 Introduction
6.2 Protocol Architecture
6.3 Medium Access Control
6.4 Radio Link Control Layer
6.5 Packet Data Convergence Protocol
6.6 Radio Resource Control (RRC)
6.7 X2 Interface Protocols
6.8 Early UE Handling in LTE
6.9 Summary
References
7 Mobility (Chris Callender, Harri Holma, Jarkko Koskela and Jussi Reunanen)
7.1 Introduction
7.2 Mobility Management in Idle State
7.3 Intra-LTE Handovers
7.4 Inter-system Handovers
7.5 Differences in E-UTRAN and UTRAN Mobility
7.6 Summary
Reference
8 Radio Resource Management (Harri Holma, Troels Kolding, Daniela Laselva, Klaus Pedersen, Claudio Rosa and Ingo Viering)
8.1 Introduction
8.2 Overview of RRM Algorithms
8.3 Admission Control and QoS Parameters
8.4 Downlink Dynamic Scheduling and Link Adaptation
8.5 Uplink Dynamic Scheduling and Link Adaptation
8.6 Interference Management and Power Settings
8.7 Discontinuous Transmission and Reception (DTX/DRX)
8.8 RRC Connection Maintenance
8.9 Summary
Reference
9 Performance (Harri Holma, Pasi Kinnunen, István Z. Kovács, Kari Pajukoski, Klaus Pedersen and Jussi Reunanen)
9.1 Introduction
9.2 Layer 1 Peak Bit Rates
9.3 Terminal Categories
9.4 Link Level Performance
9.5 Link Budgets
9.6 Spectral Efficiency
9.7 Latency
9.8 LTE Refarming to GSM Spectrum
9.9 Dimensioning
9.10 Capacity Management Examples from HSPA Networks
9.11 Summary
References
10 Voice over IP (VoIP) (Harri Holma, Juha Kallio, Markku Kuusela, Petteri Lundén, Esa Malkamäki, Jussi Ojala and Haiming Wang)
10.1 Introduction
10.2 VoIP Codecs
10.3 VoIP Requirements
10.4 Delay Budget
10.5 Scheduling and Control Channels
10.6 LTE Voice Capacity
10.7 Voice Capacity Evolution
10.8 Uplink Coverage
10.9 Circuit Switched Fallback for LTE
10.10 Single Radio Voice Call Continuity (SR-VCC)
10.11 Summary
References
11 Performance Requirements (Andrea Ancora, Iwajlo Angelow, Dominique Brunel, Chris Callender, Harri Holma, Peter Muszynski, Earl McCune and Laurent Noël)
11.1 Introduction
11.2 Frequency Bands and Channel Arrangements
11.3 eNodeB RF Transmitter
11.4 eNodeB RF Receiver
11.5 eNodeB Demodulation Performance
11.6 UE Design Principles and Challenges
11.7 UE RF Transmitter
11.8 UE RF Receiver Requirements
11.9 UE Demodulation Performance
11.10 Requirements for Radio Resource Management
11.11 Summary
References
12 LTE TDD Mode (Che Xiangguang, Troels Kolding, Peter Skov, Wang Haiming and Antti Toskala)
12.1 Introduction
12.2 LTE TDD Fundamental
12.3 TDD Control Design
12.4 Semi-persistent Scheduling
12.5 MIMO and Dedicated Reference Signals
12.6 LTE TDD Performance
12.7 Summary
References
13 HSPA Evolution (Harri Holma, Karri Ranta-aho and Antti Toskala)
13.1 Introduction
13.2 Discontinuous Transmission and Reception (DTX/DRX)
13.3 Circuit Switched Voice on HSPA
13.4 Enhanced FACH and RACH
13.5 Downlink MIMO and 64QAM
13.6 Dual Carrier HSDPA
13.7 Uplink 16QAM
13.8 Layer 2 Optimization
13.9 Single Frequency Network (SFN) MBMS
13.10 Architecture Evolution
13.11 Summary
References
Index
6.1 Introduction
6.2 Protocol Architecture
6.3 Medium Access Control
6.4 Radio Link Control Layer
6.5 Packet Data Convergence Protocol
6.6 Radio Resource Control (RRC)
6.7 X2 Interface Protocols
6.8 Early UE Handling in LTE
6.9 Summary
References
7 Mobility (Chris Callender, Harri Holma, Jarkko Koskela and Jussi Reunanen)
7.1 Introduction
7.2 Mobility Management in Idle State
7.3 Intra-LTE Handovers
7.4 Inter-system Handovers
7.5 Differences in E-UTRAN and UTRAN Mobility
7.6 Summary
Reference
8 Radio Resource Management (Harri Holma, Troels Kolding, Daniela Laselva, Klaus Pedersen, Claudio Rosa and Ingo Viering)
8.1 Introduction
8.2 Overview of RRM Algorithms
8.3 Admission Control and QoS Parameters
8.4 Downlink Dynamic Scheduling and Link Adaptation
8.5 Uplink Dynamic Scheduling and Link Adaptation
8.6 Interference Management and Power Settings
8.7 Discontinuous Transmission and Reception (DTX/DRX)
8.8 RRC Connection Maintenance
8.9 Summary
Reference
9 Performance (Harri Holma, Pasi Kinnunen, István Z. Kovács, Kari Pajukoski, Klaus Pedersen and Jussi Reunanen)
9.1 Introduction
9.2 Layer 1 Peak Bit Rates
9.3 Terminal Categories
9.4 Link Level Performance
9.5 Link Budgets
9.6 Spectral Efficiency
9.7 Latency
9.8 LTE Refarming to GSM Spectrum
9.9 Dimensioning
9.10 Capacity Management Examples from HSPA Networks
9.11 Summary
References
10 Voice over IP (VoIP) (Harri Holma, Juha Kallio, Markku Kuusela, Petteri Lundén, Esa Malkamäki, Jussi Ojala and Haiming Wang)
10.1 Introduction
10.2 VoIP Codecs
10.3 VoIP Requirements
10.4 Delay Budget
10.5 Scheduling and Control Channels
10.6 LTE Voice Capacity
10.7 Voice Capacity Evolution
10.8 Uplink Coverage
10.9 Circuit Switched Fallback for LTE
10.10 Single Radio Voice Call Continuity (SR-VCC)
10.11 Summary
References
11 Performance Requirements (Andrea Ancora, Iwajlo Angelow, Dominique Brunel, Chris Callender, Harri Holma, Peter Muszynski, Earl McCune and Laurent Noël)
11.1 Introduction
11.2 Frequency Bands and Channel Arrangements
11.3 eNodeB RF Transmitter
11.4 eNodeB RF Receiver
11.5 eNodeB Demodulation Performance
11.6 UE Design Principles and Challenges
11.7 UE RF Transmitter
11.8 UE RF Receiver Requirements
11.9 UE Demodulation Performance
11.10 Requirements for Radio Resource Management
11.11 Summary
References
12 LTE TDD Mode (Che Xiangguang, Troels Kolding, Peter Skov, Wang Haiming and Antti Toskala)
12.1 Introduction
12.2 LTE TDD Fundamental
12.3 TDD Control Design
12.4 Semi-persistent Scheduling
12.5 MIMO and Dedicated Reference Signals
12.6 LTE TDD Performance
12.7 Summary
References
13 HSPA Evolution (Harri Holma, Karri Ranta-aho and Antti Toskala)
13.1 Introduction
13.2 Discontinuous Transmission and Reception (DTX/DRX)
13.3 Circuit Switched Voice on HSPA
13.4 Enhanced FACH and RACH
13.5 Downlink MIMO and 64QAM
13.6 Dual Carrier HSDPA
13.7 Uplink 16QAM
13.8 Layer 2 Optimization
13.9 Single Frequency Network (SFN) MBMS
13.10 Architecture Evolution
13.11 Summary
References
Index
... weniger
Bibliographische Angaben
- Autoren: Harri Holma , Antti Toskala
- 2009, 352 Seiten, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 0470994010
- ISBN-13: 9780470994016
Sprache:
Englisch
Rezension zu „LTE for UMTS “
"Editors Holma and Toskala (both of Nokia and 33 co-contributors have written a comprehensive, clear, and up-to-date overview of Long Term Evolution" ( Book News, September 2009)
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