From GSM to LTE-Advanced Pro and 5G: an introduction to mobile networks and mobile broadband
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ, USA ; Chichester, West Sussex, UK
Wiley
2021
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| Ausgabe: | Fourth edition |
| Schlagworte: | |
| Online-Zugang: | TUM01 |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 Online-Ressource (xvi, 606 Seiten) Illustrationen |
| ISBN: | 9781119714705 9781119714699 |
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| 100 | 1 | |a Sauter, Martin |e Verfasser |0 (DE-588)1076843611 |4 aut | |
| 245 | 1 | 0 | |a From GSM to LTE-Advanced Pro and 5G |b an introduction to mobile networks and mobile broadband |c Martin Sauter |
| 250 | |a Fourth edition | ||
| 264 | 1 | |a Hoboken, NJ, USA ; Chichester, West Sussex, UK |b Wiley |c 2021 | |
| 264 | 4 | |c © 2021 | |
| 300 | |a 1 Online-Ressource (xvi, 606 Seiten) |b Illustrationen | ||
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| 500 | |a Description based on publisher supplied metadata and other sources | ||
| 505 | 8 | |a Cover -- Title Page -- Copyright Page -- Contents -- Preface to Fourth Edition -- Chapter 1 Global System for Mobile Communications (GSM) -- 1.1 Circuit-Switched Data Transmission -- 1.1.1 Classic Circuit Switching -- 1.1.2 Virtual Circuit Switching over IP -- 1.2 Standards -- 1.3 Transmission Speeds -- 1.4 The Signaling System Number 7 -- 1.4.1 The Classic SS-7 Protocol Stack -- 1.4.2 SS-7 Protocols for GSM -- 1.4.3 IP-Based SS-7 Protocol Stack -- 1.5 The GSM Subsystems -- 1.6 The Network Subsystem -- 1.6.1 The Mobile Switching Center (MSC), Server, and Gateway -- 1.6.2 The Visitor Location Register (VLR) -- 1.6.3 The Home Location Register (HLR) -- 1.6.4 The Authentication Center -- 1.6.5 The Short Messaging Service Center (SMSC) -- 1.7 The Base Station Subsystem (BSS) and Voice Processing -- 1.7.1 Frequency Bands -- 1.7.2 The Base Transceiver Station (BTS) -- 1.7.3 The GSM Air Interface -- 1.7.4 The Base Station Controller (BSC) -- 1.7.5 The TRAU for Voice Encoding -- 1.7.6 Channel Coder and Interleaver in the BTS -- 1.7.7 Ciphering in the BTS and Security Aspects -- 1.7.8 Modulation -- 1.7.9 Voice Activity Detection -- 1.8 Mobility Management and Call Control -- 1.8.1 Cell Reselection and Location Area Update -- 1.8.2 The Mobile-Terminated Call -- 1.8.3 Handover Scenarios -- 1.9 The Mobile Device -- 1.10 The SIM Card -- 1.11 The Intelligent Network Subsystem and CAMEL -- Questions -- References -- Chapter 2 General Packet Radio Service (GPRS) and EDGE -- 2.1 Circuit-Switched Data Transmission over GSM -- 2.2 Packet-Switched Data Transmission over GPRS -- 2.3 The GPRS Air Interface -- 2.3.1 GPRS vs. GSM Timeslot Usage on the Air Interface -- 2.3.2 Mixed GSM/GPRS Timeslot Usage in a Base Station -- 2.3.3 Coding Schemes -- 2.3.4 Enhanced Datarates for GSM Evolution (EDGE) -- 2.3.5 Mobile Device Classes -- 2.3.6 Network Mode of Operation | |
| 505 | 8 | |a 2.3.7 GPRS Logical Channels on the Air Interface -- 2.4 The GPRS State Model -- 2.5 GPRS Network Elements -- 2.5.1 The Packet Control Unit (PCU) -- 2.5.2 The Serving GPRS Support Node (SGSN) -- 2.5.3 The Gateway GPRS Support Node (GGSN) -- 2.6 GPRS Radio Resource Management -- 2.7 GPRS Interfaces -- 2.8 GPRS Mobility Management and Session Management (GMM/SM) -- 2.8.1 Mobility Management Tasks -- 2.8.2 GPRS Session Management -- Questions -- References -- Chapter 3 Universal Mobile Telecommunications System (UMTS) and High-Speed Packet Access (HSPA) -- 3.1 Overview -- 3.1.1 3GPP Release 99: The First UMTS Access Network Implementation -- 3.1.2 3GPP Release 4: Enhancements for the Circuit-Switched Core Network -- 3.1.3 3GPP Release 5: High-Speed Downlink Packet Access -- 3.1.4 3GPP Release 6: High-Speed Uplink Packet Access (HSUPA) -- 3.1.5 3GPP Release 7: Even Faster HSPA and Continued Packet Connectivity -- 3.1.6 3GPP Release 8: LTE, Further HSPA Enhancements and Femtocells -- 3.2 Important New Concepts of UMTS -- 3.2.1 The Radio Access Bearer (RAB) -- 3.2.2 The Access Stratum and Non-Access Stratum -- 3.2.3 Common Transport Protocols for CS and PS -- 3.3 Code Division Multiple Access (CDMA) -- 3.3.1 Spreading Factor, Chip Rate, and Process Gain -- 3.3.2 The OVSF Code Tree -- 3.3.3 Scrambling in Uplink and Downlink Direction -- 3.3.4 UMTS Frequency and Cell Planning -- 3.3.5 The Near-Far Effect and Cell Breathing -- 3.3.6 Advantages of the UMTS Radio Network Compared to GSM -- 3.4 UMTS Channel Structure on the Air Interface -- 3.4.1 User Plane and Control Plane -- 3.4.2 Common and Dedicated Channels -- 3.4.3 Logical, Transport, and Physical Channels -- 3.4.4 Example: Network Search -- 3.4.5 Example: Initial Network Access Procedure -- 3.4.6 The Uu Protocol Stack -- 3.5 The UMTS Terrestrial Radio Access Network (UTRAN) | |
| 505 | 8 | |a 3.5.1 Node-B, Iub Interface, NBAP, and FP -- 3.5.2 The RNC, Iu, Iub and Iur Interfaces, RANAP, and RNSAP -- 3.5.3 Adaptive Multirate (AMR) NB and WB Codecs for Voice Calls -- 3.5.4 Radio Resource Control (RRC) States -- 3.6 Core Network Mobility Management -- 3.7 Radio Network Mobility Management -- 3.7.1 Mobility Management in the Cell-DCH State -- 3.7.2 Mobility Management in Idle State -- 3.7.3 Mobility Management in Other States -- 3.8 UMTS CS and PS Call Establishment -- 3.9 UMTS Security -- 3.10 High-Speed Downlink Packet Access (HSDPA) and HSPA+ -- 3.10.1 HSDPA Channels -- 3.10.2 Shorter Delay Times and Hybrid ARQ (HARQ) -- 3.10.3 Node-B Scheduling -- 3.10.4 Adaptive Modulation and Coding, Transmission Rates, and Multicarrier Operation -- 3.10.5 Establishment and Release of an HSDPA Connection -- 3.10.6 HSDPA Mobility Management -- 3.11 High-Speed Uplink Packet Access (HSUPA) -- 3.11.1 E-DCH Channel Structure -- 3.11.2 The E-DCH Protocol Stack and Functionality -- 3.11.3 E-DCH Scheduling -- 3.11.4 E-DCH Mobility -- 3.11.5 E-DCH-Capable Devices -- 3.12 Radio and Core Network Enhancements: CPC -- 3.12.1 A New Uplink Control Channel Slot Format -- 3.12.2 Reporting Reduction -- 3.12.3 HS-SCCH Discontinuous Reception -- 3.12.4 HS-SCCH-less Operation -- 3.12.5 Enhanced Cell-FACH and Cell/URA-PCH States -- 3.13 Radio Resource State Management -- 3.14 Automated Emergency Calls (eCall) from Vehicles -- Questions -- References -- Chapter 4 Long Term Evolution (LTE) and LTE-Advanced Pro -- 4.1 Introduction and Overview -- 4.2 Network Architecture and Interfaces -- 4.2.1 LTE Mobile Devices and the LTE Uu Interface -- 4.2.2 The eNB and the S1 and X2 Interfaces -- 4.2.3 The Mobility Management Entity (MME) -- 4.2.4 The Serving Gateway (S-GW) -- 4.2.5 The PDN-Gateway -- 4.2.6 The Home Subscriber Server (HSS) -- 4.2.7 Billing, Prepaid, and Quality of Service | |
| 505 | 8 | |a 4.3 FDD Air Interface and Radio Network -- 4.3.1 OFDMA for Downlink Transmission -- 4.3.2 SC-FDMA for Uplink Transmission -- 4.3.3 Quadrature Amplitude Modulation for Subchannels -- 4.3.4 Symbols, Slots, Radio Blocks, and Frames -- 4.3.5 Reference and Synchronization Signals -- 4.3.6 The LTE Channel Model in the Downlink Direction -- 4.3.7 Downlink Management Channels -- 4.3.8 System Information Messages -- 4.3.9 The LTE Channel Model in the Uplink Direction -- 4.3.10 MIMO Transmission -- 4.3.11 HARQ and Other Retransmission Mechanisms -- 4.3.12 PDCP Compression and Ciphering -- 4.3.13 Protocol Layer Overview -- 4.4 TD-LTE Air Interface -- 4.5 Scheduling -- 4.5.1 Downlink Scheduling -- 4.5.2 Uplink Scheduling -- 4.6 Basic Procedures -- 4.6.1 Cell Search -- 4.6.2 Attach and Default Bearer Activation -- 4.6.3 Handover Scenarios -- 4.6.4 Default and Dedicated Bearers -- 4.7 Mobility Management and Power Optimization -- 4.7.1 Mobility Management in RRC Connected State -- 4.7.2 Mobility Management in RRC Idle State -- 4.7.3 Mobility Management and State Changes in Practice -- 4.8 LTE Security Architecture -- 4.9 Interconnection with UMTS and GSM -- 4.9.1 Cell Reselection between LTE and GSM/UMTS -- 4.9.2 RRC Connection Release with Redirect from LTE to GSM/UMTS -- 4.9.3 Handover from LTE to UMTS -- 4.9.4 Returning from UMTS and GPRS to LTE -- 4.10 Carrier Aggregation -- 4.10.1 CA Types, Bandwidth Classes, and Band Combinations -- 4.10.2 CA Configuration, Activation, and Deactivation -- 4.10.3 Uplink Carrier Aggregation -- 4.11 Network Planning Aspects -- 4.11.1 Single Frequency Network -- 4.11.2 Cell-Edge Performance -- 4.11.3 Self-Organizing Network Functionality -- 4.11.4 Cell Site Throughput and Number of Simultaneous Users -- 4.12 CS-Fallback for Voice and SMS Services with LTE -- 4.12.1 SMS over SGs -- 4.12.2 CS-Fallback for Voice Calls | |
| 505 | 8 | |a 4.13 Network Sharing - MOCN and MORAN -- 4.13.1 National Roaming -- 4.13.2 MOCN (Multi-Operator Core Network) -- 4.13.3 MORAN (Mobile Operator Radio Access Network) -- 4.14 From Dipoles to Active Antennas and Gigabit Backhaul -- 4.15 IPv6 in Mobile Networks -- 4.15.1 IPv6 Prefix and Interface Identifiers -- 4.15.2 IPv6 and International Roaming -- 4.15.3 IPv6 and Tethering -- 4.15.4 IPv6-Only Connectivity -- 4.16 Network Function Virtualization -- 4.16.1 Virtualization on the Desktop -- 4.16.2 Running an Operating System in a Virtual Machine -- 4.16.3 Running Several Virtual Machines Simultaneously -- 4.16.4 Virtual Machine Snapshots -- 4.16.5 Cloning a Virtual Machine -- 4.16.6 Virtualization in Data Centers in the Cloud -- 4.16.7 Managing Virtual Machines in the Cloud -- 4.16.8 Network Function Virtualization -- 4.16.9 Virtualizing Routers -- 4.16.10 Software-Defined Networking -- 4.17 Machine Type Communication and the Internet of Things -- 4.17.1 LTE Cat-1 Devices -- 4.17.2 LTE Cat-0 Devices and PSM -- 4.17.3 LTE Cat-M1 Devices -- 4.17.4 LTE NB1 (NB-IoT) Devices -- 4.17.5 NB-IoT - Deployment Options -- 4.17.6 NB-IoT - Air Interface -- 4.17.7 NB-IoT - Control Channels and Scheduling -- 4.17.8 NB-IoT Multicarrier Operation -- 4.17.9 NB-IoT Throughput and Number of Devices per Cell -- 4.17.10 NB-IoT Power Consumption Considerations -- 4.17.11 NB-IoT - High Latency Communication -- 4.17.12 NB-IoT - Optimizing IP-Based and Non-IP-Based Data Transmission -- 4.17.13 NB-IoT Summary -- Questions -- References -- Chapter 5 VoLTE, VoWifi, and Mission Critical Communication -- 5.1 Overview -- 5.2 The Session Initiation Protocol (SIP) -- 5.3 The IP Multimedia Subsystem (IMS) and VoLTE -- 5.3.1 Architecture Overview -- 5.3.2 Registration -- 5.3.3 VoLTE Call Establishment -- 5.3.4 LTE Bearer Configurations for VoLTE. | |
| 505 | 8 | |a 5.3.5 Dedicated Bearer Setup with Preconditions | |
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| contents | Cover -- Title Page -- Copyright Page -- Contents -- Preface to Fourth Edition -- Chapter 1 Global System for Mobile Communications (GSM) -- 1.1 Circuit-Switched Data Transmission -- 1.1.1 Classic Circuit Switching -- 1.1.2 Virtual Circuit Switching over IP -- 1.2 Standards -- 1.3 Transmission Speeds -- 1.4 The Signaling System Number 7 -- 1.4.1 The Classic SS-7 Protocol Stack -- 1.4.2 SS-7 Protocols for GSM -- 1.4.3 IP-Based SS-7 Protocol Stack -- 1.5 The GSM Subsystems -- 1.6 The Network Subsystem -- 1.6.1 The Mobile Switching Center (MSC), Server, and Gateway -- 1.6.2 The Visitor Location Register (VLR) -- 1.6.3 The Home Location Register (HLR) -- 1.6.4 The Authentication Center -- 1.6.5 The Short Messaging Service Center (SMSC) -- 1.7 The Base Station Subsystem (BSS) and Voice Processing -- 1.7.1 Frequency Bands -- 1.7.2 The Base Transceiver Station (BTS) -- 1.7.3 The GSM Air Interface -- 1.7.4 The Base Station Controller (BSC) -- 1.7.5 The TRAU for Voice Encoding -- 1.7.6 Channel Coder and Interleaver in the BTS -- 1.7.7 Ciphering in the BTS and Security Aspects -- 1.7.8 Modulation -- 1.7.9 Voice Activity Detection -- 1.8 Mobility Management and Call Control -- 1.8.1 Cell Reselection and Location Area Update -- 1.8.2 The Mobile-Terminated Call -- 1.8.3 Handover Scenarios -- 1.9 The Mobile Device -- 1.10 The SIM Card -- 1.11 The Intelligent Network Subsystem and CAMEL -- Questions -- References -- Chapter 2 General Packet Radio Service (GPRS) and EDGE -- 2.1 Circuit-Switched Data Transmission over GSM -- 2.2 Packet-Switched Data Transmission over GPRS -- 2.3 The GPRS Air Interface -- 2.3.1 GPRS vs. GSM Timeslot Usage on the Air Interface -- 2.3.2 Mixed GSM/GPRS Timeslot Usage in a Base Station -- 2.3.3 Coding Schemes -- 2.3.4 Enhanced Datarates for GSM Evolution (EDGE) -- 2.3.5 Mobile Device Classes -- 2.3.6 Network Mode of Operation 2.3.7 GPRS Logical Channels on the Air Interface -- 2.4 The GPRS State Model -- 2.5 GPRS Network Elements -- 2.5.1 The Packet Control Unit (PCU) -- 2.5.2 The Serving GPRS Support Node (SGSN) -- 2.5.3 The Gateway GPRS Support Node (GGSN) -- 2.6 GPRS Radio Resource Management -- 2.7 GPRS Interfaces -- 2.8 GPRS Mobility Management and Session Management (GMM/SM) -- 2.8.1 Mobility Management Tasks -- 2.8.2 GPRS Session Management -- Questions -- References -- Chapter 3 Universal Mobile Telecommunications System (UMTS) and High-Speed Packet Access (HSPA) -- 3.1 Overview -- 3.1.1 3GPP Release 99: The First UMTS Access Network Implementation -- 3.1.2 3GPP Release 4: Enhancements for the Circuit-Switched Core Network -- 3.1.3 3GPP Release 5: High-Speed Downlink Packet Access -- 3.1.4 3GPP Release 6: High-Speed Uplink Packet Access (HSUPA) -- 3.1.5 3GPP Release 7: Even Faster HSPA and Continued Packet Connectivity -- 3.1.6 3GPP Release 8: LTE, Further HSPA Enhancements and Femtocells -- 3.2 Important New Concepts of UMTS -- 3.2.1 The Radio Access Bearer (RAB) -- 3.2.2 The Access Stratum and Non-Access Stratum -- 3.2.3 Common Transport Protocols for CS and PS -- 3.3 Code Division Multiple Access (CDMA) -- 3.3.1 Spreading Factor, Chip Rate, and Process Gain -- 3.3.2 The OVSF Code Tree -- 3.3.3 Scrambling in Uplink and Downlink Direction -- 3.3.4 UMTS Frequency and Cell Planning -- 3.3.5 The Near-Far Effect and Cell Breathing -- 3.3.6 Advantages of the UMTS Radio Network Compared to GSM -- 3.4 UMTS Channel Structure on the Air Interface -- 3.4.1 User Plane and Control Plane -- 3.4.2 Common and Dedicated Channels -- 3.4.3 Logical, Transport, and Physical Channels -- 3.4.4 Example: Network Search -- 3.4.5 Example: Initial Network Access Procedure -- 3.4.6 The Uu Protocol Stack -- 3.5 The UMTS Terrestrial Radio Access Network (UTRAN) 3.5.1 Node-B, Iub Interface, NBAP, and FP -- 3.5.2 The RNC, Iu, Iub and Iur Interfaces, RANAP, and RNSAP -- 3.5.3 Adaptive Multirate (AMR) NB and WB Codecs for Voice Calls -- 3.5.4 Radio Resource Control (RRC) States -- 3.6 Core Network Mobility Management -- 3.7 Radio Network Mobility Management -- 3.7.1 Mobility Management in the Cell-DCH State -- 3.7.2 Mobility Management in Idle State -- 3.7.3 Mobility Management in Other States -- 3.8 UMTS CS and PS Call Establishment -- 3.9 UMTS Security -- 3.10 High-Speed Downlink Packet Access (HSDPA) and HSPA+ -- 3.10.1 HSDPA Channels -- 3.10.2 Shorter Delay Times and Hybrid ARQ (HARQ) -- 3.10.3 Node-B Scheduling -- 3.10.4 Adaptive Modulation and Coding, Transmission Rates, and Multicarrier Operation -- 3.10.5 Establishment and Release of an HSDPA Connection -- 3.10.6 HSDPA Mobility Management -- 3.11 High-Speed Uplink Packet Access (HSUPA) -- 3.11.1 E-DCH Channel Structure -- 3.11.2 The E-DCH Protocol Stack and Functionality -- 3.11.3 E-DCH Scheduling -- 3.11.4 E-DCH Mobility -- 3.11.5 E-DCH-Capable Devices -- 3.12 Radio and Core Network Enhancements: CPC -- 3.12.1 A New Uplink Control Channel Slot Format -- 3.12.2 Reporting Reduction -- 3.12.3 HS-SCCH Discontinuous Reception -- 3.12.4 HS-SCCH-less Operation -- 3.12.5 Enhanced Cell-FACH and Cell/URA-PCH States -- 3.13 Radio Resource State Management -- 3.14 Automated Emergency Calls (eCall) from Vehicles -- Questions -- References -- Chapter 4 Long Term Evolution (LTE) and LTE-Advanced Pro -- 4.1 Introduction and Overview -- 4.2 Network Architecture and Interfaces -- 4.2.1 LTE Mobile Devices and the LTE Uu Interface -- 4.2.2 The eNB and the S1 and X2 Interfaces -- 4.2.3 The Mobility Management Entity (MME) -- 4.2.4 The Serving Gateway (S-GW) -- 4.2.5 The PDN-Gateway -- 4.2.6 The Home Subscriber Server (HSS) -- 4.2.7 Billing, Prepaid, and Quality of Service 4.3 FDD Air Interface and Radio Network -- 4.3.1 OFDMA for Downlink Transmission -- 4.3.2 SC-FDMA for Uplink Transmission -- 4.3.3 Quadrature Amplitude Modulation for Subchannels -- 4.3.4 Symbols, Slots, Radio Blocks, and Frames -- 4.3.5 Reference and Synchronization Signals -- 4.3.6 The LTE Channel Model in the Downlink Direction -- 4.3.7 Downlink Management Channels -- 4.3.8 System Information Messages -- 4.3.9 The LTE Channel Model in the Uplink Direction -- 4.3.10 MIMO Transmission -- 4.3.11 HARQ and Other Retransmission Mechanisms -- 4.3.12 PDCP Compression and Ciphering -- 4.3.13 Protocol Layer Overview -- 4.4 TD-LTE Air Interface -- 4.5 Scheduling -- 4.5.1 Downlink Scheduling -- 4.5.2 Uplink Scheduling -- 4.6 Basic Procedures -- 4.6.1 Cell Search -- 4.6.2 Attach and Default Bearer Activation -- 4.6.3 Handover Scenarios -- 4.6.4 Default and Dedicated Bearers -- 4.7 Mobility Management and Power Optimization -- 4.7.1 Mobility Management in RRC Connected State -- 4.7.2 Mobility Management in RRC Idle State -- 4.7.3 Mobility Management and State Changes in Practice -- 4.8 LTE Security Architecture -- 4.9 Interconnection with UMTS and GSM -- 4.9.1 Cell Reselection between LTE and GSM/UMTS -- 4.9.2 RRC Connection Release with Redirect from LTE to GSM/UMTS -- 4.9.3 Handover from LTE to UMTS -- 4.9.4 Returning from UMTS and GPRS to LTE -- 4.10 Carrier Aggregation -- 4.10.1 CA Types, Bandwidth Classes, and Band Combinations -- 4.10.2 CA Configuration, Activation, and Deactivation -- 4.10.3 Uplink Carrier Aggregation -- 4.11 Network Planning Aspects -- 4.11.1 Single Frequency Network -- 4.11.2 Cell-Edge Performance -- 4.11.3 Self-Organizing Network Functionality -- 4.11.4 Cell Site Throughput and Number of Simultaneous Users -- 4.12 CS-Fallback for Voice and SMS Services with LTE -- 4.12.1 SMS over SGs -- 4.12.2 CS-Fallback for Voice Calls 4.13 Network Sharing - MOCN and MORAN -- 4.13.1 National Roaming -- 4.13.2 MOCN (Multi-Operator Core Network) -- 4.13.3 MORAN (Mobile Operator Radio Access Network) -- 4.14 From Dipoles to Active Antennas and Gigabit Backhaul -- 4.15 IPv6 in Mobile Networks -- 4.15.1 IPv6 Prefix and Interface Identifiers -- 4.15.2 IPv6 and International Roaming -- 4.15.3 IPv6 and Tethering -- 4.15.4 IPv6-Only Connectivity -- 4.16 Network Function Virtualization -- 4.16.1 Virtualization on the Desktop -- 4.16.2 Running an Operating System in a Virtual Machine -- 4.16.3 Running Several Virtual Machines Simultaneously -- 4.16.4 Virtual Machine Snapshots -- 4.16.5 Cloning a Virtual Machine -- 4.16.6 Virtualization in Data Centers in the Cloud -- 4.16.7 Managing Virtual Machines in the Cloud -- 4.16.8 Network Function Virtualization -- 4.16.9 Virtualizing Routers -- 4.16.10 Software-Defined Networking -- 4.17 Machine Type Communication and the Internet of Things -- 4.17.1 LTE Cat-1 Devices -- 4.17.2 LTE Cat-0 Devices and PSM -- 4.17.3 LTE Cat-M1 Devices -- 4.17.4 LTE NB1 (NB-IoT) Devices -- 4.17.5 NB-IoT - Deployment Options -- 4.17.6 NB-IoT - Air Interface -- 4.17.7 NB-IoT - Control Channels and Scheduling -- 4.17.8 NB-IoT Multicarrier Operation -- 4.17.9 NB-IoT Throughput and Number of Devices per Cell -- 4.17.10 NB-IoT Power Consumption Considerations -- 4.17.11 NB-IoT - High Latency Communication -- 4.17.12 NB-IoT - Optimizing IP-Based and Non-IP-Based Data Transmission -- 4.17.13 NB-IoT Summary -- Questions -- References -- Chapter 5 VoLTE, VoWifi, and Mission Critical Communication -- 5.1 Overview -- 5.2 The Session Initiation Protocol (SIP) -- 5.3 The IP Multimedia Subsystem (IMS) and VoLTE -- 5.3.1 Architecture Overview -- 5.3.2 Registration -- 5.3.3 VoLTE Call Establishment -- 5.3.4 LTE Bearer Configurations for VoLTE. 5.3.5 Dedicated Bearer Setup with Preconditions |
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| dewey-full | 621.38456 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.38456 |
| dewey-search | 621.38456 |
| dewey-sort | 3621.38456 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | Fourth edition |
| format | Electronic eBook |
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ind1=" " ind2=" "><subfield code="a">(ZDB-89-EBL)EBL6461962</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)1235593480</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-599)BVBBV047442702</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">DE-604</subfield><subfield code="b">ger</subfield><subfield code="e">rda</subfield></datafield><datafield tag="041" ind1="0" ind2=" "><subfield code="a">eng</subfield></datafield><datafield tag="049" ind1=" " ind2=" "><subfield code="a">DE-91</subfield></datafield><datafield tag="082" ind1="0" ind2=" "><subfield code="a">621.38456</subfield></datafield><datafield tag="084" ind1=" " ind2=" "><subfield code="a">ELT 745</subfield><subfield code="2">stub</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Sauter, Martin</subfield><subfield code="e">Verfasser</subfield><subfield code="0">(DE-588)1076843611</subfield><subfield code="4">aut</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">From GSM to LTE-Advanced Pro and 5G</subfield><subfield code="b">an introduction to mobile networks and mobile broadband</subfield><subfield code="c">Martin Sauter</subfield></datafield><datafield tag="250" ind1=" " ind2=" "><subfield code="a">Fourth edition</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">Hoboken, NJ, USA ; Chichester, West Sussex, UK</subfield><subfield code="b">Wiley</subfield><subfield code="c">2021</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">© 2021</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 Online-Ressource (xvi, 606 Seiten)</subfield><subfield code="b">Illustrationen</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Cover -- Title Page -- Copyright Page -- Contents -- Preface to Fourth Edition -- Chapter 1 Global System for Mobile Communications (GSM) -- 1.1 Circuit-Switched Data Transmission -- 1.1.1 Classic Circuit Switching -- 1.1.2 Virtual Circuit Switching over IP -- 1.2 Standards -- 1.3 Transmission Speeds -- 1.4 The Signaling System Number 7 -- 1.4.1 The Classic SS-7 Protocol Stack -- 1.4.2 SS-7 Protocols for GSM -- 1.4.3 IP-Based SS-7 Protocol Stack -- 1.5 The GSM Subsystems -- 1.6 The Network Subsystem -- 1.6.1 The Mobile Switching Center (MSC), Server, and Gateway -- 1.6.2 The Visitor Location Register (VLR) -- 1.6.3 The Home Location Register (HLR) -- 1.6.4 The Authentication Center -- 1.6.5 The Short Messaging Service Center (SMSC) -- 1.7 The Base Station Subsystem (BSS) and Voice Processing -- 1.7.1 Frequency Bands -- 1.7.2 The Base Transceiver Station (BTS) -- 1.7.3 The GSM Air Interface -- 1.7.4 The Base Station Controller (BSC) -- 1.7.5 The TRAU for Voice Encoding -- 1.7.6 Channel Coder and Interleaver in the BTS -- 1.7.7 Ciphering in the BTS and Security Aspects -- 1.7.8 Modulation -- 1.7.9 Voice Activity Detection -- 1.8 Mobility Management and Call Control -- 1.8.1 Cell Reselection and Location Area Update -- 1.8.2 The Mobile-Terminated Call -- 1.8.3 Handover Scenarios -- 1.9 The Mobile Device -- 1.10 The SIM Card -- 1.11 The Intelligent Network Subsystem and CAMEL -- Questions -- References -- Chapter 2 General Packet Radio Service (GPRS) and EDGE -- 2.1 Circuit-Switched Data Transmission over GSM -- 2.2 Packet-Switched Data Transmission over GPRS -- 2.3 The GPRS Air Interface -- 2.3.1 GPRS vs. GSM Timeslot Usage on the Air Interface -- 2.3.2 Mixed GSM/GPRS Timeslot Usage in a Base Station -- 2.3.3 Coding Schemes -- 2.3.4 Enhanced Datarates for GSM Evolution (EDGE) -- 2.3.5 Mobile Device Classes -- 2.3.6 Network Mode of Operation</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">2.3.7 GPRS Logical Channels on the Air Interface -- 2.4 The GPRS State Model -- 2.5 GPRS Network Elements -- 2.5.1 The Packet Control Unit (PCU) -- 2.5.2 The Serving GPRS Support Node (SGSN) -- 2.5.3 The Gateway GPRS Support Node (GGSN) -- 2.6 GPRS Radio Resource Management -- 2.7 GPRS Interfaces -- 2.8 GPRS Mobility Management and Session Management (GMM/SM) -- 2.8.1 Mobility Management Tasks -- 2.8.2 GPRS Session Management -- Questions -- References -- Chapter 3 Universal Mobile Telecommunications System (UMTS) and High-Speed Packet Access (HSPA) -- 3.1 Overview -- 3.1.1 3GPP Release 99: The First UMTS Access Network Implementation -- 3.1.2 3GPP Release 4: Enhancements for the Circuit-Switched Core Network -- 3.1.3 3GPP Release 5: High-Speed Downlink Packet Access -- 3.1.4 3GPP Release 6: High-Speed Uplink Packet Access (HSUPA) -- 3.1.5 3GPP Release 7: Even Faster HSPA and Continued Packet Connectivity -- 3.1.6 3GPP Release 8: LTE, Further HSPA Enhancements and Femtocells -- 3.2 Important New Concepts of UMTS -- 3.2.1 The Radio Access Bearer (RAB) -- 3.2.2 The Access Stratum and Non-Access Stratum -- 3.2.3 Common Transport Protocols for CS and PS -- 3.3 Code Division Multiple Access (CDMA) -- 3.3.1 Spreading Factor, Chip Rate, and Process Gain -- 3.3.2 The OVSF Code Tree -- 3.3.3 Scrambling in Uplink and Downlink Direction -- 3.3.4 UMTS Frequency and Cell Planning -- 3.3.5 The Near-Far Effect and Cell Breathing -- 3.3.6 Advantages of the UMTS Radio Network Compared to GSM -- 3.4 UMTS Channel Structure on the Air Interface -- 3.4.1 User Plane and Control Plane -- 3.4.2 Common and Dedicated Channels -- 3.4.3 Logical, Transport, and Physical Channels -- 3.4.4 Example: Network Search -- 3.4.5 Example: Initial Network Access Procedure -- 3.4.6 The Uu Protocol Stack -- 3.5 The UMTS Terrestrial Radio Access Network (UTRAN)</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.5.1 Node-B, Iub Interface, NBAP, and FP -- 3.5.2 The RNC, Iu, Iub and Iur Interfaces, RANAP, and RNSAP -- 3.5.3 Adaptive Multirate (AMR) NB and WB Codecs for Voice Calls -- 3.5.4 Radio Resource Control (RRC) States -- 3.6 Core Network Mobility Management -- 3.7 Radio Network Mobility Management -- 3.7.1 Mobility Management in the Cell-DCH State -- 3.7.2 Mobility Management in Idle State -- 3.7.3 Mobility Management in Other States -- 3.8 UMTS CS and PS Call Establishment -- 3.9 UMTS Security -- 3.10 High-Speed Downlink Packet Access (HSDPA) and HSPA+ -- 3.10.1 HSDPA Channels -- 3.10.2 Shorter Delay Times and Hybrid ARQ (HARQ) -- 3.10.3 Node-B Scheduling -- 3.10.4 Adaptive Modulation and Coding, Transmission Rates, and Multicarrier Operation -- 3.10.5 Establishment and Release of an HSDPA Connection -- 3.10.6 HSDPA Mobility Management -- 3.11 High-Speed Uplink Packet Access (HSUPA) -- 3.11.1 E-DCH Channel Structure -- 3.11.2 The E-DCH Protocol Stack and Functionality -- 3.11.3 E-DCH Scheduling -- 3.11.4 E-DCH Mobility -- 3.11.5 E-DCH-Capable Devices -- 3.12 Radio and Core Network Enhancements: CPC -- 3.12.1 A New Uplink Control Channel Slot Format -- 3.12.2 Reporting Reduction -- 3.12.3 HS-SCCH Discontinuous Reception -- 3.12.4 HS-SCCH-less Operation -- 3.12.5 Enhanced Cell-FACH and Cell/URA-PCH States -- 3.13 Radio Resource State Management -- 3.14 Automated Emergency Calls (eCall) from Vehicles -- Questions -- References -- Chapter 4 Long Term Evolution (LTE) and LTE-Advanced Pro -- 4.1 Introduction and Overview -- 4.2 Network Architecture and Interfaces -- 4.2.1 LTE Mobile Devices and the LTE Uu Interface -- 4.2.2 The eNB and the S1 and X2 Interfaces -- 4.2.3 The Mobility Management Entity (MME) -- 4.2.4 The Serving Gateway (S-GW) -- 4.2.5 The PDN-Gateway -- 4.2.6 The Home Subscriber Server (HSS) -- 4.2.7 Billing, Prepaid, and Quality of Service</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">4.3 FDD Air Interface and Radio Network -- 4.3.1 OFDMA for Downlink Transmission -- 4.3.2 SC-FDMA for Uplink Transmission -- 4.3.3 Quadrature Amplitude Modulation for Subchannels -- 4.3.4 Symbols, Slots, Radio Blocks, and Frames -- 4.3.5 Reference and Synchronization Signals -- 4.3.6 The LTE Channel Model in the Downlink Direction -- 4.3.7 Downlink Management Channels -- 4.3.8 System Information Messages -- 4.3.9 The LTE Channel Model in the Uplink Direction -- 4.3.10 MIMO Transmission -- 4.3.11 HARQ and Other Retransmission Mechanisms -- 4.3.12 PDCP Compression and Ciphering -- 4.3.13 Protocol Layer Overview -- 4.4 TD-LTE Air Interface -- 4.5 Scheduling -- 4.5.1 Downlink Scheduling -- 4.5.2 Uplink Scheduling -- 4.6 Basic Procedures -- 4.6.1 Cell Search -- 4.6.2 Attach and Default Bearer Activation -- 4.6.3 Handover Scenarios -- 4.6.4 Default and Dedicated Bearers -- 4.7 Mobility Management and Power Optimization -- 4.7.1 Mobility Management in RRC Connected State -- 4.7.2 Mobility Management in RRC Idle State -- 4.7.3 Mobility Management and State Changes in Practice -- 4.8 LTE Security Architecture -- 4.9 Interconnection with UMTS and GSM -- 4.9.1 Cell Reselection between LTE and GSM/UMTS -- 4.9.2 RRC Connection Release with Redirect from LTE to GSM/UMTS -- 4.9.3 Handover from LTE to UMTS -- 4.9.4 Returning from UMTS and GPRS to LTE -- 4.10 Carrier Aggregation -- 4.10.1 CA Types, Bandwidth Classes, and Band Combinations -- 4.10.2 CA Configuration, Activation, and Deactivation -- 4.10.3 Uplink Carrier Aggregation -- 4.11 Network Planning Aspects -- 4.11.1 Single Frequency Network -- 4.11.2 Cell-Edge Performance -- 4.11.3 Self-Organizing Network Functionality -- 4.11.4 Cell Site Throughput and Number of Simultaneous Users -- 4.12 CS-Fallback for Voice and SMS Services with LTE -- 4.12.1 SMS over SGs -- 4.12.2 CS-Fallback for Voice Calls</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">4.13 Network Sharing - MOCN and MORAN -- 4.13.1 National Roaming -- 4.13.2 MOCN (Multi-Operator Core Network) -- 4.13.3 MORAN (Mobile Operator Radio Access Network) -- 4.14 From Dipoles to Active Antennas and Gigabit Backhaul -- 4.15 IPv6 in Mobile Networks -- 4.15.1 IPv6 Prefix and Interface Identifiers -- 4.15.2 IPv6 and International Roaming -- 4.15.3 IPv6 and Tethering -- 4.15.4 IPv6-Only Connectivity -- 4.16 Network Function Virtualization -- 4.16.1 Virtualization on the Desktop -- 4.16.2 Running an Operating System in a Virtual Machine -- 4.16.3 Running Several Virtual Machines Simultaneously -- 4.16.4 Virtual Machine Snapshots -- 4.16.5 Cloning a Virtual Machine -- 4.16.6 Virtualization in Data Centers in the Cloud -- 4.16.7 Managing Virtual Machines in the Cloud -- 4.16.8 Network Function Virtualization -- 4.16.9 Virtualizing Routers -- 4.16.10 Software-Defined Networking -- 4.17 Machine Type Communication and the Internet of Things -- 4.17.1 LTE Cat-1 Devices -- 4.17.2 LTE Cat-0 Devices and PSM -- 4.17.3 LTE Cat-M1 Devices -- 4.17.4 LTE NB1 (NB-IoT) Devices -- 4.17.5 NB-IoT - Deployment Options -- 4.17.6 NB-IoT - Air Interface -- 4.17.7 NB-IoT - Control Channels and Scheduling -- 4.17.8 NB-IoT Multicarrier Operation -- 4.17.9 NB-IoT Throughput and Number of Devices per Cell -- 4.17.10 NB-IoT Power Consumption Considerations -- 4.17.11 NB-IoT - High Latency Communication -- 4.17.12 NB-IoT - Optimizing IP-Based and Non-IP-Based Data Transmission -- 4.17.13 NB-IoT Summary -- Questions -- References -- Chapter 5 VoLTE, VoWifi, and Mission Critical Communication -- 5.1 Overview -- 5.2 The Session Initiation Protocol (SIP) -- 5.3 The IP Multimedia Subsystem (IMS) and VoLTE -- 5.3.1 Architecture Overview -- 5.3.2 Registration -- 5.3.3 VoLTE Call 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| id | DE-604.BV047442702 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T18:01:24Z |
| indexdate | 2024-07-10T09:12:16Z |
| institution | BVB |
| isbn | 9781119714705 9781119714699 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032844854 |
| oclc_num | 1235593480 |
| open_access_boolean | |
| owner | DE-91 DE-BY-TUM |
| owner_facet | DE-91 DE-BY-TUM |
| physical | 1 Online-Ressource (xvi, 606 Seiten) Illustrationen |
| psigel | ZDB-30-PQE ZDB-30-PQE TUM_PDA_PQE_Kauf |
| publishDate | 2021 |
| publishDateSearch | 2021 |
| publishDateSort | 2021 |
| publisher | Wiley |
| record_format | marc |
| spelling | Sauter, Martin Verfasser (DE-588)1076843611 aut From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband Martin Sauter Fourth edition Hoboken, NJ, USA ; Chichester, West Sussex, UK Wiley 2021 © 2021 1 Online-Ressource (xvi, 606 Seiten) Illustrationen txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Cover -- Title Page -- Copyright Page -- Contents -- Preface to Fourth Edition -- Chapter 1 Global System for Mobile Communications (GSM) -- 1.1 Circuit-Switched Data Transmission -- 1.1.1 Classic Circuit Switching -- 1.1.2 Virtual Circuit Switching over IP -- 1.2 Standards -- 1.3 Transmission Speeds -- 1.4 The Signaling System Number 7 -- 1.4.1 The Classic SS-7 Protocol Stack -- 1.4.2 SS-7 Protocols for GSM -- 1.4.3 IP-Based SS-7 Protocol Stack -- 1.5 The GSM Subsystems -- 1.6 The Network Subsystem -- 1.6.1 The Mobile Switching Center (MSC), Server, and Gateway -- 1.6.2 The Visitor Location Register (VLR) -- 1.6.3 The Home Location Register (HLR) -- 1.6.4 The Authentication Center -- 1.6.5 The Short Messaging Service Center (SMSC) -- 1.7 The Base Station Subsystem (BSS) and Voice Processing -- 1.7.1 Frequency Bands -- 1.7.2 The Base Transceiver Station (BTS) -- 1.7.3 The GSM Air Interface -- 1.7.4 The Base Station Controller (BSC) -- 1.7.5 The TRAU for Voice Encoding -- 1.7.6 Channel Coder and Interleaver in the BTS -- 1.7.7 Ciphering in the BTS and Security Aspects -- 1.7.8 Modulation -- 1.7.9 Voice Activity Detection -- 1.8 Mobility Management and Call Control -- 1.8.1 Cell Reselection and Location Area Update -- 1.8.2 The Mobile-Terminated Call -- 1.8.3 Handover Scenarios -- 1.9 The Mobile Device -- 1.10 The SIM Card -- 1.11 The Intelligent Network Subsystem and CAMEL -- Questions -- References -- Chapter 2 General Packet Radio Service (GPRS) and EDGE -- 2.1 Circuit-Switched Data Transmission over GSM -- 2.2 Packet-Switched Data Transmission over GPRS -- 2.3 The GPRS Air Interface -- 2.3.1 GPRS vs. GSM Timeslot Usage on the Air Interface -- 2.3.2 Mixed GSM/GPRS Timeslot Usage in a Base Station -- 2.3.3 Coding Schemes -- 2.3.4 Enhanced Datarates for GSM Evolution (EDGE) -- 2.3.5 Mobile Device Classes -- 2.3.6 Network Mode of Operation 2.3.7 GPRS Logical Channels on the Air Interface -- 2.4 The GPRS State Model -- 2.5 GPRS Network Elements -- 2.5.1 The Packet Control Unit (PCU) -- 2.5.2 The Serving GPRS Support Node (SGSN) -- 2.5.3 The Gateway GPRS Support Node (GGSN) -- 2.6 GPRS Radio Resource Management -- 2.7 GPRS Interfaces -- 2.8 GPRS Mobility Management and Session Management (GMM/SM) -- 2.8.1 Mobility Management Tasks -- 2.8.2 GPRS Session Management -- Questions -- References -- Chapter 3 Universal Mobile Telecommunications System (UMTS) and High-Speed Packet Access (HSPA) -- 3.1 Overview -- 3.1.1 3GPP Release 99: The First UMTS Access Network Implementation -- 3.1.2 3GPP Release 4: Enhancements for the Circuit-Switched Core Network -- 3.1.3 3GPP Release 5: High-Speed Downlink Packet Access -- 3.1.4 3GPP Release 6: High-Speed Uplink Packet Access (HSUPA) -- 3.1.5 3GPP Release 7: Even Faster HSPA and Continued Packet Connectivity -- 3.1.6 3GPP Release 8: LTE, Further HSPA Enhancements and Femtocells -- 3.2 Important New Concepts of UMTS -- 3.2.1 The Radio Access Bearer (RAB) -- 3.2.2 The Access Stratum and Non-Access Stratum -- 3.2.3 Common Transport Protocols for CS and PS -- 3.3 Code Division Multiple Access (CDMA) -- 3.3.1 Spreading Factor, Chip Rate, and Process Gain -- 3.3.2 The OVSF Code Tree -- 3.3.3 Scrambling in Uplink and Downlink Direction -- 3.3.4 UMTS Frequency and Cell Planning -- 3.3.5 The Near-Far Effect and Cell Breathing -- 3.3.6 Advantages of the UMTS Radio Network Compared to GSM -- 3.4 UMTS Channel Structure on the Air Interface -- 3.4.1 User Plane and Control Plane -- 3.4.2 Common and Dedicated Channels -- 3.4.3 Logical, Transport, and Physical Channels -- 3.4.4 Example: Network Search -- 3.4.5 Example: Initial Network Access Procedure -- 3.4.6 The Uu Protocol Stack -- 3.5 The UMTS Terrestrial Radio Access Network (UTRAN) 3.5.1 Node-B, Iub Interface, NBAP, and FP -- 3.5.2 The RNC, Iu, Iub and Iur Interfaces, RANAP, and RNSAP -- 3.5.3 Adaptive Multirate (AMR) NB and WB Codecs for Voice Calls -- 3.5.4 Radio Resource Control (RRC) States -- 3.6 Core Network Mobility Management -- 3.7 Radio Network Mobility Management -- 3.7.1 Mobility Management in the Cell-DCH State -- 3.7.2 Mobility Management in Idle State -- 3.7.3 Mobility Management in Other States -- 3.8 UMTS CS and PS Call Establishment -- 3.9 UMTS Security -- 3.10 High-Speed Downlink Packet Access (HSDPA) and HSPA+ -- 3.10.1 HSDPA Channels -- 3.10.2 Shorter Delay Times and Hybrid ARQ (HARQ) -- 3.10.3 Node-B Scheduling -- 3.10.4 Adaptive Modulation and Coding, Transmission Rates, and Multicarrier Operation -- 3.10.5 Establishment and Release of an HSDPA Connection -- 3.10.6 HSDPA Mobility Management -- 3.11 High-Speed Uplink Packet Access (HSUPA) -- 3.11.1 E-DCH Channel Structure -- 3.11.2 The E-DCH Protocol Stack and Functionality -- 3.11.3 E-DCH Scheduling -- 3.11.4 E-DCH Mobility -- 3.11.5 E-DCH-Capable Devices -- 3.12 Radio and Core Network Enhancements: CPC -- 3.12.1 A New Uplink Control Channel Slot Format -- 3.12.2 Reporting Reduction -- 3.12.3 HS-SCCH Discontinuous Reception -- 3.12.4 HS-SCCH-less Operation -- 3.12.5 Enhanced Cell-FACH and Cell/URA-PCH States -- 3.13 Radio Resource State Management -- 3.14 Automated Emergency Calls (eCall) from Vehicles -- Questions -- References -- Chapter 4 Long Term Evolution (LTE) and LTE-Advanced Pro -- 4.1 Introduction and Overview -- 4.2 Network Architecture and Interfaces -- 4.2.1 LTE Mobile Devices and the LTE Uu Interface -- 4.2.2 The eNB and the S1 and X2 Interfaces -- 4.2.3 The Mobility Management Entity (MME) -- 4.2.4 The Serving Gateway (S-GW) -- 4.2.5 The PDN-Gateway -- 4.2.6 The Home Subscriber Server (HSS) -- 4.2.7 Billing, Prepaid, and Quality of Service 4.3 FDD Air Interface and Radio Network -- 4.3.1 OFDMA for Downlink Transmission -- 4.3.2 SC-FDMA for Uplink Transmission -- 4.3.3 Quadrature Amplitude Modulation for Subchannels -- 4.3.4 Symbols, Slots, Radio Blocks, and Frames -- 4.3.5 Reference and Synchronization Signals -- 4.3.6 The LTE Channel Model in the Downlink Direction -- 4.3.7 Downlink Management Channels -- 4.3.8 System Information Messages -- 4.3.9 The LTE Channel Model in the Uplink Direction -- 4.3.10 MIMO Transmission -- 4.3.11 HARQ and Other Retransmission Mechanisms -- 4.3.12 PDCP Compression and Ciphering -- 4.3.13 Protocol Layer Overview -- 4.4 TD-LTE Air Interface -- 4.5 Scheduling -- 4.5.1 Downlink Scheduling -- 4.5.2 Uplink Scheduling -- 4.6 Basic Procedures -- 4.6.1 Cell Search -- 4.6.2 Attach and Default Bearer Activation -- 4.6.3 Handover Scenarios -- 4.6.4 Default and Dedicated Bearers -- 4.7 Mobility Management and Power Optimization -- 4.7.1 Mobility Management in RRC Connected State -- 4.7.2 Mobility Management in RRC Idle State -- 4.7.3 Mobility Management and State Changes in Practice -- 4.8 LTE Security Architecture -- 4.9 Interconnection with UMTS and GSM -- 4.9.1 Cell Reselection between LTE and GSM/UMTS -- 4.9.2 RRC Connection Release with Redirect from LTE to GSM/UMTS -- 4.9.3 Handover from LTE to UMTS -- 4.9.4 Returning from UMTS and GPRS to LTE -- 4.10 Carrier Aggregation -- 4.10.1 CA Types, Bandwidth Classes, and Band Combinations -- 4.10.2 CA Configuration, Activation, and Deactivation -- 4.10.3 Uplink Carrier Aggregation -- 4.11 Network Planning Aspects -- 4.11.1 Single Frequency Network -- 4.11.2 Cell-Edge Performance -- 4.11.3 Self-Organizing Network Functionality -- 4.11.4 Cell Site Throughput and Number of Simultaneous Users -- 4.12 CS-Fallback for Voice and SMS Services with LTE -- 4.12.1 SMS over SGs -- 4.12.2 CS-Fallback for Voice Calls 4.13 Network Sharing - MOCN and MORAN -- 4.13.1 National Roaming -- 4.13.2 MOCN (Multi-Operator Core Network) -- 4.13.3 MORAN (Mobile Operator Radio Access Network) -- 4.14 From Dipoles to Active Antennas and Gigabit Backhaul -- 4.15 IPv6 in Mobile Networks -- 4.15.1 IPv6 Prefix and Interface Identifiers -- 4.15.2 IPv6 and International Roaming -- 4.15.3 IPv6 and Tethering -- 4.15.4 IPv6-Only Connectivity -- 4.16 Network Function Virtualization -- 4.16.1 Virtualization on the Desktop -- 4.16.2 Running an Operating System in a Virtual Machine -- 4.16.3 Running Several Virtual Machines Simultaneously -- 4.16.4 Virtual Machine Snapshots -- 4.16.5 Cloning a Virtual Machine -- 4.16.6 Virtualization in Data Centers in the Cloud -- 4.16.7 Managing Virtual Machines in the Cloud -- 4.16.8 Network Function Virtualization -- 4.16.9 Virtualizing Routers -- 4.16.10 Software-Defined Networking -- 4.17 Machine Type Communication and the Internet of Things -- 4.17.1 LTE Cat-1 Devices -- 4.17.2 LTE Cat-0 Devices and PSM -- 4.17.3 LTE Cat-M1 Devices -- 4.17.4 LTE NB1 (NB-IoT) Devices -- 4.17.5 NB-IoT - Deployment Options -- 4.17.6 NB-IoT - Air Interface -- 4.17.7 NB-IoT - Control Channels and Scheduling -- 4.17.8 NB-IoT Multicarrier Operation -- 4.17.9 NB-IoT Throughput and Number of Devices per Cell -- 4.17.10 NB-IoT Power Consumption Considerations -- 4.17.11 NB-IoT - High Latency Communication -- 4.17.12 NB-IoT - Optimizing IP-Based and Non-IP-Based Data Transmission -- 4.17.13 NB-IoT Summary -- Questions -- References -- Chapter 5 VoLTE, VoWifi, and Mission Critical Communication -- 5.1 Overview -- 5.2 The Session Initiation Protocol (SIP) -- 5.3 The IP Multimedia Subsystem (IMS) and VoLTE -- 5.3.1 Architecture Overview -- 5.3.2 Registration -- 5.3.3 VoLTE Call Establishment -- 5.3.4 LTE Bearer Configurations for VoLTE. 5.3.5 Dedicated Bearer Setup with Preconditions Bluetooth-Standard (DE-588)4638953-2 gnd rswk-swf GSM-Standard (DE-588)4356791-5 gnd rswk-swf 5G (DE-588)1188755676 gnd rswk-swf GSM-Standard (DE-588)4356791-5 u Bluetooth-Standard (DE-588)4638953-2 u 5G (DE-588)1188755676 s DE-604 Erscheint auch als Sauter, Martin From GSM to LTE-Advanced Pro And 5G Newark : John Wiley & Sons, Incorporated,c2021 Druck-Ausgabe, Hardcover 978-1-119-71467-5 |
| spellingShingle | Sauter, Martin From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband Cover -- Title Page -- Copyright Page -- Contents -- Preface to Fourth Edition -- Chapter 1 Global System for Mobile Communications (GSM) -- 1.1 Circuit-Switched Data Transmission -- 1.1.1 Classic Circuit Switching -- 1.1.2 Virtual Circuit Switching over IP -- 1.2 Standards -- 1.3 Transmission Speeds -- 1.4 The Signaling System Number 7 -- 1.4.1 The Classic SS-7 Protocol Stack -- 1.4.2 SS-7 Protocols for GSM -- 1.4.3 IP-Based SS-7 Protocol Stack -- 1.5 The GSM Subsystems -- 1.6 The Network Subsystem -- 1.6.1 The Mobile Switching Center (MSC), Server, and Gateway -- 1.6.2 The Visitor Location Register (VLR) -- 1.6.3 The Home Location Register (HLR) -- 1.6.4 The Authentication Center -- 1.6.5 The Short Messaging Service Center (SMSC) -- 1.7 The Base Station Subsystem (BSS) and Voice Processing -- 1.7.1 Frequency Bands -- 1.7.2 The Base Transceiver Station (BTS) -- 1.7.3 The GSM Air Interface -- 1.7.4 The Base Station Controller (BSC) -- 1.7.5 The TRAU for Voice Encoding -- 1.7.6 Channel Coder and Interleaver in the BTS -- 1.7.7 Ciphering in the BTS and Security Aspects -- 1.7.8 Modulation -- 1.7.9 Voice Activity Detection -- 1.8 Mobility Management and Call Control -- 1.8.1 Cell Reselection and Location Area Update -- 1.8.2 The Mobile-Terminated Call -- 1.8.3 Handover Scenarios -- 1.9 The Mobile Device -- 1.10 The SIM Card -- 1.11 The Intelligent Network Subsystem and CAMEL -- Questions -- References -- Chapter 2 General Packet Radio Service (GPRS) and EDGE -- 2.1 Circuit-Switched Data Transmission over GSM -- 2.2 Packet-Switched Data Transmission over GPRS -- 2.3 The GPRS Air Interface -- 2.3.1 GPRS vs. GSM Timeslot Usage on the Air Interface -- 2.3.2 Mixed GSM/GPRS Timeslot Usage in a Base Station -- 2.3.3 Coding Schemes -- 2.3.4 Enhanced Datarates for GSM Evolution (EDGE) -- 2.3.5 Mobile Device Classes -- 2.3.6 Network Mode of Operation 2.3.7 GPRS Logical Channels on the Air Interface -- 2.4 The GPRS State Model -- 2.5 GPRS Network Elements -- 2.5.1 The Packet Control Unit (PCU) -- 2.5.2 The Serving GPRS Support Node (SGSN) -- 2.5.3 The Gateway GPRS Support Node (GGSN) -- 2.6 GPRS Radio Resource Management -- 2.7 GPRS Interfaces -- 2.8 GPRS Mobility Management and Session Management (GMM/SM) -- 2.8.1 Mobility Management Tasks -- 2.8.2 GPRS Session Management -- Questions -- References -- Chapter 3 Universal Mobile Telecommunications System (UMTS) and High-Speed Packet Access (HSPA) -- 3.1 Overview -- 3.1.1 3GPP Release 99: The First UMTS Access Network Implementation -- 3.1.2 3GPP Release 4: Enhancements for the Circuit-Switched Core Network -- 3.1.3 3GPP Release 5: High-Speed Downlink Packet Access -- 3.1.4 3GPP Release 6: High-Speed Uplink Packet Access (HSUPA) -- 3.1.5 3GPP Release 7: Even Faster HSPA and Continued Packet Connectivity -- 3.1.6 3GPP Release 8: LTE, Further HSPA Enhancements and Femtocells -- 3.2 Important New Concepts of UMTS -- 3.2.1 The Radio Access Bearer (RAB) -- 3.2.2 The Access Stratum and Non-Access Stratum -- 3.2.3 Common Transport Protocols for CS and PS -- 3.3 Code Division Multiple Access (CDMA) -- 3.3.1 Spreading Factor, Chip Rate, and Process Gain -- 3.3.2 The OVSF Code Tree -- 3.3.3 Scrambling in Uplink and Downlink Direction -- 3.3.4 UMTS Frequency and Cell Planning -- 3.3.5 The Near-Far Effect and Cell Breathing -- 3.3.6 Advantages of the UMTS Radio Network Compared to GSM -- 3.4 UMTS Channel Structure on the Air Interface -- 3.4.1 User Plane and Control Plane -- 3.4.2 Common and Dedicated Channels -- 3.4.3 Logical, Transport, and Physical Channels -- 3.4.4 Example: Network Search -- 3.4.5 Example: Initial Network Access Procedure -- 3.4.6 The Uu Protocol Stack -- 3.5 The UMTS Terrestrial Radio Access Network (UTRAN) 3.5.1 Node-B, Iub Interface, NBAP, and FP -- 3.5.2 The RNC, Iu, Iub and Iur Interfaces, RANAP, and RNSAP -- 3.5.3 Adaptive Multirate (AMR) NB and WB Codecs for Voice Calls -- 3.5.4 Radio Resource Control (RRC) States -- 3.6 Core Network Mobility Management -- 3.7 Radio Network Mobility Management -- 3.7.1 Mobility Management in the Cell-DCH State -- 3.7.2 Mobility Management in Idle State -- 3.7.3 Mobility Management in Other States -- 3.8 UMTS CS and PS Call Establishment -- 3.9 UMTS Security -- 3.10 High-Speed Downlink Packet Access (HSDPA) and HSPA+ -- 3.10.1 HSDPA Channels -- 3.10.2 Shorter Delay Times and Hybrid ARQ (HARQ) -- 3.10.3 Node-B Scheduling -- 3.10.4 Adaptive Modulation and Coding, Transmission Rates, and Multicarrier Operation -- 3.10.5 Establishment and Release of an HSDPA Connection -- 3.10.6 HSDPA Mobility Management -- 3.11 High-Speed Uplink Packet Access (HSUPA) -- 3.11.1 E-DCH Channel Structure -- 3.11.2 The E-DCH Protocol Stack and Functionality -- 3.11.3 E-DCH Scheduling -- 3.11.4 E-DCH Mobility -- 3.11.5 E-DCH-Capable Devices -- 3.12 Radio and Core Network Enhancements: CPC -- 3.12.1 A New Uplink Control Channel Slot Format -- 3.12.2 Reporting Reduction -- 3.12.3 HS-SCCH Discontinuous Reception -- 3.12.4 HS-SCCH-less Operation -- 3.12.5 Enhanced Cell-FACH and Cell/URA-PCH States -- 3.13 Radio Resource State Management -- 3.14 Automated Emergency Calls (eCall) from Vehicles -- Questions -- References -- Chapter 4 Long Term Evolution (LTE) and LTE-Advanced Pro -- 4.1 Introduction and Overview -- 4.2 Network Architecture and Interfaces -- 4.2.1 LTE Mobile Devices and the LTE Uu Interface -- 4.2.2 The eNB and the S1 and X2 Interfaces -- 4.2.3 The Mobility Management Entity (MME) -- 4.2.4 The Serving Gateway (S-GW) -- 4.2.5 The PDN-Gateway -- 4.2.6 The Home Subscriber Server (HSS) -- 4.2.7 Billing, Prepaid, and Quality of Service 4.3 FDD Air Interface and Radio Network -- 4.3.1 OFDMA for Downlink Transmission -- 4.3.2 SC-FDMA for Uplink Transmission -- 4.3.3 Quadrature Amplitude Modulation for Subchannels -- 4.3.4 Symbols, Slots, Radio Blocks, and Frames -- 4.3.5 Reference and Synchronization Signals -- 4.3.6 The LTE Channel Model in the Downlink Direction -- 4.3.7 Downlink Management Channels -- 4.3.8 System Information Messages -- 4.3.9 The LTE Channel Model in the Uplink Direction -- 4.3.10 MIMO Transmission -- 4.3.11 HARQ and Other Retransmission Mechanisms -- 4.3.12 PDCP Compression and Ciphering -- 4.3.13 Protocol Layer Overview -- 4.4 TD-LTE Air Interface -- 4.5 Scheduling -- 4.5.1 Downlink Scheduling -- 4.5.2 Uplink Scheduling -- 4.6 Basic Procedures -- 4.6.1 Cell Search -- 4.6.2 Attach and Default Bearer Activation -- 4.6.3 Handover Scenarios -- 4.6.4 Default and Dedicated Bearers -- 4.7 Mobility Management and Power Optimization -- 4.7.1 Mobility Management in RRC Connected State -- 4.7.2 Mobility Management in RRC Idle State -- 4.7.3 Mobility Management and State Changes in Practice -- 4.8 LTE Security Architecture -- 4.9 Interconnection with UMTS and GSM -- 4.9.1 Cell Reselection between LTE and GSM/UMTS -- 4.9.2 RRC Connection Release with Redirect from LTE to GSM/UMTS -- 4.9.3 Handover from LTE to UMTS -- 4.9.4 Returning from UMTS and GPRS to LTE -- 4.10 Carrier Aggregation -- 4.10.1 CA Types, Bandwidth Classes, and Band Combinations -- 4.10.2 CA Configuration, Activation, and Deactivation -- 4.10.3 Uplink Carrier Aggregation -- 4.11 Network Planning Aspects -- 4.11.1 Single Frequency Network -- 4.11.2 Cell-Edge Performance -- 4.11.3 Self-Organizing Network Functionality -- 4.11.4 Cell Site Throughput and Number of Simultaneous Users -- 4.12 CS-Fallback for Voice and SMS Services with LTE -- 4.12.1 SMS over SGs -- 4.12.2 CS-Fallback for Voice Calls 4.13 Network Sharing - MOCN and MORAN -- 4.13.1 National Roaming -- 4.13.2 MOCN (Multi-Operator Core Network) -- 4.13.3 MORAN (Mobile Operator Radio Access Network) -- 4.14 From Dipoles to Active Antennas and Gigabit Backhaul -- 4.15 IPv6 in Mobile Networks -- 4.15.1 IPv6 Prefix and Interface Identifiers -- 4.15.2 IPv6 and International Roaming -- 4.15.3 IPv6 and Tethering -- 4.15.4 IPv6-Only Connectivity -- 4.16 Network Function Virtualization -- 4.16.1 Virtualization on the Desktop -- 4.16.2 Running an Operating System in a Virtual Machine -- 4.16.3 Running Several Virtual Machines Simultaneously -- 4.16.4 Virtual Machine Snapshots -- 4.16.5 Cloning a Virtual Machine -- 4.16.6 Virtualization in Data Centers in the Cloud -- 4.16.7 Managing Virtual Machines in the Cloud -- 4.16.8 Network Function Virtualization -- 4.16.9 Virtualizing Routers -- 4.16.10 Software-Defined Networking -- 4.17 Machine Type Communication and the Internet of Things -- 4.17.1 LTE Cat-1 Devices -- 4.17.2 LTE Cat-0 Devices and PSM -- 4.17.3 LTE Cat-M1 Devices -- 4.17.4 LTE NB1 (NB-IoT) Devices -- 4.17.5 NB-IoT - Deployment Options -- 4.17.6 NB-IoT - Air Interface -- 4.17.7 NB-IoT - Control Channels and Scheduling -- 4.17.8 NB-IoT Multicarrier Operation -- 4.17.9 NB-IoT Throughput and Number of Devices per Cell -- 4.17.10 NB-IoT Power Consumption Considerations -- 4.17.11 NB-IoT - High Latency Communication -- 4.17.12 NB-IoT - Optimizing IP-Based and Non-IP-Based Data Transmission -- 4.17.13 NB-IoT Summary -- Questions -- References -- Chapter 5 VoLTE, VoWifi, and Mission Critical Communication -- 5.1 Overview -- 5.2 The Session Initiation Protocol (SIP) -- 5.3 The IP Multimedia Subsystem (IMS) and VoLTE -- 5.3.1 Architecture Overview -- 5.3.2 Registration -- 5.3.3 VoLTE Call Establishment -- 5.3.4 LTE Bearer Configurations for VoLTE. 5.3.5 Dedicated Bearer Setup with Preconditions Bluetooth-Standard (DE-588)4638953-2 gnd GSM-Standard (DE-588)4356791-5 gnd 5G (DE-588)1188755676 gnd |
| subject_GND | (DE-588)4638953-2 (DE-588)4356791-5 (DE-588)1188755676 |
| title | From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband |
| title_auth | From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband |
| title_exact_search | From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband |
| title_exact_search_txtP | From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband |
| title_full | From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband Martin Sauter |
| title_fullStr | From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband Martin Sauter |
| title_full_unstemmed | From GSM to LTE-Advanced Pro and 5G an introduction to mobile networks and mobile broadband Martin Sauter |
| title_short | From GSM to LTE-Advanced Pro and 5G |
| title_sort | from gsm to lte advanced pro and 5g an introduction to mobile networks and mobile broadband |
| title_sub | an introduction to mobile networks and mobile broadband |
| topic | Bluetooth-Standard (DE-588)4638953-2 gnd GSM-Standard (DE-588)4356791-5 gnd 5G (DE-588)1188755676 gnd |
| topic_facet | Bluetooth-Standard GSM-Standard 5G |
| work_keys_str_mv | AT sautermartin fromgsmtolteadvancedproand5ganintroductiontomobilenetworksandmobilebroadband |