| Description |
1 online resource (xiv, 441 pages) |
| Contents |
Machine generated contents note: 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. Signaling System Number 7 -- 1.4.1. Classic SS-7 Protocol Stack -- 1.4.2. SS-7 Protocols for GSM -- 1.4.3. IP-Based SS-7 Protocol Stack -- 1.5. GSM Subsystems -- 1.6. Network Subsystem -- 1.6.1. Mobile Switching Center (MSC), Server and Gateway -- 1.6.2. Visitor Location Register (VLR) -- 1.6.3. Home Location Register (HLR) -- 1.6.4. Authentication Center -- 1.6.5. Short Messaging Service Center (SMSC) -- 1.7. Base Station Subsystem (BSS) and Voice Processing -- 1.7.1. Frequency Bands -- 1.7.2. Base Transceiver Station (BTS) -- 1.7.3. GSM Air Interface -- 1.7.4. Base Station Controller (BSC) -- 1.7.5. TRAU for Voice Encoding -- 1.7.6. Channel Coder and Interleaver in the BTS -- 7.7.7. 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. Mobile-Terminated Call -- 1.8.3. Handover Scenarios -- 1.9. Mobile Device -- 1.9.1. Architecture of a Voice-Centric Mobile Device -- 1.9.2. Architecture of a Smartphone -- 1.10. SIM Card -- 1.11. Intelligent Network Subsystem and CAMEL -- Questions -- References -- 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. 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. GPRS State Model -- 2.5. GPRS Network Elements -- 2.5.1. Packet Control Unit (PCU) -- 2.5.2. Serving GPRS Support Node (SGSN) -- 2.5.3. 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 -- 2.9. Session Management from a User's Point of View -- 2.10. Small Screen Web Browsing over GPRS and EDGE -- 2.10.1. WAP 1.1 Used in Early GPRS Devices -- 2.10.2. WAP 2.0 -- 2.10.3. Small Screen Web Browsing with Network Side Compression -- 2.10.4. Small Screen Web Browsing -- Quality of Experience -- 2.11. Multimedia Messaging Service (MMS) over GPRS -- 2.12. Web Browsing via GPRS -- 2.12.1. Impact of Delay on the Web-Browsing Experience -- 2.12.2. Web Browser Optimization for Mobile Web Browsing -- Questions -- References -- 3. Universal Mobile Telecommunications System (UMTS) and High-Speed Packet Access (HSPA) -- 3.1. Overview, History and Future -- 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: IMS and 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 -- 3.1.7. 3GPP Release 9: Digital Dividend and Dual Cell Improvements -- 3.1.8. 3GPP Releases 10 and 11: LTE-Advanced -- 3.2. Important New Concepts of UMTS -- 3.2.1. Radio Access Bearer (RAB) -- 3.2.2. Access Stratum and Nonaccess 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. OVSF Code Tree -- 3.3.3. Scrambling in Uplink and Downlink Direction -- 3.3.4. UMTS Frequency and Cell Planning -- 3.3.5. 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. Uu Protocol Stack -- 3.5. UMTS Terrestrial Radio Access Network (UTRAN) -- 3.5.1. Node-B, Iub Interface, NBAP and FP -- 3.5.2. RNC, Iu, Iub and lur 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. 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 and One Tunnel -- 3.12.1. New Uplink Control Channel Slot Format -- 3.12.2. CQI Reporting Reduction and DTK and DRX -- 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 -- 3.12.6. Radio Network Enhancement: One Tunnel -- 3.13. HSPA Performance in Practice -- 3.13.1. Throughput in Practice -- 3.13.2. Radio Resource State Management -- 3.13.3. Power Consumption -- 3.13.4. Web-Browsing Experience -- 3.14. UMTS and CDMA2000 -- Questions -- References -- 4. Long Term Evolution (LTE) and LTE-Advanced -- 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. eNode-B and the SI and X2 Interfaces -- 4.2.3. Mobility Management Entity (MME) -- 4.2.4. Serving Gateway (S-GW) -- 4.2.5. PDN-Gateway -- 4.2.6. 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. Symbols, Slots, Radio Blocks and Frames -- 4.3.4. Reference and Synchronization Signals -- 4.3.5. LTE Channel Model in Downlink Direction -- 4.3.6. Downlink Management Channels -- 4.3.7. System Information Messages -- 4.3.8. LTE Channel Model in Uplink Direction -- 4.3.9. MIMO Transmission -- 4.3.10. HARQ and Other Retransmission Mechanisms -- 4.3.11. PDCP Compression and Ciphering -- 4.3.12. 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 Connected State -- 4.7.2. Mobility Management in 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 between LTE and GSM/UMTS -- 4.9.3. Handover between LTE and GSM/UMTS -- 4.10. Interworking with CDMA2000 Networks -- 4.10.1. Cell Reselection between LTE and CDMA2000 Networks -- 4.10.2. RRC Connection Release with Redirect between LTE and CDMA2000 -- 4.10.3. Handover between LTE and CDMA2000 -- 4.11. Network Planning Aspects -- 4.11.1. Single Frequency Network -- 4.11.2. Cell Edge Performance -- 4.11.3. Self-Organizing Network Functionality -- 4.12. CS-Fallback for Voice and SMS Services with LTE -- 4.12.1. SMS over SGs -- 4.12.2. CS Fallback -- 4.13. Voice in Combined LTE and CDMA 2000 Networks (SV-LTE) -- 4.14. Voice over LTE (VoLTE) -- 4.14.1. Session Initiation Protocol (SIP) -- 4.14.2. IP Multimedia Subsystem (IMS) and VoLTE -- 4.14.3. Single Radio Voice Call Continuity -- 4.14.4. Internet-Based Alternatives -- 4.14.5. LTE Bearer Configurations for VoIP -- 4.15. Backhaul Considerations -- 4.16. LTE-Advanced (3GPP Release 10 -- 12) -- 4.16.1. Carrier Aggregation -- 4.16.2. 8 [×] 8 Downlink and 4 [×] 4 Uplink MIMO -- 4.16.3. Relays -- 4.16.4. HetNets, ICIC and elCIC -- 4.16.5. Coordinated Multipoint Operation -- 4.16.6. Future LTE Uses: Machine Type Communication and Public Safety -- Questions -- References -- 5. Wireless Local Area Network (WLAN) -- 5.1. Wireless LAN Overview -- 5.2. Transmission Speeds and Standards -- 5.3. WLAN Configurations: From Ad Hoc to Wireless Bridging -- 5.3.1. Ad Hoc, BSS, ESS and Wireless Bridging -- 5.3.2. SSID and Frequency Selection -- 5.4. Management Operations -- 5.5. MAC Layer -- 5.5.1. Air Interface Access Control -- 5.5.2. MAC Header -- 5.6. Physical Layer and MAC Extensions -- 5.6.7. IEEE 802.11b -- 11 Mbit/s |
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Note continued: 5.6.2. IEEE 802.11g with up to 54 Mbit/s -- 5.6.3. IEEE 802.11a with up to 54 Mbit/s -- 5.6.4. IEEE 802.11n with up to 600 Mbits/s -- 5.6.5. 802.11ac Gigabit Wireless -- 5.7. Wireless LAN Security -- 5.7.1. Wired Equivalent Privacy (WEP) -- 5.7.2. WPA and WPA2 Personal Mode Authentication -- 5.7.3. WPA and WPA2 Enterprise Mode Authentication -- 5.7.4. EAP-SIM Authentication -- 5.7.5. WPA and WPA2 Encryption -- 5.7.6. Wi-Fi-Protected Setup (WPS) -- 5.8. IEEE 802.11 E and WMM -- Quality of Service -- 5.9. Comparison of Wireless LAN and LTE -- Questions -- References -- 6. Bluetooth -- 6.1. Overview and Applications -- 6.2. Physical Properties -- 6.3. Piconets and the Master/Slave Concept -- 6.4. Bluetooth Protocol Stack -- 6.4.1. Baseband Layer -- 6.4.2. Link Controller -- 6.4.3. Link Manager -- 6.4.4. HCI Interface -- 6.4.5. L2CAP Layer -- 6.4.6. Service Discovery Protocol -- 6.4.7. RFCOMM Layer -- 6.4.8. Overview of Bluetooth Connection Establishment -- 6.5. Bluetooth Security -- 6.5.1. Pairing up to Bluetooth 2.0 -- 6.5.2. Pairing with Bluetooth 2.1 (Secure Simple Pairing) -- 6.5.3. Authentication -- 6.5.4. Encryption -- 6.5.5. Authorization -- 6.5.6. Security Modes -- 6.6. Bluetooth Profiles -- 6.6.1. Basic Profiles: GAP, SDP and the Serial Profile -- 6.6.2. Object Exchange Profiles: FTP, Object Push and Synchronize -- 6.6.3. Headset, Hands-Free and SIM Access Profile -- 6.6.4. High-Quality Audio Streaming -- 6.6.5. Human Interface Device (HID) Profile -- Questions -- References |
| Summary |
This revised edition of Communication Systems from GSM to LTE: An Introduction to Mobile Networksand Mobile Broadband Second Edition (Wiley 2010) contains not only a technical description of thedifferent wireless systems available today, but also explains the rationale behind the different mechanisms and implementations; not only the 'how' but also the 'why'. In this way, the advantages and also limitations of each technology become apparent. Offering a solid introduction to major global wireless standards and comparisons of the different wirelesstechnologies and their applications, this edition has been updated to provide the latest directions andactivities in 3GPP standardization up to Release 12, and importantly includes a new chapter on Voiceover LTE (VoLTE). There are new sections on Building Blocks of a Voice Centric Device, Building Blocks of a Smart Phone, Fast Dormancy, IMS and High-Speed Downlink Packet Access, and Wi-Fi-Protected Setup. Other sections have been considerably updated in places reflecting the current state of the technology. Describes the different systems based on the standards, their practical implementation and design assumptions, and the performance and capacity of each system in practice is analyzed and explained Questions at the end of each chapter and answers on the accompanying website make this book ideal for self-study or as course material |
| Bibliography |
Includes bibliographical references and index |
| Notes |
English |
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Print version record and CIP data provided by publisher |
| Subject |
Mobile communication systems.
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Wireless metropolitan area networks.
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Wireless LANs.
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TECHNOLOGY & ENGINEERING -- Mechanical.
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Mobile communication systems
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Wireless LANs
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Wireless metropolitan area networks
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Electrical & Computer Engineering.
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Engineering & Applied Sciences.
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Telecommunications.
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| Form |
Electronic book
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| LC no. |
2014018343 |
| ISBN |
9781118861929 |
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1118861922 |
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9781118861936 |
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1118861930 |
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9781118861943 |
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1118861949 |
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