Like Stallings' other award-winning texts, this guide will help you quickly find the information and gain the mastery to succeed with critical new technology. Millimeter-wave 5G is the ultra-fast mobile option, but comes with significant deployment challenges. This privacy statement applies solely to information collected by this web site. His writings have appeared in numerous ACM and IEEE publications, including the They say you cant judge a book by its cover. BookScouter checks 30+ buyback vendors with a single search and gives you actual information on buyback pricing instantly. Sort by. Sorry, there was a problem saving your cookie preferences. Patrick Marsch, NokiaPatrick Marsch is a manager at Nokia Networks where he leads a radio research department and is the technical manager of the 5G-PPP project, METIS-II. page for details of the print & copy limits on our eBooks. 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Understanding and Troubleshooting Cisco Catalyst 9800 Series Wireless Controllers, Supplemental privacy statement for California residents, Corporate, Academic, and Employee Purchases, Mobile Application Development & Programming, Understand the overall 5G ecosystem and individual building blocks, Explore 5G R&D and standardization roadmaps, so you can plan to leverage 5G technology more effectively, Brings together crucial knowledge previously scattered across scores of publications, standards documents, blog posts, and white papers, Complemented by a frequently updated website with links to relevant sources and supporting documents, By William Stallings, 13-time winner of the prestigious TAA Computer Science Textbook of the Year Award, Ancillary PowerPoint slides provided to instructors make preparing for lectures easier (file downloadable from Pearson.com), Understand the 5G ecosystem, its building blocks, standards, and R&D roadmaps, Explore the Enhanced Mobile Broadband (eMBB) use case, where 5G enhances 4G in applications such as smart offices and dense urban communications, Learn how Massive Machine Type Communications (mMTC) and Ultra-Reliable and Low-Latency Communications (URLCC) support new applications such as fog, IoT, and cloud, Discover how 5G NextGen core (backbone) networks serve and interconnect wireless access networks that connect user devices, Master key 5G NR Air Interface and Radio Access Network (RAN) concepts, including millimeter-wave transmission, MIMO antennas, and OFDM multiplexing. Often, updates are made to provide greater clarity or to comply with changes in regulatory requirements. The rise of 5G also presents an opportunity for telecommunications players to shift their customer engagement. Assessment International Education, Communications, information theory and signal processing, Electronic, optoelectronic devices, and nanotechnology, Engineering design, kinematics, and robotics, Industrial manufacturing, and operations engineering, Covers technologies such as massive MIMO, device-to-device communications, mm-wave communications, wireless network coding and performance evaluation, Features authoritative explanations by leading researchers. This eBook requires no passwords or activation to read. {{ format_drm_information.format_name }} unrestricted, {{ format_drm_information.format_name }} {{format_drm_information.page_percent}}, {{ format_drm_information.format_name }} off, {{ read_aloud_information.format_name }} on, {{ read_aloud_information.format_name }} off, Understand the 5G ecosystem, its building blocks, standards, and R&D roadmaps, Explore the Enhanced Mobile Broadband (eMBB) use case, where 5G enhances 4G in applications such as smart offices and dense urban communications, Learn how Massive Machine Type Communications (mMTC) and Ultra-Reliable and Low-Latency Communications (URLCC) support new applications such as fog, IoT, and cloud, Discover how 5G NextGen core (backbone) networks serve and interconnect wireless access networks that connect user devices, Master key 5G NR Air Interface and Radio Access Network (RAN) concepts, including millimeter-wave transmission, MIMO antennas, and OFDM multiplexing. Please be aware that we are not responsible for the privacy practices of such other sites. 5G Wireless: A Comprehensive Introduction - BookScouter The 5G wireless propagation channel modelsTommi Jms, Jonas Medbo, Pekka Kysti, Katsuyuki Haneda and Leszek Raschkowski 14. Your review must be a minimum of 12 words. Try again. Some good news: 5G technology is largely built on 4G networks, which means that mobile operators can simply evolve their infrastructure investmentrather than start from scratch. Click Customise Cookies to decline these cookies, make more detailed choices, or learn more. from Notre Dame in electrical engineering. Each cell has local antennae, through which all wireless devices in the cell are connected to the internet and telephone network via radio waves. For technical professionals, managers, and students, 5G requires significant new knowledge and expertise. Pearson may send or direct marketing communications to users, provided that. 19th July, 2023 (OPEN), The school flyer can be downloaded from here [PDF], Indian Institute of Technology Kanpur Despite the promise of LEO technology, challenges do remain, and no commercial services are yet available. I can unsubscribe at any time. In order to achieve the speed, latency, and reliability required by most advanced applications, network providers will need to invest in all network domains, including spectrum, radio access network infrastructure, transmission, and core networks. Foreword Preface Acknowledgements 1. research community on how one should design wireless communication systems in the future. These are so-called millimeter waves, broadcast at frequencies between 30 and 300 gigahertz, which have previously been used only for communication between satellites and radar systems. Product Description A comprehensive and approachable introduction to 5G Written by a noted expert on the subject, An Introduction to 5G: The New Radio, 5G Network and Beyond offers an introductory system-level guide to 5G. Kanpur, Uttar Pradesh All stars. DOWNLOADS Article (6 pages) Fifth time's the charm: 5Gor fifth-generation wireless technology is powering the Fourth Industrial Revolution. Pearson collects information requested in the survey questions and uses the information to evaluate, support, maintain and improve products, services or sites, develop new products and services, conduct educational research and for other purposes specified in the survey. Third parties use cookies for their purposes of displaying and measuring personalised ads, generating audience insights, and developing and improving products. Thank you for your feedback which will help us improve our service. For instance, operators could begin by upgrading the capacity of their existing 4G network by refarming a portion of their 2G and 3G spectrum, thereby delaying investments in 5G. We may revise this Privacy Notice through an updated posting. Learn more about our Healthcare Systems & ServicesPractice. 4 Executive summary The 5G module market is evolving At launch, 5G IoT modules will cost two to three times as much as 4G modules, but prices will steadily decline. 5G Wireless Networks: A Comprehensive Introduction Course An extensive 5G course by Industry Specialist with in-depth coverage of 5G (5th generation mobile network) Technology. Please note that this is an OFFLINE school and will be held in Bengaluru on the campus of Ramaiah Institute of Technology. Discover how 5G NextGen core (backbone) networks serve and interconnect wireless access networks that connect user devices In the B2B sphere, total revenue for 5G IoT modules will increase from about USD 180 million in 2022 to almost USD 10 billion by 2030. A digital version of the text you can personalize and read online or offline. here. This book is an excellent knowledge base, explaining the potential of 5G and the required technology behind it." 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Monserrat is an Associate Professor in the Communications Department at the Polytechnic University of Valencia. Like Stallings' other award-winning texts, this guide will help you quickly find the information and gain the mastery to succeed with critical new technology. With 5G, we will be able to digitalize industries and realize the full potential of a networked society. Meet each one right where they are with an engaging, interactive, personalized learning experience that goes beyond the textbook to fit any schedule, any budget, and any lifestyle. Learn more about our Technology, Media & Telecommunications Practice. Write a review. Buy New & Used Books Online with Free Shipping | Better World Books Pearson uses appropriate physical, administrative and technical security measures to protect personal information from unauthorized access, use and disclosure. is available now and can be read on any device with the free Kindle app. We use cookies and similar tools that are necessary to enable you to make purchases, to enhance your shopping experiences and to provide our services, as detailed in our Cookie Notice. The 5G Wireless: A Comprehensive Introduction book is in very low demand now as the rank for the book is 985,220 at the moment. In the short-term, they should focus on B2B cases that are similar to those now being deployed in the B2C sector. If you choose to remove yourself from our mailing list(s) simply visit the following page and uncheck any communication you no longer want to receive: www.informit.com/u.aspx. Please fill in the required fields in your feedback submission. Finally, use cases for massive machine-type communication will take several more years. To read this ebook on a mobile device (phone or tablet) you'll need to install one of these free apps: To download and read this eBook on a PC or Mac: The publisher has set limits on how much of this ebook you may print or copy. Gain a Deep, Practical Understanding of 5G Technology, Applications, Architecture, Standards, and Ecosystem The 5G ultra-high-speed wireless communication standard is a major technological leap forward--substantially increasing speed and capacity, enhancing current use cases, and making many new applications practical. Abstract: The vision of next generation 5G wireless communications lies in providing very high data rates (typically of Gbps order), extremely low latency, manifold increase in base station capacity, and significant improvement in users' perceived quality of service (QoS), compared to current 4G LTE networks. Top reviews. Pearson does not rent or sell personal information in exchange for any payment of money. He has designed and implemented both TCP/IP-based and OSIbased protocol suites on a variety of computers and operating systems, ranging from microcomputers to mainframes. In 5G Wireless: A Comprehensive Introduction, renowned information technology author William Stallings presents a comprehensive and unified explanation of 5G's key applications, technologies, and standards. Tap here to view the desktop version of this site. $38.39. How does this program benefit YOU? Read, highlight, and take notes, across web, tablet, and phone. Pearson will not use personal information collected or processed as a K-12 school service provider for the purpose of directed or targeted advertising. Sure, 5G is faster than 4G. The B2B 5G revolution is already under way; in the B2C market, the value proposition of 5G is less clear. Overview of 5G Use Cases and Architecture, Download the sample pages (includes Chapter 3), Preface xxivPART I: OVERVIEWChapter 1: Cellular Networks: Concepts and Evolution 21.1 Evolution of Cellular Networks 21.2 Cellular Network Concepts 4 Cellular Organization 4 Network System Elements 10 Operation of Cellular Systems 111.3 First Generation (1G) 141.4 Second Generation (2G) 15 Time-Division Multiple Access 16 GSM Architecture 17 Radio Link Aspects 201.5 Third Generation (3G) 20 Code-Division Multiple Access 21 3G Architecture 211.6 Fourth Generation (4G) 24 E-UTRAN 26 LTE-Advanced Transmission Characteristics 29 Evolved Packet Core 331.7 Key Terms and Review Questions 34 Key Terms 34 Review Questions 35Chapter 2: 5G Standards and Specifications 362.1 ITU-R and IMT-2020 37 International Mobile Telecommunications 38 Capabilities 38 Usage Scenarios 41 Use Cases 43 Evaluation 462.2 ITU-T and IMT-2020 57 Requirements 57 Network Slicing 59 Fixed Mobile Convergence 61 IMT-2020 Core Network Framework 622.3 3GPP 65 3GPP Releases 69 Detailed Requirements 702.4 Key Terms and Review Questions 72 Key Terms 72 Review Questions 732.5 References and Documents 74 References 74 Documents 74Chapter 3: Overview of 5G Use Cases and Architecture 763.1 5G Use Cases 77 ITU-R 77 5G Americas 77 NGMA Alliance 793.2 NGMN 5G Architecture Framework 81 Layered Functionality 82 Network Slicing 853.3 3GPP 5G Architecture 87 5G Core Network Architecture 87 Radio Access Network Architecture 94 Session Establishment 973.4 Key Terms and Review Questions 98 Key Terms 98 Review Questions 993.5 References and Documents 99 References 99 Documents 100PART II: USE CASES AND APPLICATIONSChapter 4: Enhanced Mobile Broadband 1024.1 eMBB Deployment Scenarios 103 Indoor Hotspot 104 Dense Urban 105 Rural 1054.2 eMBB Performance Characteristics 105 Data Rate Requirements 106 Spectral Efficiency Requirements 107 Latency Requirements 108 Mobility Requirements 108 System Requirements 1094.3 Smart Office: An Indoor Hotspot Use Case 1104.4 Dense Urban Information Society: A Dense Urban Use Case 1114.5 Radiocommunication Systems Between Train and Trackside: A Rural eMBB Use Case 113 Elements of RSTT 114 Applications of RSTT 114 Broadband Connectivity for Passengers 116 Linear Cell Architecture 1174.6 Key Terms and Review Questions 118 Key Terms 118 Review Questions 1184.7 References and Documents 119 References 119 Documents 119Chapter 5: Massive Machine Type Communications 1225.1 mMTC Performance Requirements 1235.2 The Internet of Things 124 The Scope of the Internet of Things 125 Things on the Internet of Things 128 Components of IoT-Enabled Things 128 Constrained Devices 129 IoT and Cloud Context 1305.3 Relationship Between mMTC and the IoT 1335.4 Relationship Between mMTC and NB-IoT and eMTC 135 Comparison of NB-IoT and eMTC 135 Low-Power Wide Area (LPWA) 1365.5 Smart Agriculture 138 Model of IoT Deployment 138 Use Cases 140 Precision Crop Management 145 Network Performance Requirements 1505.6 Smart Cities 150 Smart City Use Cases 151 ICT Architecture for Smart Cities 158 Network Performance Requirements 1605.7 Key Terms and Review Questions 162 Key Terms 162 Review Questions 1635.8 References and Documents 163 References 163 Documents 164Chapter 6: Ultra-Reliable and Low-Latency Communications 1666.1 URLLC Performance Requirements 167 Latency 168 Mobility 169 Reliability 170 NGMN Definitions 1706.2 URLLC Use Cases in Emerging Mission-Critical Applications 171 Industrial Automation 171 Ground Vehicles, Drones, and Robots 171 Tactile Interaction 171 Augmented Reality and Virtual Reality 172 Emergencies, Disasters, and Public Safety 176 Urgent Healthcare 176 Intelligent Transportation 1776.3 URLLC Applications Based on Performance Requirements 178 Higher Reliability and Lower Latency 179 Higher Reliability, Higher Availability, and Lower Latency 180 Very Low Latency 181 Higher Accuracy Positioning 181 Higher Availability 181 Mission-Critical Services 1826.4 Industry 4.0 182 Factory Automation Architecture 183 Application Areas 185 Use Cases 187 Performance Requirements 1896.5 Unmanned Aircraft System Traffic Management 191 UTM Architecture 192 5G Performance Requirements for UTM 1946.6 Key Terms and Review Questions 197 Key Terms 197 Review Questions 1986.7 References and Documents 199 References 199 Documents 199PART III: 5G NEXTGEN CORE NETWORKChapter 7: Software-Defined Networking 2027.1 Evolving Network Requirements 2037.2 The SDN Approach 204 Modern Network Requirements 204 SDN Architecture 204 Characteristics of Software-Defined Networking 2077.3 SDN Data Plane 207 Data Plane Functions 207 Data Plane Protocols 2097.4 OpenFlow 209 Flow Table Structure 211 Flow Table Pipeline 214 The Use of Multiple Tables 216 Group Table 217 OpenFlow Protocol 2177.5 SDN Control Plane 218 Control Plane Functions 218 Southbound Interface 220 Northbound Interface 220 Eastbound Interface 223 Westbound Interface 2247.6 SDN Application Plane 225 Application Plane Architecture 225 Northbound Interface 226 Network Services Abstraction Layer 226 Network Applications 226 User Interface 2307.7 Key Terms and Review Questions 230 Key Terms 230 Review Questions 2317.8 References and Documents 231 References 231 Documents 232Chapter 8: Network Functions Virtualization 2348.1 Background and Motivation for NFV 2358.2 Virtual Machines and Containers 236 Hypervisor 236 Architectural Approaches 238 Container Virtualization 2418.3 NFV Concepts 242 Simple Example of the Use of NFV 245 NFV Principles 246 High-Level NFV Framework 2468.4 NFV Benefits and Requirements 248 NFV Benefits 248 NFV Requirements 2498.5 NFV Reference Architecture 250 NFV Management and Orchestration 251 Reference Points 2518.6 NFV Infrastructure 252 Container Interface 253 Deployment of NFVI Containers 256 Logical Structure of NFVI Domains 257 Compute Domain 258 Hypervisor Domain 260 Infrastructure Network Domain 2618.7 Virtualized Network Functions 263 VNF Interfaces 263 VNFC-to-VNFC Communication 264 VNF Scaling 2668.8 SDN and NFV 2678.9 Key Terms and Review Questions 269 Key Terms 269 Review Questions 2708.10 References and Documents 271 References 271 Documents 271Chapter 9: Core Network Functionality, QoS, and Network Slicing 2729.1 Core Network Requirements 273 Network Operational Requirements 273 Basic Network Requirements 2759.2 Core Network Functional Architecture 279 Tunneling 281 PDU Session Establishment 283 Policy Control Function 2879.3 Quality of Service 291 QoS Capabilities 291 QoS Architectural Framework 294 QoS Classification, Marking, and Differentiation 297 3GPP QoS Architecture 298 QoS Parameters 299 QoS Characteristics 301 Standardized 5QI-to-QoS Characteristic Mapping 3039.4 Network Slicing 307 Network Slicing Concepts 308 Requirements for Network Slicing 310 Identifying and Selecting a Network Slice 312 Functional Aspects of Network Slicing 313 Generic Slice Template 3149.5 SDN and NFV Support for 5G 3159.6 Key Terms and Review Questions 319 Key Terms 319 Review Questions 3199.7 References and Documents 320 References 320 Documents 320Chapter 10: Multi-Access Edge Computing 32210.1 MEC and 5G 32310.2 MEC Architectural Concepts 32410.3 ETSI MEC Architecture 327 Design Principles 328 MEC System Reference Architecture 329 Related Elements 33210.4 MEC in NFV 333 MEC Components Implemented as VNFs 333 MEC Components Replaced by NFV Components 335 MEC System-Level Components 33510.5 MEC Support for Network Slicing 33510.6 MEC Use Cases 336 Consumer-Oriented Services 337 Operator and Third-Party Services 342 Network Performance and QoS Improvements 34410.7 3GPP Architecture for Enabling Edge Applications 349 EDGEAPP Functional Architecture 350 Synergized Mobile Edge Cloud Architecture 35210.8 Key Terms and Review Questions 353 Key Terms 353 Review Questions 35310.9 References and Documents 354 References 354 Documents 355PART IV: 5G NR AIR INTERFACE AND RADIO ACCESS NETWORKChapter 11: Wireless Transmission 35611.1 Channel Capacity 357 Nyquist Bandwidth 357 Shannon Capacity Formula 35811.2 Line-of-Sight Transmission 361 Refraction 362 Optical and Radio Line of Sight 36311.3 Line-of-Sight Transmission Impairments 364 Attenuation 364 Free Space Loss 365 Path Loss Exponent in Practical Cellular Systems 368 Noise 369 The Expression Eb/N0 372 Atmospheric Absorption 374 Multipath 375 Refraction 37611.4 Fading in the Mobile Environment 376 Multipath Propagation 376 The Effects of Multipath Propagation 377 Types of Fading 378 The Fading Channel 37911.5 Millimeter Wave Transmission for 5G 381 Propagation Impairments 381 Implications for 5G 38511.6 Key Terms and Review Questions 387 Key Terms 387 Review Questions 38811.7 References 389ANNEX 11A: Decibels and Signal Strength 389Chapter 12: Antennas 39412.1 Channel Correction Mechanisms 394 Adaptive Equalization 395 Diversity Techniques 396 Adaptive Modulation and Coding 398 Forward Error Correction 39812.2 Introduction to Antennas 399 Radiation Patterns 399 Antenna Types 401 Antenna Gain 40612.3 Multiple-Input/Multiple-Output (MIMO) Antennas 407 MIMO Principles 408 Multiple-User MIMO 41012.4 Advanced Cellular Antennas 411 Evolution of Cellular Antennas 411 Beamforming 412 Active Antenna Systems 416 Massive MIMO 41712.5 Key Terms and Review Questions 420 Key Terms 420 Review Questions 42112.6 References 422Chapter 13: Air Interface Physical Layer 42413.1 Modulation Schemes 424 Modulation 425 Amplitude-Shift Keying 425 Frequency-Shift Keying 426 Phase-Shift Keying 426 Quadrature Amplitude Modulation 433 pi/2-BPSK 43713.2 OFDM, OFDMA, and SC-FDMA 438 Orthogonal Frequency-Division Multiplexing 438 OFDM Implementation 441 Difficulties of OFDM 444 Orthogonal Frequency-Division Multiple Access 445 Single-Carrier FDMA 44613.3 Waveforms and Numerologies 448 Numerology 448 CP-OFDM 449 DFT-S-OFDM 45013.4 Key Terms and Review Questions 451 Key Terms 451 Review Questions 45213.5 References and Documents 453 References 453 Documents 453ANNEX 13A: Multiplexing and Multiple Access 453 Multiplexing 453 Multiple Access 455Chapter 14: Air Interface Channel Coding 45614.1 Transmission Errors 457 Error Burst 457 Data Transmission Channels 45814.2 Forward Error Correction 460 Block Error Correction 460 Hamming Distance 46214.3 Parity-Check Matrix Codes 466 Encoding 469 Error Detection 470 Error Correction 47014.4 Low-Density Parity-Check Codes 471 Code Construction 472 Error Correction 473 Encoding 47614.5 Polar Coding 476 Polar Encoder 477 Synthetic Channels 479 Decoding 48314.6 3GPP Channel Coding Specification 484 Quasi-Cyclic Low-Density Parity-Check Codes 485 Polar Coding with CRC 48614.7 Hybrid Automatic Repeat Request 48814.8 Key Terms and Review Questions 490 Key Terms 490 Review Questions 49014.9 References and Documents 491 References 491 Documents 492Chapter 15: 5G Radio Access Network 49415.1 Overall RAN Architecture 49415.2 RANCore Functional Split 499 RAN Functional Areas 500 Core Functional Areas 50115.3 RAN Channel Structure 502 Logical Channel 503 Transport Channels 503 Physical Channels 50415.4 RAN Protocol Architecture 505 Air Interface Protocol Architecture 505 Channel Structure 508 RANCore Network Interface Protocol Architecture 509 Xn Interface Protocol Architecture 51115.5 NG RAN Transport Network 51215.6 Integrated Access and Backhaul 517 IAB Architecture 519 Parent/Child Relationship 520 IAB Protocol Architecture 52015.7 Key Terms and Review Questions 523 Key Terms 523 Review Questions 52415.8 References and Documents 525 References 525 Documents 525PART V: APPENDIXESAppendix A: Review Questions and Solutions 528Appendix B: Glossary 594Appendix C: Acronyms 604Index 608.
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