High-density and de-densified smart campus communications : technologies, integration, implementation and applications

High-density and de-densified smart campus communications technologies, integration, implementation and applications

"High-density campus communications have traditionally been important in many environments, including airports; stadiums; convention centers; shopping malls; classrooms; hospitals; cruise ships; train and subway stations; evangelical megachurches; large multiple dwelling units; boardwalks; (spe...

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Detalles Bibliográficos
Otros Autores: Minoli, Daniel, 1952- author (author), Dressendofer, Jo-Anne, author
Formato: Libro electrónico
Idioma:Inglés
Publicado: Hoboken, New Jersey : John Wiley & Sons, Inc [2022]
Materias:
Wireless communication systems.
Smart materials.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009724230006719
Tabla de Contenidos:
  • Cover
  • Title Page
  • Copyright Page
  • Contents
  • Preface
  • About the Authors
  • Acknowledgments
  • Chapter 1 Background and Functional Requirements for High-Density Communications
  • 1.1 BACKGROUND
  • 1.2 REQUIREMENTS FOR HIGH-DENSITY COMMUNICATIONS
  • 1.2.1 Pre-pandemic/Long-term Requirements for Airports
  • 1.2.2 Pre-pandemic/Long-term Requirements for Stadiums
  • 1.2.3 Pre-pandemic/Long-term Requirements for Convention Centers
  • 1.2.4 Pre-pandemic/Long-term Requirements for Open Air Gatherings and Amusement Parks
  • 1.2.5 Pre-pandemic/Long-term Requirements for Classrooms
  • 1.2.6 Pre-pandemic/Long-term Requirements for Train and Subway Stations
  • 1.2.7 Pre-pandemic/Long-term Requirements for Dense Office Environments
  • 1.2.8 Ongoing Requirements for Dense Smart Warehouses and Distribution Centers
  • 1.2.9 Pre-pandemic/Long-term Requirements for Dense Smart Cities
  • 1.3 PANDEMIC-DRIVEN SOCIAL DISTANCING
  • 1.3.1 Best Practices
  • 1.3.2 Heuristic Density for the Pandemic Era
  • 1.4 THE CONCEPT OF A WIRELESS SUPERNETWORK
  • REFERENCES
  • Chapter 2 Traditional WLAN Technologies
  • 2.1 OVERVIEW
  • 2.2 WLAN STANDARDS
  • 2.3 WLAN BASIC CONCEPTS
  • 2.3.1 PHY Layer Operation
  • 2.3.2 MAC Layer Operation
  • 2.4 HARDWARE ELEMENTS
  • 2.5 KEY IEEE 802.11ac MECHANISMS
  • 2.5.1 Downlink Multi-User MIMO (DL-MU-MIMO)
  • 2.5.2 Beamforming
  • 2.5.3 Dynamic Frequency Selection
  • 2.5.4 Space-Time Block Coding
  • 2.5.5 Product Waves
  • 2.6 BRIEF PREVIEW OF IEEE 802.11ax
  • REFERENCES
  • Chapter 3 Traditional DAS Technologies
  • 3.1 OVERVIEW
  • 3.2 FREQUENCY BANDS OF CELLULAR OPERATION
  • 3.2.1 Traditional RF Spectrum
  • 3.2.2 Citizens Broadband Radio Service (CBRS)
  • 3.2.3 Freed-up Satellite C-Band
  • 3.2.4 5G Bands
  • 3.2.5 Motivations for Additional Spectrum
  • 3.2.6 Private LTE/Private CBRS
  • 3.2.7 5G Network Slicing
  • 3.2.8 Supportive Technologies.
  • 3.3 DISTRIBUTED ANTENNA SYSTEMS (DASs)
  • 3.3.1 Technology Scope
  • 3.3.2 More Detailed Exemplary Arrangement
  • 3.3.3 Traffic-aware DAS
  • 3.3.4 BBU and DAS/RRU Connectivity
  • 3.3.5 Ethernet/IP Transport Connectivity of DAS
  • REFERENCES
  • Chapter 4 Traditional Sensor Networks/IoT Services
  • 4.1 OVERVIEW And ENVIRONMENT
  • 4.2 ARCHITECTURAL CONCEPTS
  • 4.3 WIRELESS TECHNOLOGIES FOR THE IoT
  • 4.3.1 Pre-5G Wireless Technologies for the IoT
  • 4.3.2 NB-IoT
  • 4.3.3 LTE-M
  • 4.3.4 5G Technologies for the IoT
  • 4.3.5 WAN-Oriented IoT Connectivity Migration Strategies
  • 4.4 EXAMPLES OF SEVEN-LAYER IoT PROTOCOL STACKS
  • 4.4.1 UPnP
  • 4.4.2 ZigBee
  • 4.4.3 Bluetooth
  • 4.5 GATEWAY-BASED IoT OPERATION
  • 4.6 EDGE COMPUTING IN THE IoT ECOSYSTEM
  • 4.7 SESSION ESTABLISHMENT EXAMPLE
  • 4.8 IoT SECURITY
  • 4.8.1 Challenges
  • 4.8.2 Applicable Security Mechanisms
  • 4.8.3 Hardware Considerations
  • 4.8.4 Other Approaches: Blockchains
  • REFERENCES
  • Chapter 5 Evolved Campus Connectivity
  • 5.1 ADVANCED SOLUTIONS
  • 5.1.1 802.11ax Basics
  • 5.1.2 Key 802.11ax Processes
  • 5.1.3 Summary
  • 5.2 VOICE OVER WI-FI (VOWI-FI)
  • 5.3 5G TECHNOLOGIES
  • 5.3.1 Emerging Services
  • 5.3.2 New Access and Core Elements
  • 5.3.3 New 5GC Architecture
  • 5.3.4 Frequency Spectrum and Propagation Challenges
  • 5.3.5 Resource Management
  • 5.3.6 Requirements for Small Cells
  • 5.3.7 Comparison to Wi-Fi 6
  • 5.4 IOT
  • 5.5 5G DAS SOLUTIONS
  • 5.6 INTEGRATED SOLUTIONS
  • REFERENCES
  • Chapter 6 De-densification of Spaces and Work Environments
  • 6.1 OVERVIEW
  • 6.2 BASIC APPROACHES
  • 6.3 RTLS METHODOLOGIES AND TECHNOLOGIES
  • 6.3.1 RFID Systems
  • 6.3.2 Wi-Fi-based Positioning System (WPS)
  • 6.3.3 Bluetooth
  • 6.3.4 UWB
  • 6.3.5 Automatic Vehicle Location (AVL)
  • 6.4 STANDARDS
  • 6.5 APPLICATIONS
  • REFERENCES.
  • Chapter 7 UWB-Based De-densification of Spaces and Work Environments
  • 7.1 REVIEW OF UWB TECHNOLOGY
  • 7.2 CARRIAGE OF INFORMATION IN UWB
  • 7.2.1 Pulse Communication
  • 7.2.2 UWB Modulation
  • 7.3 UWB STANDARDS
  • 7.4 IOT APPLICATIONS FOR UWB
  • 7.5 UWB APPLICATIONS FOR SMART CITIES AND FOR REAL-TIME LOCATING SYSTEMS
  • 7.5.1 Applications for Smart Cities
  • 7.5.2 UWB Applications to Real-Time Location Systems
  • 7.6 OSD/ODCMA APPLICATIONS
  • REFERENCES
  • Chapter 8 RTLSs and Distance Tracking Using Wi-Fi, Bluetooth, and Cellular Technologies
  • 8.1 OVERVIEW
  • 8.2 RF FINGERPRINTING METHODS
  • 8.3 WI-FI RTLS APPROACHES
  • 8.3.1 Common Approach
  • 8.3.2 Design Considerations
  • 8.3.3 Drawbacks and Limitations
  • 8.3.4 Potential Enhancements
  • 8.3.5 Illustrative Examples
  • 8.4 BLE
  • 8.4.1 Bluetooth and BLE Background
  • 8.4.2 RTLS Applications
  • 8.4.3 BLE-Based Contact Tracing
  • 8.4.4 Illustrative Examples
  • 8.5 CELLULAR APPROACHES
  • 8.6 SUMMARY
  • REFERENCES
  • Chapter 9 Case Study of an Implementation and Rollout of a High-Density High-Impact Network
  • 9.1 THURGOOD MARSHALL BWI AIRPORT DESIGN REQUIREMENTS
  • 9.1.1 Broad Motivation
  • 9.1.2 Status Quo Challenges
  • 9.1.3 RFP Requirements
  • 9.2 OVERVIEW OF THE FINAL DESIGN
  • 9.2.1 DAS Solutions
  • 9.2.2 Broadband, BLE, IoT
  • Chapter 10 The Age of Wi-Fi and Rise of the Wireless SuperNetwork (WiSNET)
  • 10.1 WHAT PRECEDED THE WiSNET
  • 10.2 WHAT COMES NEXT
  • 10.3 THE SUPER-INTEGRATION CONCEPT OF A WIRELESS SUPERNETWORK (WiSNET)
  • 10.4 THE MULTIDIMENSIONALITY OF A SUPERNETWORK (WiSNET)
  • 10.5 THE GENESIS OF THE WiSNET CONCEPT DEFINED IN THIS TEXT
  • 10.6 THE DEFINITION AND CHARACTERIZATION OF A WiSNET
  • 10.6.1 Architectural Aspects of a WiSNET
  • 10.6.2 Technology Aspects of a WiSNET
  • 10.6.3 Management Aspects of a WiSNET
  • 10.7 ECONOMIC ADVANTAGES OF A WiSNET SYSTEM.
  • 10.8 5G SLICE CAPABILITIES
  • 10.8.1 Motivations and Approaches for 5G Network Slicing
  • 10.8.2 Implementation
  • 10.8.3 Wi-Fi Slicing
  • 10.9 CONCLUSION
  • REFERENCES
  • Index
  • EULA.

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