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Transportation and power grid in smart cities : communication networks and services /
With the increasing worldwide trend in population migration into urban centers, we are beginning to see the emergence of the kinds of mega-cities which were once the stuff of science fiction. It is clear to most urban planners and developers that accommodating the needs of the tens of millions of in...
| Clasificación: | Libro Electrónico |
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| Otros Autores: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Hoboken, NJ :
John Wiley & Son,
2019.
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| Temas: | |
| Acceso en línea: | Texto completo Texto completo |
Tabla de Contenidos:
- Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Section I Communication Technologies for Smart Cities; Chapter 1 Energy-Harvesting Cognitive Radios in Smart Cities; 1.1 Introduction; 1.1.1 Cognitive Radio; 1.1.2 Cognitive Radio Sensor Networks; 1.1.3 Energy Harvesting and Energy-Harvesting Sensor Networks; 1.2 Motivations for Using Energy-Harvesting Cognitive Radios in Smart Cities; 1.2.1 Motivations for Spectrum-Aware Communications; 1.2.2 Motivations for Self-Sustaining Communications; 1.3 Challenges Posed by Energy-Harvesting Cognitive Radios in Smart Cities
- 1.4 Energy-Harvesting Cognitive Internet of Things1.4.1 Definition; 1.4.2 Energy-Harvesting Methods in IoT; 1.4.3 System Architecture; 1.4.4 Integration of Energy-Harvesting Cognitive Radios with the Internet; 1.5 A General Framework for EH-CRs in the Smart City; 1.5.1 Operation Overview; 1.5.2 Node Architecture; 1.5.3 Network Architecture; 1.5.4 Application Areas; 1.6 Conclusion; References; Chapter 2 LTE-D2D Communication for Power Distribution Grid: Resource Allocation for Time-Critical Applications; 2.1 Introduction; 2.2 Communication Technologies for Power Distribution Grid
- 2.2.1 An Overview of Smart Grid Architecture2.2.2 Communication Technologies for SG Applications Outside Substations; 2.2.3 Communication Networks for SG; 2.3 Overview of Communication Protocols Used in Power Distribution Networks; 2.3.1 Modbus; 2.3.2 IEC 60870; 2.3.3 DNP3; 2.3.4 IEC 61850; 2.3.5 SCADA Protocols for Smart Grid: Existing State-of-the-Art; 2.4 Power Distribution System: Distributed Automation Applications and Requirements; 2.4.1 Distributed Automation Applications; 2.4.1.1 Voltage/Var Control (VVC); 2.4.1.2 Fault Detection, Isolation, and Restoration (FDCIR)
- 2.4.2 Requirements for Distributed Automation Applications2.5 Analysis of Data Flow in Power Distribution Grid; 2.5.1 Model for Power Distribution Grid; 2.5.2 IEC 61850 Traffic Model; 2.5.2.1 Cyclic Data Flow; 2.5.2.2 Stochastic Data Flow; 2.5.2.3 Burst Data Flow; 2.6 LTE-D2D for DA: Resource Allocation for Time-Critical Applications; 2.6.1 Overview of LTE; 2.6.2 IEC 61850 Protocols over LTE; 2.6.2.1 Mapping MMS over LTE; 2.6.2.2 Mapping GOOSE over LTE; 2.6.3 Resource Allocation in uplink LTE-D2D for DA Applications; 2.6.3.1 Problem Formulation; 2.6.3.2 Scheduler Design
- 2.6.3.3 Numerical Evaluation2.7 Conclusion; References; Chapter 3 5G and Cellular Networks in the Smart Grid; 3.1 Introduction; 3.1.1 Massive MTC; 3.1.2 Mission-Critical MTC; 3.1.3 Secure Mission-Critical MTC; 3.2 From Power Grid to Smart Grid; 3.3 Smart Grid Communication Requirements; 3.3.1 Traffic Models and Requirements; 3.4 Unlicensed Spectrum and Non-3GPP Technologies for the Support of Smart Grid; 3.4.1 IEEE 802.11ah; 3.4.2 Sigfox's Ultra-Narrow Band (UNB) Approach; 3.4.3 LoRa™ Chirp Spread Spectrum Approach; 3.5 Cellular and 3GPP Technologies for the Support of Smart Grid