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E-Book

E-Book, Englisch, 260 Seiten

Ning Unit and Ubiquitous Internet of Things


Erscheinungsjahr 2013
ISBN: 978-1-4665-6167-0
Verlag: Taylor & Francis
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

E-Book, Englisch, 260 Seiten

ISBN: 978-1-4665-6167-0
Verlag: Taylor & Francis
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)



Although the Internet of Things (IoT) will play a key role in the development of next generation information, network, and communication technologies, many are still unclear about what makes IoT different from similar concepts.

Answering fundamental questions about IoT architectures and models, Unit and Ubiquitous Internet of Things introduces essential IoT concepts from the perspectives of mapping and interaction between the physical world and the cyber world. It addresses key issues such as strategy and education, particularly around unit and ubiquitous IoT technologies. Supplying a new perspective on IoT, the book covers emerging trends and presents the latest progress in the field. It also:

- Outlines a fundamental architecture for future IoT together with the IoT layered model

- Describes various topological structures, existence forms, and corresponding logical relationships

- Establishes an IoT technology system based on the knowledge of IoT scientific problems

- Provides an overview of the core technologies, including basic connotation, development status, and open challenges

The book examines ubiquitous sensing, networking, and communications, as well as information management involved in unit IoT. It describes global IoT applications and includes coverage of ubiquitous, local, industrial, national, and transnational IoT. Presenting detailed case studies that illustrate various application scenarios, the text considers the main IoT supporting technologies including resource management, loop control in actuation, session management, space-time consistency, security and privacy, energy management, spectrum management, nanotechnology, quantum technology, and big data.

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Autoren/Hrsg.


Weitere Infos & Material


Introduction

IoT Concept

Related Concepts to IoT

The Intrinsic Characteristics of IoT

IoT Development and Application

Future IoT Vision

References

Architecture and Fundamentals

Some Research on IoT Architecture

Ubiquitous IoT (U2IoT) Architecture Unit IoT Definition and Its Architecture Design Ubiquitous IoT Definition and Its Architecture Design
Some Layered Models for IoT Three-Layer Model Four-Layer Model Eight-Layer Model Discussion on the above Layered Models

Layered Model Proposed and Social Attributes Discussion for U2IoT Layered Model Designed for U2IoT Layer Description and Social Attributes for Unit IoT Layer Description and Social Attributes for Ubiquitous IoT

IoT Development Phases Summary and Discussion Early Stage Unit IoT Stage Industrial/Local IoT Stage National IoT

Science Category and Supporting Technologies for IoT Science Category Based on Cyber-Physical-Social Aspects Supporting Technologies
Conclusion
References

Unit Internet of Things
Introduction

Sensors and Actuators Sensors Actuators
Ubiquitous Sensing Radio Frequency Identification (RFID) Bluetooth Wireless Fidelity (Wi-Fi) Ultra-Wideband (UWB) ZigBee Infrared Data Transmission

Networking and Communications Mobile Communication Technology Third-Generation Technology (3G) Wireless Local Area Network (WLAN) Fourth-Generation Technology (4G) Next-Generation Internet Technology

Management and Data Centers (M&DCs) Pervasive Management Object/Entity Management Network Management Service Management Data Fusion and Data Mining

Case Study for Unit IoT Identification Asset Management Biometrics Identification E-Passport Information Aggregation Smart Home Satellite Remote Sensing System Safety Awareness Bird Strike Avoidance Radar System River Navigation Safety System Monitoring and Control Precision Manufacturing System

Conclusion

References

Ubiquitous Internet of Things

Introduction

Local Internet of Things Local IoT Concept Main Characteristics of Local IoT Case Study: Smart City Case Study: Logistics Network of China
Pearl River Delta (PRD)

Industrial Internet of Things Industrial IoT Concept Main Characteristics of Industrial IoT Geographical Dispersion Multiuser Orientation An Example: Smart Grid

National Internet of Things National IoT Concept National Development Planning Management of National IoT

Transnational Internet of Things Application Description An Example: Transnational Logistics IoT in ACFTA

Global Application IoT and a Typical Example Description Case Study: Global Logistics IoT

Conclusion and Discussion

References

Resource Management
Introduction

Object Coding and Resolving Object Coding Discussion Coding for ID Objects Coding for nID Objects Combined Coding for Objects with ID and nID Resolving Discussion for nID Objects Space-Time Information Resolving Unique Attributes (UA) Resolving Nonunique Attributes (NA) Resolving

Resource Naming

Resource Addressing

Resource Discovery

Resource Allocation

Resource Management Scheme in U2IoT Context Information Resource Management Scheme for U2IoT Resource Management in Unit IoT Resource Management in Ubiquitous IoT

Conclusion

References

Loop Control in Actuation
References

Session Management

Introduction

Single-Session Management in IoT
Multiple-Session Management in IoT

Challenges

References

Space-Time Consistency and Location Privacy

Introduction

Space-Time Registration in Unit IoT Time Synchronization Object Localization Time Registration for Unit IoT Space Registration for Unit IoT
Space-Time Registration for Ubiquitous IoT Time Registration for Ubiquitous IoT Space Registration for Ubiquitous IoT

Space-Time Consistency Discussion in U2IoT

A Case Study in an Airport

Location Privacy Main Characteristics of Location Privacy Location Privacy-Preserving Mechanism Privacy Policy Anonymity and Pseudonymity Obfuscation Challenges and Open Issues

Conclusion

References

Security and Privacy

Introduction

Security Challenges in U2IoT Security Requirements CIA Triad Authority Nonrepudiation Privacy Preservation Security Attacks Gathering Imitation Blocking Privacy Disclosure

The Security Framework for U2IoT Information Security Physical Security Management Security

A Proposed Hybrid Authentication and Hierarchical Authorization Scheme The Security Protocol Suite in Unit IoT (UnSPs) The In-Group Hybrid Authentication Protocol in UnSPs The Out-Group Centralized Authorization Protocol in UnSPs The Security Protocol Suite in Ubiquitous IoT (UbSPs) The Centralized Authentication Protocol in UbSPs The Distributed Authority Transfer Protocol in UbSPs The Centralized Authority Transfer Protocol in UbSPs The Distributed Authority Sharing Protocol in UbSPs Security Analysis Authentication Authorization Privacy Preservation

Entity Activity Cycle–Based Security Solution In the Preactive Phase In the Active Phase Authentication Access Control Secure Routing Advanced Signature Zero-Knowledge Proof Data Aggregation In the Postactive Phase Intrusion Detection Intrusion Tolerance and Threshold Cryptography

Conclusion

References

Energy Management
Introduction

Energy Management in Unit IoT Energy Supply Management in Unit IoT Energy Demand Management in Unit IoT Supply-Demand Balance Management in Unit IoT

Energy Management in Ubiquitous IoT

Conclusion and Discussion
References

Spectrum Management
Introduction

Spectrum Management System, Equipment, and Technology National Spectrum Management System Spectrum Monitoring and Management Equipment Technological Innovation and Spectrum Management
The Vision, Challenge, and Scheme of Spectrum Management in IoT Spectrum Management Visions and Challenges Spectrum Management Scheme in IoT Spectrum Management in Unit IoT Spectrum Management in Ubiquitous IoT

Conclusion

References

Nanotechnology

Introduction

Nanotechnology in Ubiquitous Sensing Nanotechnology-Based New Sensors and Actuators Nanoscale Sensor Networks
Nanotechnology in Communication Networks High-Performance Routing and Switching Devices Radio Frequency (RF) Communication
Nanotechnology in High-Performance Computing

References

Quantum Technology

Introduction

Quantum Technology: Driving IoT Development Making Sensor Networks More Powerful Making Communication More Secure Making Massive Data Processing More Efficient
References

Big Data

Introduction

Technology and Application Some Typical Technologies for Big Data Application Platform and Solution

Conclusion

References

Index


Huansheng Ning, Ph.D., is an associate professor in the School of Electronic and Information Engineering, Beihang University. He was born in Anhui, China, and received a B.S. from Anhui University, China, and a Ph.D. from Beihang University, China. From 2002 to 2003, Dr. Ning worked at Aisino Corporation, Beijing, China. From 2004 to 2005, he was a post-Ph.D. at Beihang University. He has presided over several research projects supported by the National Natural Science Foundation of China (NSFC), the National High Technology Research and Development Program of China (863 Program), and other organizations. He has published many papers and books on radio frequency identification (RFID) and Internet of Things (IoT). Dr. Ning serves as an editor on Advances in Internet of Things (2012-Present), is a guest editor for the Journal of Universal Computer Science Special Issue on Internet of Things (JUCS), and coeditor for The Internet of Things: From RFID to the Next-Generation Pervasive Networked Systems (Taylor & Francis Group). He also serves as a chair or program committee member for international conferences/workshops, for example, program chair (IEEE iThings 2012), program committee member (AMT 2012), K15947. Internet of Things and CPS track chair (IEEE CIT’12), workshop chair (IEEE iThings 2011), and general chair (UMES 2011). Dr. Ning’s current research focuses on Internet of Things, electromagnetic sensing, and aviation security.



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