Dependable IoT for human and industry : modeling, architecting, implementation /

The subject of Digital Signal Processing (DSP) is enormously complex, involving many concepts, probabilities, and signal processing that are woven together in an intricate manner. To cope with this scope and complexity, many DSP texts are often organized around the "numerical examples" of...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Kharchenko, Vyacheslav (Editor ), Kor, Ah-Lian (Editor ), Ruciński, Andrzej (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Gistrup, Denmark : River Publishers, [2019]
Colección:River Publishers series in information science and technology.
Temas:
Internet of things > Standards.
Internet of things > Security measures.
Internet des objets > Normes.
Internet des objets > Sécurité > Mesures.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Half Title Page
  • Dependable IoT for Humanand Industry Modeling, Architecting, Implementation; RIVER PUBLISHERS SERIES IN INFORMATION SCIENCEAND TECHNOLOGY; Title Page
  • Dependable IoT for Human and Industry Modeling, Architecting, Implementation; Copyright Page; Contents; Preface; Acknowledgments; List of Contributors; List of Figures; List of Tables; List of Abbreviations; Introduction
  • Dependable IoT for Human and Industry: Introduction and Book Scope; 1. Internet of Important Things; 2. Internet of Things and Collaboratory; 3. Main Topics and Scope
  • PART I
  • Internet of Vital and Trust ThingsChapter 1
  • Disruptive Innovation in Vital Embedded Systems and the Internet of Vital Things; 1.1 Introduction and Brief History; 1.1.1 Embedded Systems; 1.1.2 Critical Embedded Systems; 1.1.3 The Internet of Things in Context; 1.1.4 Some Observations of the Status Quo and the Near Term; 1.2 Internet of Vital Things (IoVT); 1.2.1 Conception of IoVT; 1.2.2 Historic Example: SAGE; 1.3 The SAGE Air Defense System [16]; 1.4 Evolution of Disruptive Innovation in the Design of Microelectronic Systems and the IoVT; 1.4.1 Creation of CIDLab
  • 1.4.2 Concepts of GAIN and Global Systems Engineering Education1.4.3 I-GEMS and the Virtual Design Universe; 1.4.4 Design for Globalization; 1.4.5 Vital Electronics; 1.5 Vital-iSolve and the Internet of Vital Things (IOVT); 1.5.1 Vital-iSolve Fundamentals; 1.5.2 Vital-iSolve Ingredients; 1.5.3 Example From an E-health Ambulatory Sensor Application: Heart Sensor:; 1.6 Conclusion; 1.6.1 Summing up the Recent Disruptive Innovation in Microelectronics Systems Education; 1.6.2 The Big Question Which Needs to be Addressed; References
  • Chapter 2
  • How to Support Creativity in the Complex IoT with Ethics and Trust for Users2.1 Introduction; 2.2 Architecting the Future; 2.2.1 Conceptual Architects; 2.2.2 System-of-Systems; 2.2.3 Trusted Interfaces; 2.3 Conclusion; References; PART II
  • Modelling and Assessment; Chapter 3
  • Design and Simulation of an Energy-efficient Sensor Network Routing Protocol for Large-scale Distributed Environmental Monitoring Systems; 3.1 Introduction; 3.1.1 Context and Motivation; 3.1.2 Contributions; 3.2 Related Work; 3.3 Proposed Protocol EESNR; 3.3.1 Network Topology Model for EESNR
  • 3.3.2 Path Loss/Fading3.3.3 Radio and Data Transmission Model; 3.4 Simulation Setup and Results; 3.4.1 Simulation Setup; 3.4.2 Simulation Results; 3.5 Conclusions; References; Chapter 4
  • Modeling and Assessment of Resource-sharing Efficiency in Social Internet of Things; 4.1 Introduction; 4.2 Related Work; 4.3 Motivation; 4.4 The Proposed Model; 4.4.1 P2P Resource Sharing Specifications; 4.4.2 Agent-Based Model of Peers in Competitive Mode; 4.4.3 Agent-Based Model of Peers in Cooperative Mode; 4.5 Simulation and Results; 4.5.1 Simulation Setup; 4.5.2 Simulation Results; 4.6 Conclusions

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