Interconnecting smart objects with IP the next Internet
Smart object technology, sometimes called the Internet of Things, is having a profound impact on our day-to-day lives. Interconnecting Smart Objects with IP is the first book that takes a holistic approach to the revolutionary area of IP-based smart objects. Smart objects are the intersection of net...
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston :
Elsevier / Morgan Kaufmann Publishers
c2010.
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| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628009606719 |
Tabla de Contenidos:
- Front Cover; Interconnecting Smart Objects with IP: The Next Internet; Copyright Page; Dedication; About the Authors; Contents; Foreword; Preface; OBJECTIVES; STRUCTURE OF THE BOOK; Acknowledgements; SPECIAL ACKNOWLEDGMENTS; PART 1 THE ARCHITECTURE; CHAPTER 1 What Are Smart Objects?; 1.1 Where Do Smart Objects Come From?; 1.1.1 Embedded Systems; 1.1.2 Ubiquitous and Pervasive Computing; 1.1.3 Mobile Telephony; 1.1.4 Telemetry and Machine-to-machine Communication; 1.1.5 Wireless Sensor and Ubiquitous Sensor Networks; 1.1.6 Mobile Computing; 1.1.7 Computer Networking
- 1.2 Challenges for Smart Objects1.2.1 Node-level Challenges; 1.2.2 Network-level Challenges; 1.2.3 Standardization; 1.2.4 Interoperability; 1.3 Conclusions; CHAPTER 2 IP Protocol Architecture; 2.1 Introduction; 2.2 From NCP to TCP/IP; 2.3 Fundamental TCP/IP Architectural Design Principles; 2.4 The Delicate Subject of Cross-layer Optimization; 2.5 Why Is IP Layering also Important for Smart Object Networks?; 2.6 Conclusions; CHAPTER 3 Why IP for Smart Objects?; 3.1 Interoperability; 3.2 An Evolving and Versatile Architecture; 3.3 Stability and Universality of the Architecture; 3.4 Scalability
- 3.5 Configuration and Management3.6 Small Footprint; 3.7 What Are the Alternatives?; 3.8 Why Are Gateways Bad?; 3.8.1 Inherent Complexity; 3.8.2 Lack of Flexibility and Scalability; 3.9 Conclusions; CHAPTER 4 IPv6 for Smart Object Networks and the Internet of Things; 4.1 Introduction; 4.2 The Depletion of the IPv4 Address Space; 4.2.1 Current IPv4 Address Pool Exhaustion Rate; 4.3 NAT: A (Temporary) Solution to IPv4 Address Exhaustion; 4.4 Architectural Discussion; 4.5 Conclusions; CHAPTER 5 Routing; 5.1 Routing in IP Networks; 5.1.1 IP Routing and QoS
- 5.1.2 IP Routing and Network Reliability5.2 Specifics of Routing in LLNs; 5.2.1 What Makes the Routing in LLNs Different?; 5.3 Layer 2 Versus Layer 3 ""Routing""; 5.3.1 Where Should Path Computation Be Performed?; 5.4 Conclusions; CHAPTER 6 Transport Protocols; 6.1 UDP; 6.1.1 Best-effort Datagram Delivery; 6.1.2 The UDP Header; 6.2 TCP; 6.2.1 Reliable Stream Transport; 6.2.2 The TCP Header; 6.2.3 TCP Options; 6.2.4 Round-trip Time Estimation; 6.2.5 Flow Control; 6.2.6 Congestion Control; 6.2.7 TCP States; 6.3 UDP for Smart Objects; 6.4 TCP for Smart Objects; 6.5 Conclusions
- CHAPTER 7 Service Discovery7.1 Service Discovery in IP Networks; 7.2 Service Discovery Protocols; 7.2.1 SLP; 7.2.2 Zeroconf, Rendezvous, and Bonjour; 7.2.3 UPnP; 7.3 Conclusions; CHAPTER 8 Security for Smart Objects; 8.1 The Three Properties of Security; 8.1.1 Confidentiality; 8.1.2 Integrity; 8.1.3 Availability; 8.2 ""Security"" by Obscurity; 8.3 Encryption; 8.4 Security Mechanisms for Smart Objects; 8.4.1 Security Policies for Smart Objects; 8.4.2 Link Layer Encryption; 8.5 Security Mechanisms in the IP Architecture; 8.5.1 IPsec; 8.5.2 TLS; 8.6 Conclusions
- CHAPTER 9 Web Services for Smart Objects
