Info
- Utilizzare la checkbox di selezione a fianco di ciascun documento per attivare le funzionalità di stampa, invio email, download nei formati disponibili del (i) record.
Building the internet of things (IoT) with IPv6 and MIPv6 / / Daniel Minoli
| Building the internet of things (IoT) with IPv6 and MIPv6 / / Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Hoboken, New Jersey, : John Wiley & Sons, Inc., 2013 |
| Descrizione fisica | 1 online resource (391 p.) |
| Disciplina | 004.6/2 |
| Soggetto topico |
Embedded Internet devices
Internet of things TCP/IP (Computer network protocol) Mobile computing |
| ISBN |
9781118647134
1118647130 9781118647059 111864705X 9781118647141 1118647149 |
| Classificazione | COM060000 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- PREFACE xiii / / ABOUT THE AUTHOR xvii -- 1 WHAT IS THE INTERNET OF THINGS? 1 -- 1.1 Overview and Motivations 1 -- 1.2 Examples of Applications 12 -- 1.3 IPv6 Role 17 -- 1.4 Areas of Development and Standardization 20 -- 1.5 Scope of the Present Investigation 23 -- Appendix 1.A: Some Related Literature 25 -- References 26 -- 2 INTERNET OF THINGS DEFINITIONS AND FRAMEWORKS 28 -- 2.1 IoT Definitions 28 -- 2.1.1 General Observations 28 -- 2.1.2 ITU-T Views 31 -- 2.1.3 Working Definition 33 -- 2.2 IoT Frameworks 38 -- 2.3 Basic Nodal Capabilities 44 -- References 46 -- 3 INTERNET OF THINGS APPLICATION EXAMPLES 48 -- 3.1 Overview 49 -- 3.2 Smart MeteringAdvanced Metering Infrastructure 52 -- 3.3 e-HealthBody Area Networks 55 -- 3.4 City Automation 62 -- 3.5 Automotive Applications 64 -- 3.6 Home Automation 67 -- 3.7 Smart Cards 70 -- 3.8 Tracking (Following and Monitoring Mobile Objects) 77 -- 3.9 Over-The-Air-Passive SurveillanceRing of Steel 79 -- 3.10 Control Application Examples 86 -- 3.11 Myriad Other Applications 93 -- References 94 -- 4 FUNDAMENTAL IoT MECHANISMS AND KEY TECHNOLOGIES 97 -- 4.1 Identification of IoT Objects and Services 97 -- 4.2 Structural Aspects of the IoT 101 -- 4.2.1 Environment Characteristics 101 -- 4.2.2 Traffic Characteristics 102 -- 4.2.3 Scalability 102 -- 4.2.4 Interoperability 103 -- 4.2.5 Security and Privacy 103 -- 4.2.6 Open Architecture 103 -- 4.3 Key IoT Technologies 103 -- 4.3.1 Device Intelligence 103 -- 4.3.2 Communication Capabilities 104 -- 4.3.3 Mobility Support 104 -- 4.3.4 Device Power 105 -- 4.3.5 Sensor Technology 107 -- 4.3.6 RFID Technology 111 -- 4.3.7 Satellite Technology 118 -- References 119 -- 5 EVOLVING IoT STANDARDS 120 -- 5.1 Overview and Approaches 120 -- 5.2 IETF IPv6 Routing Protocol for RPL Roll 123 -- 5.3 Constrained Application Protocol (CoAP) 126 -- 5.3.1 Background 126 -- 5.3.2 Messaging Model 129 -- 5.3.3 RequestResponse Model 129 -- 5.3.4 Intermediaries and Caching 129 -- 5.4 Representational State Transfer (REST) 130.
5.5 ETSI M2M 130 -- 5.6 Third-Generation Partnership Project Service Requirements for Machine-Type Communications 131 -- 5.6.1 Approach 131 -- 5.6.2 Architectural Reference Model for MTC 134 -- 5.7 CENELEC 135 -- 5.8 IETF IPv6 Over Lowpower WPAN (6LoWPAN) 137 -- 5.9 ZigBee IP (ZIP) 137 -- 5.10 IP in Smart Objects (IPSO) 138 -- Appendix 5.A: Legacy Supervisory Control and Data Acquisition (SCADA) Systems 138 -- References 142 -- 6 LAYER 12 CONNECTIVITY: WIRELESS TECHNOLOGIES FOR THE IoT 144 -- 6.1 WPAN Technologies for IoTM2M 145 -- 6.1.1 ZigbeeIEEE 802.15.4 155 -- 6.1.2 Radio Frequency for Consumer Electronics (RF4CE) 170 -- 6.1.3 Bluetooth and its Low-Energy Profile 170 -- 6.1.4 IEEE 802.15.6 WBANs 180 -- 6.1.5 IEEE 802.15 WPAN TG4j MBANs 181 -- 6.1.6 ETSI TR 101 557 184 -- 6.1.7 NFC 187 -- 6.1.8 Dedicated Short-Range Communications (DSRC) and Related Protocols 189 -- 6.1.9 Comparison of WPAN Technologies 192 -- 6.2 Cellular and Mobile Network Technologies for IoTM2M 195 -- 6.2.1 Overview and Motivations 195 -- 6.2.2 Universal Mobile Telecommunications System 196 -- 6.2.3 LTE 197 -- Appendix 6.A: Non-Wireless Technologies for IoT: Powerline Communications 209 -- References 216 -- 7 LAYER 3 CONNECTIVITY: IPv6 TECHNOLOGIES FOR THE IoT 220 -- 7.1 Overview and Motivations 220 -- 7.2 Address Capabilities 224 -- 7.2.1 IPv4 Addressing and Issues 224 -- 7.2.2 IPv6 Address Space 225 -- 7.3 IPv6 Protocol Overview 231 -- 7.4 IPv6 Tunneling 239 -- 7.5 IPsec in IPv6 242 -- 7.6 Header Compression Schemes 242 -- 7.7 Quality of Service in IPv6 245 -- 7.8 Migration Strategies to IPv6 246 -- 7.8.1 Technical Approaches 246 -- 7.8.2 Residential Broadband Services in an IPv6 Environment 250 -- 7.8.3 Deployment Opportunities 252 -- References 254 -- 8 LAYER 3 CONNECTIVITY: MOBILE IPv6 TECHNOLOGIES FOR THE IoT 257 -- 8.1 Overview 257 -- 8.2 Protocol Details 266 -- 8.2.1 Generic Mechanisms 267 -- 8.2.2 New IPv6 Protocol, Message Types, and Destination Option 271 -- 8.2.3 Modifications to IPv6 Neighbor Discovery 277. 8.2.4 Requirements for Various IPv6 Nodes 278 -- 8.2.5 Correspondent Node Operation 278 -- 8.2.6 HA Node Operation 285 -- 8.2.7 Mobile Node Operation 286 -- 8.2.8 Relationship to IPV4 Mobile IPv4 (MIP) 291 -- References 292 -- 9 IPv6 OVER LOW-POWER WPAN (6LoWPAN) 293 -- 9.1 BackgroundIntroduction 294 -- 9.2 6LoWPANs Goals 296 -- 9.3 Transmission of IPv6 Packets Over IEEE 802.15.4 297 -- References 301 -- GLOSSARY 302 -- INDEX 356. |
| Record Nr. | UNINA-9910812105303321 |
Minoli Daniel <1952->
|
||
| Hoboken, New Jersey, : John Wiley & Sons, Inc., 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Building the internet of things with IPv6 and MIPv6 : the evolving world of M2m communications / / Daniel Minoli
| Building the internet of things with IPv6 and MIPv6 : the evolving world of M2m communications / / Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , [2013] |
| Descrizione fisica | 1 online resource (391 p.) |
| Disciplina | 004.6/2 |
| Soggetto topico |
Embedded Internet devices
Internet of things TCP/IP (Computer network protocol) Mobile computing |
| ISBN |
1-118-64713-0
1-118-64705-X 1-118-64714-9 |
| Classificazione | COM060000 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- PREFACE xiii / / ABOUT THE AUTHOR xvii -- 1 WHAT IS THE INTERNET OF THINGS? 1 -- 1.1 Overview and Motivations 1 -- 1.2 Examples of Applications 12 -- 1.3 IPv6 Role 17 -- 1.4 Areas of Development and Standardization 20 -- 1.5 Scope of the Present Investigation 23 -- Appendix 1.A: Some Related Literature 25 -- References 26 -- 2 INTERNET OF THINGS DEFINITIONS AND FRAMEWORKS 28 -- 2.1 IoT Definitions 28 -- 2.1.1 General Observations 28 -- 2.1.2 ITU-T Views 31 -- 2.1.3 Working Definition 33 -- 2.2 IoT Frameworks 38 -- 2.3 Basic Nodal Capabilities 44 -- References 46 -- 3 INTERNET OF THINGS APPLICATION EXAMPLES 48 -- 3.1 Overview 49 -- 3.2 Smart MeteringAdvanced Metering Infrastructure 52 -- 3.3 e-HealthBody Area Networks 55 -- 3.4 City Automation 62 -- 3.5 Automotive Applications 64 -- 3.6 Home Automation 67 -- 3.7 Smart Cards 70 -- 3.8 Tracking (Following and Monitoring Mobile Objects) 77 -- 3.9 Over-The-Air-Passive SurveillanceRing of Steel 79 -- 3.10 Control Application Examples 86 -- 3.11 Myriad Other Applications 93 -- References 94 -- 4 FUNDAMENTAL IoT MECHANISMS AND KEY TECHNOLOGIES 97 -- 4.1 Identification of IoT Objects and Services 97 -- 4.2 Structural Aspects of the IoT 101 -- 4.2.1 Environment Characteristics 101 -- 4.2.2 Traffic Characteristics 102 -- 4.2.3 Scalability 102 -- 4.2.4 Interoperability 103 -- 4.2.5 Security and Privacy 103 -- 4.2.6 Open Architecture 103 -- 4.3 Key IoT Technologies 103 -- 4.3.1 Device Intelligence 103 -- 4.3.2 Communication Capabilities 104 -- 4.3.3 Mobility Support 104 -- 4.3.4 Device Power 105 -- 4.3.5 Sensor Technology 107 -- 4.3.6 RFID Technology 111 -- 4.3.7 Satellite Technology 118 -- References 119 -- 5 EVOLVING IoT STANDARDS 120 -- 5.1 Overview and Approaches 120 -- 5.2 IETF IPv6 Routing Protocol for RPL Roll 123 -- 5.3 Constrained Application Protocol (CoAP) 126 -- 5.3.1 Background 126 -- 5.3.2 Messaging Model 129 -- 5.3.3 RequestResponse Model 129 -- 5.3.4 Intermediaries and Caching 129 -- 5.4 Representational State Transfer (REST) 130.
5.5 ETSI M2M 130 -- 5.6 Third-Generation Partnership Project Service Requirements for Machine-Type Communications 131 -- 5.6.1 Approach 131 -- 5.6.2 Architectural Reference Model for MTC 134 -- 5.7 CENELEC 135 -- 5.8 IETF IPv6 Over Lowpower WPAN (6LoWPAN) 137 -- 5.9 ZigBee IP (ZIP) 137 -- 5.10 IP in Smart Objects (IPSO) 138 -- Appendix 5.A: Legacy Supervisory Control and Data Acquisition (SCADA) Systems 138 -- References 142 -- 6 LAYER 12 CONNECTIVITY: WIRELESS TECHNOLOGIES FOR THE IoT 144 -- 6.1 WPAN Technologies for IoTM2M 145 -- 6.1.1 ZigbeeIEEE 802.15.4 155 -- 6.1.2 Radio Frequency for Consumer Electronics (RF4CE) 170 -- 6.1.3 Bluetooth and its Low-Energy Profile 170 -- 6.1.4 IEEE 802.15.6 WBANs 180 -- 6.1.5 IEEE 802.15 WPAN TG4j MBANs 181 -- 6.1.6 ETSI TR 101 557 184 -- 6.1.7 NFC 187 -- 6.1.8 Dedicated Short-Range Communications (DSRC) and Related Protocols 189 -- 6.1.9 Comparison of WPAN Technologies 192 -- 6.2 Cellular and Mobile Network Technologies for IoTM2M 195 -- 6.2.1 Overview and Motivations 195 -- 6.2.2 Universal Mobile Telecommunications System 196 -- 6.2.3 LTE 197 -- Appendix 6.A: Non-Wireless Technologies for IoT: Powerline Communications 209 -- References 216 -- 7 LAYER 3 CONNECTIVITY: IPv6 TECHNOLOGIES FOR THE IoT 220 -- 7.1 Overview and Motivations 220 -- 7.2 Address Capabilities 224 -- 7.2.1 IPv4 Addressing and Issues 224 -- 7.2.2 IPv6 Address Space 225 -- 7.3 IPv6 Protocol Overview 231 -- 7.4 IPv6 Tunneling 239 -- 7.5 IPsec in IPv6 242 -- 7.6 Header Compression Schemes 242 -- 7.7 Quality of Service in IPv6 245 -- 7.8 Migration Strategies to IPv6 246 -- 7.8.1 Technical Approaches 246 -- 7.8.2 Residential Broadband Services in an IPv6 Environment 250 -- 7.8.3 Deployment Opportunities 252 -- References 254 -- 8 LAYER 3 CONNECTIVITY: MOBILE IPv6 TECHNOLOGIES FOR THE IoT 257 -- 8.1 Overview 257 -- 8.2 Protocol Details 266 -- 8.2.1 Generic Mechanisms 267 -- 8.2.2 New IPv6 Protocol, Message Types, and Destination Option 271 -- 8.2.3 Modifications to IPv6 Neighbor Discovery 277. 8.2.4 Requirements for Various IPv6 Nodes 278 -- 8.2.5 Correspondent Node Operation 278 -- 8.2.6 HA Node Operation 285 -- 8.2.7 Mobile Node Operation 286 -- 8.2.8 Relationship to IPV4 Mobile IPv4 (MIP) 291 -- References 292 -- 9 IPv6 OVER LOW-POWER WPAN (6LoWPAN) 293 -- 9.1 BackgroundIntroduction 294 -- 9.2 6LoWPANs Goals 296 -- 9.3 Transmission of IPv6 Packets Over IEEE 802.15.4 297 -- References 301 -- GLOSSARY 302 -- INDEX 356. |
| Record Nr. | UNINA-9910139045103321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, New Jersey : , : Wiley, , [2013] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The closing of the net / / Monica Horten
| The closing of the net / / Monica Horten |
| Autore | Horten Monica <1960-> |
| Pubbl/distr/stampa | Cambridge, England ; ; Malden, Massachusetts : , : Polity, , 2016 |
| Descrizione fisica | 1 online resource (160 pages) |
| Disciplina | 303.48/33 |
| Soggetto topico |
Internet - Political aspects
Internet - Law and legislation Corporations - Political activity Copyright and electronic data processing Interactive multimedia - Moral and ethical aspects |
| ISBN | 1-5095-0692-6 |
| Classificazione | COM060000 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910156229903321 |
|
Horten Monica <1960->
|
||
| Cambridge, England ; ; Malden, Massachusetts : , : Polity, , 2016 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
