Interconnecting smart objects with IP: the next Internet
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier [u.a.]
2010
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIV, 407 S. Ill., graph. Darst. 24 cm |
| ISBN: | 9780123751652 0123751659 |
Internformat
MARC
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| 245 | 1 | 0 | |a Interconnecting smart objects with IP |b the next Internet |c Jean-Philippe Vasseur ; Adam Dunkels |
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier [u.a.] |c 2010 | |
| 300 | |a XXIV, 407 S. |b Ill., graph. Darst. |c 24 cm | ||
| 336 | |b txt |2 rdacontent | ||
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| 653 | |a Ubiquitous computing | ||
| 653 | |a Embedded Internet devices | ||
| 653 | |a Ad hoc networks (Computer networks) | ||
| 653 | |a TCP/IP (Computer network protocol) | ||
| 653 | |a Automatic control | ||
| 653 | |a Ambient intelligence | ||
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Datensatz im Suchindex
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| adam_text |
Titel: Interconnecting smart objects with IP
Autor: Vasseur, Jean-Philippe
Jahr: 2010
Contents
Foreword.xvii
Preface.xix
Acknowledgements.xxiii
PARTI THE ARCHITECTURE_
CHAPTER 1 What Are Smart Objects?.3
1.1 Where Do Smart Objects Come From?.4
1.1.1 Embedded Systems.6
1.1.2 Ubiquitous and Pervasive Computing.7
1.1.3 Mobile Telephony.9
1.1.4 Telemetry and Machine-to-machine Communication.10
1.1.5 Wireless Sensor and Ubiquitous Sensor Networks.11
1.1.6 Mobile Computing.12
1.1.7 Computer Networking.13
1.2 Challenges for Smart Objects.14
1.2.1 Node-level Challenges.15
1.2.2 Network-level Challenges.15
1.2.3 Standardization.18
1.2.4 Interoperability.19
1.3 Conclusions.19
CHAPTER 2 IP Protocol Architecture.21
2.1 Introduction.21
2.2 From NCP to TCP/IP.21
2.3 Fundamental TCP/IP Architectural Design Principles.22
2.4 The Delicate Subject of Cross-layer Optimization.25
2.5 Why Is IP Layering also Important for Smart Object Networks?.27
2.6 Conclusions.28
CHAPTER 3 Why IP for Smart Objects?.29
3.1 Interoperability.30
3.2 An Evolving and Versatile Architecture.32
3.3 Stability and Universality of the Architecture.33
3.4 Scalability.34
vii
viii Contents
3.5 Configuration and Management.34
3.6 Small Footprint.35
3.7 What Are the Alternatives?.36
3.8 Why Are Gateways Bad?.37
3.8.1 Inherent Complexity.37
3.8.2 Lack of Flexibility and Scalability.38
3.9 Conclusions.38
CHAPTER 4 IPv6 for Smart Object Networks and the Internet of Things.39
4.1 Introduction.39
4.2 The Depletion of the IPv4 Address Space.41
4.2.1 Current IPv4 Address Pool Exhaustion Rate.42
4.3 NAT: A (Temporary) Solution to IPv4 Address Exhaustion.45
4.4 Architectural Discussion.47
4.5 Conclusions.48
CHAPTERS Routing.51
5.1 Routing in IP Networks.51
5.1.1 IP Routing and QoS.51
5.1.2 IP Routing and Network Reliability.53
5.2 Specifics of Routing in LLNs.54
5.2.1 What Makes the Routing in LLNs Different?.55
5.3 Layer 2 Versus Layer 3 "Routing".58
5.3.1 Where Should Path Computation Be Performed?.58
5.4 Conclusions.62
CHAPTER 6 Transport Protocols.63
6.1 UDP.63
6.1.1 Best-effort Datagram Delivery.63
6.1.2 The UDP Header.64
6.2 TCP.64
6.2.1 Reliable Stream Transport.65
6.2.2 The TCP Header.67
6.2.3 TCP Options.68
6.2.4 Round-trip Time Estimation.68
6.2.5 Flow Control.69
6.2.6 Congestion Control.69
6.2.7 TCP States.70
6.3 UDP for Smart Objects.72
6.4 TCP for Smart Objects.73
6.5 Conclusions.74
Contents ix
CHAPTER 7 Service Discovery.75
7.1 Service Discovery in IP Networks.76
7.2 Service Discovery Protocols.76
7.2.1 SLP.76
7.2.2 Zeroconf, Rendezvous, and Bonjour.78
7.2.3 UPnP.78
7.3 Conclusions.79
CHAPTER 8 Security for Smart Objects.81
8.1 The Three Properties of Security.82
8.1.1 Confidentiality.82
8.1.2 Integrity.83
8.1.3 Availability.83
8.2 "Security" by Obscurity.83
8.3 Encryption.84
8.4 Security Mechanisms for Smart Objects.86
8.4.1 Security Policies for Smart Objects.86
8.4.2 Link Layer Encryption.87
8.5 Security Mechanisms in the IP Architecture.88
8.5.1 IPsec.88
8.5.2 TLS.89
8.6 Conclusions.89
CHAPTER 9 Web Services for Smart Objects.91
9.1 Web Service Concepts.92
9.1.1 Common Data Formats.94
9.1.2 Representational State Transfer.95
9.2 The Performance of Web Services for Smart Objects.98
9.2.1 Implementation Complexity.98
9.2.2 Performance.100
9.3 Pachube: A Web Service System for Smart Objects.102
9.3.1 Interaction Model.104
9.3.2 Pachube Data Formats.105
9.3.3 HTTP Requests.106
9.3.4 HTTP Return Codes.106
9.3.5 Authentication and Security.107
9.3.6 Triggers.108
9.4 Conclusions.108
CHAPTER 10 Connectivity Models for Smart Object Networks.111
10.1 Introduction.Ill
10.2 Autonomous Smart Object Networks Model.Ill
Contents
10.3 The Internet of Things.112
10.4 The Extended Internet.112
10.4.1 The Role of Proxy Engines and the Application Overlay Networks.114
10.5 Conclusions.116
PART 2 THE TECHNOLOGY
CHAPTER 11 Smart Object Hardware and Software.119
11.1 Hardware.119
11.1.1 Communication Device.121
11.1.2 Microcontroller.122
11.1.3 Sensors and Actuators.123
11.1.4 Power Sources.123
11.1.5 Outlook: Systems on a Chip, Printed Electronics, and Claytronics.125
11.2 Software for Smart Objects.127
11.2.1 Operating Systems for Smart Objects.128
11.2.2 Multi-threaded Versus Event-driven Programming.132
11.2.3 Memory Management.135
11.2.4 Outlook: Macroprogramming, Java.137
11.3 Energy Management.138
11.3.1 Radio Power Management Mechanisms.140
11.3.2 Asynchronous Duty Cycling.141
11.3.3 Synchronous Duty Cycling.143
11.3.4 Examples of Radio On-times.144
11.4 Conclusions.144
CHAPTER 12 Communication Mechanisms for Smart Objects.147
12.1 Communication Patterns for Smart Objects.147
12.1.1 One-to-one Communication.148
12.1.2 One-to-many Communication.148
12.1.3 Many-to-one Communication.149
12.2 Physical Communication Standards.151
12.3 IEEE 802.15.4.152
12.3.1 802.15.4 Addresses.153
12.3.2 The 802.15.4 Physical Layer.154
12.3.3 MAC Layer.156
12.3.4 The 802.15.4 Frame Format.156
12.3.5 Power Consumption.157
12.4 IEEE 802.11 and WiFi.158
12.4.1 Network Topology and Formation.159
12.4.2 Physical Layer.160
12.4.3 MAC Layer.160
12.4.4 Low-power WiFi.161
Contents xi
12.5 PLC.163
12.5.1 Physical Layer.164
12.5.2 MAC Layer.164
12.5.3 Power Consumption.165
12.6 Conclusions.165
CHAPTER 13 ulP ? A Lightweight IP Stack.167
13.1 Principles of Operation.169
13.1.1 Input Processing.169
13.1.2 Output Processing.173
13.1.3 Periodic Processing.174
13.1.4 Packet Forwarding.174
13.2 ulP Memory Buffer Management.175
13.3 ulP Application Program Interface.176
13.3.1 The Event-driven API.176
13.4 ulP Protocol Implementations.178
13.4.1 IP Fragment Reassembly.179
13.4.2 TCP.179
13.4.3 Checksum Calculations.180
13.5 Memory Footprint.181
13.6 Conclusions.181
CHAPTER 14 Standardization.183
14.1 Introduction.183
14.2 The IETF.184
14.2.1 The IETF Mission.184
14.2.2 The IETF Organization.185
14.2.3 IETF Standard Tracks.186
14.2.4 The IETF Standard Process.188
14.2.5 The IAB.189
14.3 IETF Working Groups Related to IP for Smart Objects.191
14.3.1 The IPv6 Over Low-power WPAN Working Group.192
14.3.2 The ROLL Working Group.193
14.4 Conclusions.198
CHAPTER 15 IPv6 for Smart Object Networks ? A Technology Refresher.199
15.1 IPv6 for Smart Object Networks?.199
15.2 The IPv6 Packet Headers.200
15.2.1 IPv6 Fixed Header.200
15.2.2 Extended Headers.201
15.2.3 The Hop-by-hop Option Header.202
15.2.4 The Routing Header.202
15.2.5 The Fragment Header.203
15.2.6 The Destination Option Header.205
15.2.7 The No Next Header.205
xii Contents
15.3 IPv6 Addressing Architecture.206
15.3.1 Notion of Unicast, Anycast, and Multicast.206
15.3.2 Representation of IPv6 Addresses.206
15.3.3 Unicast Addresses.207
15.3.4 Anycast Addresses.209
15.3.5 Multicast Addresses.210
15.4 The ICMP for IPv6.211
15.4.1 ICMPv6 Error Messages.212
15.4.2 ICMP Informational Messages.212
15.5 Neighbor Discovery Protocol.212
15.5.1 The Neighbor Solicitation Message.214
15.5.2 The NA Message.214
15.5.3 The Router Advertisement Messages.215
15.5.4 The Router Solicitation Message.218
15.5.5 The Redirect Message.219
15.5.6 Neighbor Unreachability Detection (NUD).219
15.6 Load Balancing.219
15.7 IPv6 Autoconfiguration.220
15.7.1 Building the Link-local Address.220
15.7.2 The Stateless Autoconfiguration Process.220
15.7.3 Privacy Extensions for Stateless Address Autoconfiguration in IPv6.223
15.8 DHCPv6.224
15.8.1 Stateful Autoconfiguration.224
15.8.2 Stateless DHCP.225
15.9 IPv6QoS.225
15.9.1 The Diffserv Model.225
15.9.2 The IntServ Model.226
15.10 IPv6 over an IPv4 Backbone Network.227
15.11 IPv6 Multicast.228
15.11.1 IPv6 Multicast Addressing.230
15.12 Conclusions.230
CHAPTER 16 The 6L0WPAN Adaptation Layer.231
16.1 Terminology.231
16.2 The 6L0WPAN Adaptation Layer.232
16.2.1 The Mesh Addressing Header.234
16.2.2 Fragmentation.237
16.2.3 6L0WPAN Header Compression.237
16.2.4 Stateless Configuration.249
16.3 Conclusions.250
CHAPTER 17 RPL Routing in Smart Object Networks.251
17.1 Introduction.251
17.2 What Is a Low-power and Lossy Network?.251
17.3 Routing Requirements.252
Contents xiii
17.4 Routing Metrics in Smart Object Networks.255
17.4.1 Aggregated Versus Recorded Routing Metrics.256
17.4.2 Local Versus Global Metrics.256
17.4.3 The Routing Metrics/Constraints Common Header.256
17.4.4 The Node State and Attributes Object.256
17.4.5 Node Energy Object.257
17.4.6 Hop-count Object.257
17.4.7 Throughput Object.257
17.4.8 Latency Object.257
17.4.9 Link Reliability Object.257
17.4.10 Link Colors Attribute.258
17.5 The Objective Function.258
17.6 RPL: The New Routing Protocol for Smart Object Networks.259
17.6.1 Protocol Overview.259
17.6.2 Use of Multiple DODAG and the Concept of RPL Instance.263
17.6.3 RPL Messages.263
17.6.4 RPL DODAG Building Process.267
17.6.5 Movements of a Node Within and Between DODAGs.270
17.6.6 Populating the Routing Tables Along the DODAG Using
DAO Messages.271
17.6.7 Loop Avoidance and Loop Detection Mechanisms in RPL.273
17.6.8 Global and Local Repair.276
17.6.9 Routing Adjacency with RPL.280
17.6.10 RPL Timer Management.280
17.6.11 Simulation Results.282
17.7 Conclusions.287
CHAPTER 18 The IP for Smart Object Alliance.289
18.1 Mission and Objectives of the IPSO Alliance.289
18.2 IPSO Organization.291
18.3 A Key Activity of the IPSO Alliance: Interoperability Testing.292
18.4 Conclusions.294
CHAPTER 19 Non-IP Smart Object Technologies.295
19.1 ZigBee.295
19.1.1 ZigBee Device Types.2%
19.1.2 Layers in the ZigBee Stack.297
19.1.3 PHY and MAC Layers.298
19.1.4 NWK.298
19.1.5 APS Sublayer.299
19.1.6 AF.299
19.1.7 Network Setup.300
19.1.8 ZigBee Is Migrating to IP.301
xiv Contents
19.2 Z-Wave.301
19.3 Conclusions.302
PART 3 THE APPLICATIONS_
CHAPTER 20 Smart Grid.305
20.1 Introduction.305
20.1.1 How Can We Define the Smart Grid?.308
20.2 Terminology.309
20.3 Core Grid Network Monitoring and Control.310
20.3.1 Use Case 1: Secondary Substation Monitoring and Control.310
20.3.2 Use Case 2: Substation CBM.311
20.3.3 Use Case 3: Line Dynamic Rating.312
20.3.4 Technical Characteristics and Challenges.313
20.4 Smart Metering (NAN).316
20.4.1 Applications and Use Cases.316
20.4.2 Technical Challenges and Network Characteristics.317
20.5 HAN.319
20.5.1 Applications and Use Cases.319
20.5.2 Technical Challenges and Network Characteristics.322
20.5.3 Summary of the Technical Challenges.323
20.6 Conclusions.323
CHAPTER 21 Industrial Automation.325
21.1 Opportunities.325
21.2 Challenges.327
21.3 Use Cases.329
21.3.1 Condition Monitoring.329
21.3.2 Wireless Control.330
21.3.3 Mobile Workforce.331
21.4 Conclusions.333
CHAPTER 22 Smart Cities and Urban Networks.335
22.1 Introduction.335
22.2 Urban Environmental Monitoring.336
22.2.1 Urban Ecosystem Monitoring.336
22.2.2 Natural Hazards Monitoring and Early Detection.338
22.2.3 Technical Characteristics and Challenges.340
22.3 Social Networks.342
22.3.1 Extension of Web-based SNSs.342
22.3.2 Monitoring the ederly and Kids.344
22.3.3 Technical Characteristics and Challenges.345
Contents xv
22.4 Intelligent Transport Systems.346
22.4.1 Traffic Monitoring and Controlling.347
22.4.2 Automatic Charging and Fining.349
22.4.3 Technical Characteristics and Challenges.350
22.5 Conclusions.351
CHAPTER 23 Home Automation.353
23.1 Introduction.353
23.2 Main Applications and Use Cases.354
23.2.1 Lighting Control.354
23.2.2 Safety and Security.355
23.2.3 Comfort and Convenience.355
23.2.4 Energy Management.356
23.2.5 Remote Home Management.356
23.2.6 Aging Independently and Assisted Living.357
23.3 Technical Challenges and Network Characteristics.357
23.3.1 Type of Topology and Traffic Matrix.357
23.3.2 Number of Devices.358
23.3.3 Degree of Mobility.358
23.3.4 Robustness and Reliability.358
23.3.5 Requirements for Quality of Service.358
23.3.6 Battery Operation.359
23.3.7 Operating Environment.359
23.3.8 Security.359
23.3.9 Ease of Installation and Setup.360
23.4 Conclusions.360
CHAPTER 24 Building Automation.361
24.1 BAS Reference Model.362
24.2 Emerging Building Automation Applications.363
24.2.1 Occupancy and Shutdown.363
24.2.2 Energy Management.364
24.2.3 Demand Response.364
24.2.4 Fire and Smoke Abatement.364
24.2.5 Evacuation.365
24.3 Existing Building Automation Systems.365
24.3.1 Existing Control Protocols.367
24.4 Building Automation Sensors and Actuator Characteristics.368
24.4.1 Area Control.368
24.4.2 Zone Control.369
24.4.3 Building Control.370
24.5 Emerging Smart-Object-based BAS.371
24.5.1 Emerging Sensors, Actuators, and Protocols.371
24.5.2 IP-based Enterprise Protocols.371
24.6 Conclusions.372
xvi Contents
CHAPTER 25 Structural Health Monitoring.373
25.1 Introduction.373
25.2 Main Applications and Use Case.375
25.3 Technical Challenges.376
25.3.1 Autoconfiguration.377
25.3.2 Multicast Support.377
25.3.3 Routing.377
25.3.4 Network Topology.378
25.3.5 Network Scalability.378
25.3.6 Degree of Mobility.378
25.3.7 Link and Device Characteristics.378
25.3.8 Traffic Profile.378
25.3.9 Quality of Service.378
25.3.10 Security.379
25.3.11 Deployment Environment.379
25.4 Data Acquisition and Analysis.379
25.5 Future Applications and Outlook.380
25.6 Conclusions.380
CHAPTER 26 Container Tracking.381
26.1 GE CommerceGuard.382
26.2 IBM Secure Trade Lane.384
26.3 Conclusions.385
References.387
Index.399 |
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| author | Vasseur, Jean-Philippe Dunkels, Adam |
| author_facet | Vasseur, Jean-Philippe Dunkels, Adam |
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| id | DE-604.BV036585563 |
| illustrated | Illustrated |
| indexdate | 2024-07-20T09:02:50Z |
| institution | BVB |
| isbn | 9780123751652 0123751659 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-020506377 |
| oclc_num | 699527585 |
| open_access_boolean | |
| owner | DE-634 DE-Aug4 DE-91 DE-BY-TUM DE-29T DE-522 |
| owner_facet | DE-634 DE-Aug4 DE-91 DE-BY-TUM DE-29T DE-522 |
| physical | XXIV, 407 S. Ill., graph. Darst. 24 cm |
| publishDate | 2010 |
| publishDateSearch | 2010 |
| publishDateSort | 2010 |
| publisher | Elsevier [u.a.] |
| record_format | marc |
| spelling | Vasseur, Jean-Philippe Verfasser aut Interconnecting smart objects with IP the next Internet Jean-Philippe Vasseur ; Adam Dunkels Amsterdam [u.a.] Elsevier [u.a.] 2010 XXIV, 407 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier TCP/IP (DE-588)4197538-8 gnd rswk-swf Smart Device (DE-588)7525182-6 gnd rswk-swf Ubiquitous Computing (DE-588)4657367-7 gnd rswk-swf Ubiquitous computing Embedded Internet devices Ad hoc networks (Computer networks) TCP/IP (Computer network protocol) Automatic control Ambient intelligence Smart Device (DE-588)7525182-6 s Ubiquitous Computing (DE-588)4657367-7 s TCP/IP (DE-588)4197538-8 s DE-604 Dunkels, Adam Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020506377&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Vasseur, Jean-Philippe Dunkels, Adam Interconnecting smart objects with IP the next Internet TCP/IP (DE-588)4197538-8 gnd Smart Device (DE-588)7525182-6 gnd Ubiquitous Computing (DE-588)4657367-7 gnd |
| subject_GND | (DE-588)4197538-8 (DE-588)7525182-6 (DE-588)4657367-7 |
| title | Interconnecting smart objects with IP the next Internet |
| title_auth | Interconnecting smart objects with IP the next Internet |
| title_exact_search | Interconnecting smart objects with IP the next Internet |
| title_full | Interconnecting smart objects with IP the next Internet Jean-Philippe Vasseur ; Adam Dunkels |
| title_fullStr | Interconnecting smart objects with IP the next Internet Jean-Philippe Vasseur ; Adam Dunkels |
| title_full_unstemmed | Interconnecting smart objects with IP the next Internet Jean-Philippe Vasseur ; Adam Dunkels |
| title_short | Interconnecting smart objects with IP |
| title_sort | interconnecting smart objects with ip the next internet |
| title_sub | the next Internet |
| topic | TCP/IP (DE-588)4197538-8 gnd Smart Device (DE-588)7525182-6 gnd Ubiquitous Computing (DE-588)4657367-7 gnd |
| topic_facet | TCP/IP Smart Device Ubiquitous Computing |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020506377&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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