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M2M communications : a systems approach / / editors, David Boswarthick, Omar Elloumi, Olivier Hersent
| M2M communications : a systems approach / / editors, David Boswarthick, Omar Elloumi, Olivier Hersent |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. : , : Wiley, , 2012 |
| Descrizione fisica | 1 online resource (334 p.) |
| Disciplina | 621.39/8 |
| Altri autori (Persone) |
BoswarthickDavid
ElloumiOmar HersentOlivier |
| Soggetto topico | Machine-to-machine communications |
| ISBN |
1-280-58851-9
9786613618344 1-119-97403-8 1-119-97404-6 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword -- List of Contributors -- List of Acronyms -- 1 Introduction to M2M -- 1.1 What is M2M? -- 1.2 The Business of M2M -- 1.3 Accelerating M2M Maturity -- 1.3.1 High-Level M2M Frameworks -- 1.3.2 Policy and Government Incentives -- 1.4 M2M Standards -- 1.4.1 Which Standards for M2M? -- 1.5 Roadmap of the Book -- References -- Part I M2M CURRENT LANDSCAPE -- 2 The Business of M2M -- 2.1 The M2M Market -- 2.1.1 Healthcare -- 2.1.2 Transportation -- 2.1.3 Energy -- 2.2 The M2M Market Adoption: Drivers and Barriers -- 2.3 The M2M Value Chain -- 2.4 Market Size Projections -- 2.5 Business Models -- 2.5.1 Network Operator- or CSP-Led Model -- 2.5.2 MVNO-Led Model -- 2.5.3 Corporate Customer-Led Model -- 2.6 M2M Business Metrics -- 2.7 Market Evolution -- Reference -- 3 Lessons Learned from Early M2M Deployments -- 3.1 Introduction -- 3.2 Early M2M Operational Deployments -- 3.2.1 Introduction -- 3.2.2 Early M2M Operational Deployment Examples -- 3.2.3 Common Questions in Early M2M Deployments -- 3.2.4 Possible Optimization of M2M Deployments -- 3.3 Chapter Conclusion -- Reference -- Part II M2M ARCHITECTURE AND PROTOCOLS -- 4 M2M Requirements and High-Level Architectural Principles -- 4.1 Introduction -- 4.2 Use-Case-Driven Approach to M2M Requirements -- 4.2.1 What is a Use Case? -- 4.2.2 ETSI M2M Work on Use Cases -- 4.2.3 Methodology for Developing Use Cases -- 4.3 Smart Metering Approach in ETSI M2M -- 4.3.1 Introduction -- 4.3.2 Typical Smart Metering Deployment Scenario -- 4.4 eHealth Approach in ETSI M2M -- 4.4.1 Introduction -- 4.5 ETSI M2M Service Requirements: High-Level Summary and Applicability to Different Market Segments -- 4.6 Traffic Models-/Characteristics-Approach to M2M Requirements and Considerations for Network Architecture Design -- 4.6.1 Why Focus on Wireless Networks? -- 4.7 Description of M2M Market Segments/Applications -- 4.7.1 Automotive -- 4.7.2 Smart Telemetry -- 4.7.3 Surveillance and Security -- 4.7.4 Point of Sale (PoS) -- 4.7.5 Vending Machines.
4.7.6 eHealth -- 4.7.7 Live Video -- 4.7.8 Building Automation -- 4.7.9 M2M Industrial Automation -- 4.8 M2M Traffic Characterization -- 4.8.1 Detailed Traffic Characterization for Smart Metering -- 4.8.2 Global Traffic Characterization -- 4.9 High-Level Architecture Principles for M2M Communications -- 4.10 Chapter Conclusions -- References -- 5 ETSI M2M Services Architecture -- 5.1 Introduction -- 5.2 High-Level System Architecture -- 5.3 ETSI TC M2M Service Capabilities Framework -- 5.4 ETSI TC M2M Release 1 Scenarios -- 5.5 ETSI M2M Service Capabilities -- 5.5.1 Reachability, Addressing, and Repository Capability (xRAR) -- 5.5.2 Remote Entity Management Capability (x REM) -- 5.5.3 Security Capability (xSEC) -- 5.6 Introducing REST Architectural Style for M2M -- 5.6.1 Introduction to REST -- 5.6.2 Why REST for M2M? -- 5.6.3 REST Basics -- 5.6.4 Applying REST to M2M -- 5.6.5 Additional Functionalities -- 5.7 ETSI TC M2M Resource-Based M2M Communication and Procedures -- 5.7.1 Introduction -- 5.7.2 Definitions Used in this Section -- 5.7.3 Resource Structure -- 5.7.4 Interface Procedures -- 5.8 Chapter Conclusion -- References -- 6 M2M Optimizations in Public Mobile Networks -- 6.1 Chapter Overview -- 6.2 M2M over a Telecommunications Network -- 6.2.1 Introduction -- 6.2.2 M2M Communication Scenarios -- 6.2.3 Mobile or Fixed Networks -- 6.2.4 Data Connections for M2M Applications -- 6.3 Network Optimizations for M2M -- 6.3.1 Introduction -- 6.3.2 3GPP Standardization of Network Improvements for Machine Type Communications -- 6.3.3 Cost Reduction -- 6.3.4 M2M Value-Added Services -- 6.3.5 Numbering, Identifiers, and Addressing -- 6.3.6 Triggering Optimizations -- 6.3.7 Overload and Congestion Control -- References -- 7 The Role of IP in M2M -- 7.1 Introduction -- 7.1.1 IPv6 in Brief -- 7.1.2 Neighbor Discovery Protocol -- 7.2 IPv6 for M2M -- 7.3 6LoWPAN -- 7.3.1 Framework -- 7.3.2 Header Compression -- 7.3.3 Neighbor Discovery -- 7.4 Routing Protocol for Low-Power and Lossy Networks (RPL). 7.4.1 RPL Topology -- 7.5 CoRE -- 7.5.1 Message Formats -- 7.5.2 Transport Protocol -- 7.5.3 REST Architecture -- References -- 8 M2M Security -- 8.1 Introduction -- 8.1.1 Security Characteristics of Cellular M2M -- 8.2 Trust Relationships in the M2M Ecosystem -- 8.3 Security Requirements -- 8.3.1 Customer/M2M Device User -- 8.3.2 Access Network Provider -- 8.3.3 M2M Service Provider -- 8.3.4 Application Provider -- 8.3.5 Bootstrapping Requirements -- 8.4 Which Types of Solutions are Suitable? -- 8.4.1 Approaches Against Hijacking -- 8.4.2 Public Key Solutions -- 8.4.3 Smart Card-Based Solutions -- 8.4.4 Methods Based on Pre-Provisioned Symmetric Keys -- 8.4.5 Protocol for Automated Bootstrapping Based on Identity-Based Encryption -- 8.4.6 Security for Groups of M2M Devices -- 8.5 Standardization Efforts on Securing M2M and MTC Communications -- 8.5.1 ETSI M2M Security -- 8.5.2 3GPP Security Related to Network Improvements for Machine Type Communications -- References -- 9 M2M Terminals and Modules -- 9.1 M2M Module Categorization -- 9.1.1 Access Technology -- 9.1.2 Physical Form Factors -- 9.2 Hardware Interfaces -- 9.2.1 Power Interface -- 9.2.2 USB (Universal Serial Bus) Interface -- 9.2.3 UART (Universal Asynchronous Receiver/ Transmitter) Interface -- 9.2.4 Antenna Interface -- 9.2.5 UICC (Universal Integrated Circuit Card) Interface -- 9.2.6 GPIO (General-Purpose Input/Output Port) Interface -- 9.2.7 SPI (Serial Peripheral Interface) Interface -- 9.2.8 I2C (Inter-Integrated Circuit Bus) Interface -- 9.2.9 ADC (Analog-to-Digital Converter) Interface -- 9.2.10 PCM (Pulse Code Modulation) Interface -- 9.2.11 PWM (Pulse Width Modulation) Interface -- 9.2.12 Analog Audio Interface -- 9.3 Temperature and Durability -- 9.4 Services -- 9.4.1 Application Execution Environment -- 9.4.2 Connectivity Services -- 9.4.3 Management Services -- 9.4.4 Application Services -- 9.5 Software Interface -- 9.5.1 AT Commands -- 9.5.2 SDK Interface -- 9.6 Cellular Certification -- 9.6.1 Telecom Industry Certification. 9.6.2 MNO Certification -- 10 Smart Cards in M2M Communication -- 10.1 Introduction -- 10.2 Security and Privacy Issues in M2M Communication -- 10.3 The Grounds for Hardware-Based Security Solutions -- 10.4 Independent Secure Elements and Trusted Environments -- 10.4.1 Trusted Environments in M2M Devices -- 10.4.2 Trusting Unknown Devices: The Need for Security Certification -- 10.4.3 Advantages of the Smart Card Model -- 10.5 Specific Smart Card Properties for M2M Environments -- 10.5.1 Removable Smart Cards versus Embedded Secure Elements -- 10.5.2 UICC Resistance to Environmental Constraints -- 10.5.3 Adapting the Card Application Toolkit to Unattended Devices -- 10.5.4 Reaching UICC Peripheral Devices with Toolkit Commands -- 10.5.5 Confidential Remote Management of Third-Party Applications -- 10.6 Smart Card Future Evolutions in M2M Environments -- 10.6.1 UICC-Based M2M Service Identity Module Application -- 10.6.2 Internet Protocol Integration of the UICC -- 10.7 Remote Administration of M2M Secure Elements -- 10.7.1 Overview -- 10.7.2 Late Personalization of Subscription -- 10.7.3 Remote Management of Subscriptions on the Field -- References -- Part III BOOK CONCLUSIONS AND FUTURE VISION -- 11 Conclusions -- Index. |
| Record Nr. | UNINA-9910141291603321 |
| Chichester, West Sussex, U.K. : , : Wiley, , 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
M2M communications : a systems approach / / editors, David Boswarthick, Omar Elloumi, Olivier Hersent
| M2M communications : a systems approach / / editors, David Boswarthick, Omar Elloumi, Olivier Hersent |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. : , : Wiley, , 2012 |
| Descrizione fisica | 1 online resource (334 p.) |
| Disciplina | 621.39/8 |
| Altri autori (Persone) |
BoswarthickDavid
ElloumiOmar HersentOlivier |
| Soggetto topico | Machine-to-machine communications |
| ISBN |
1-280-58851-9
9786613618344 1-119-97403-8 1-119-97404-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword -- List of Contributors -- List of Acronyms -- 1 Introduction to M2M -- 1.1 What is M2M? -- 1.2 The Business of M2M -- 1.3 Accelerating M2M Maturity -- 1.3.1 High-Level M2M Frameworks -- 1.3.2 Policy and Government Incentives -- 1.4 M2M Standards -- 1.4.1 Which Standards for M2M? -- 1.5 Roadmap of the Book -- References -- Part I M2M CURRENT LANDSCAPE -- 2 The Business of M2M -- 2.1 The M2M Market -- 2.1.1 Healthcare -- 2.1.2 Transportation -- 2.1.3 Energy -- 2.2 The M2M Market Adoption: Drivers and Barriers -- 2.3 The M2M Value Chain -- 2.4 Market Size Projections -- 2.5 Business Models -- 2.5.1 Network Operator- or CSP-Led Model -- 2.5.2 MVNO-Led Model -- 2.5.3 Corporate Customer-Led Model -- 2.6 M2M Business Metrics -- 2.7 Market Evolution -- Reference -- 3 Lessons Learned from Early M2M Deployments -- 3.1 Introduction -- 3.2 Early M2M Operational Deployments -- 3.2.1 Introduction -- 3.2.2 Early M2M Operational Deployment Examples -- 3.2.3 Common Questions in Early M2M Deployments -- 3.2.4 Possible Optimization of M2M Deployments -- 3.3 Chapter Conclusion -- Reference -- Part II M2M ARCHITECTURE AND PROTOCOLS -- 4 M2M Requirements and High-Level Architectural Principles -- 4.1 Introduction -- 4.2 Use-Case-Driven Approach to M2M Requirements -- 4.2.1 What is a Use Case? -- 4.2.2 ETSI M2M Work on Use Cases -- 4.2.3 Methodology for Developing Use Cases -- 4.3 Smart Metering Approach in ETSI M2M -- 4.3.1 Introduction -- 4.3.2 Typical Smart Metering Deployment Scenario -- 4.4 eHealth Approach in ETSI M2M -- 4.4.1 Introduction -- 4.5 ETSI M2M Service Requirements: High-Level Summary and Applicability to Different Market Segments -- 4.6 Traffic Models-/Characteristics-Approach to M2M Requirements and Considerations for Network Architecture Design -- 4.6.1 Why Focus on Wireless Networks? -- 4.7 Description of M2M Market Segments/Applications -- 4.7.1 Automotive -- 4.7.2 Smart Telemetry -- 4.7.3 Surveillance and Security -- 4.7.4 Point of Sale (PoS) -- 4.7.5 Vending Machines.
4.7.6 eHealth -- 4.7.7 Live Video -- 4.7.8 Building Automation -- 4.7.9 M2M Industrial Automation -- 4.8 M2M Traffic Characterization -- 4.8.1 Detailed Traffic Characterization for Smart Metering -- 4.8.2 Global Traffic Characterization -- 4.9 High-Level Architecture Principles for M2M Communications -- 4.10 Chapter Conclusions -- References -- 5 ETSI M2M Services Architecture -- 5.1 Introduction -- 5.2 High-Level System Architecture -- 5.3 ETSI TC M2M Service Capabilities Framework -- 5.4 ETSI TC M2M Release 1 Scenarios -- 5.5 ETSI M2M Service Capabilities -- 5.5.1 Reachability, Addressing, and Repository Capability (xRAR) -- 5.5.2 Remote Entity Management Capability (x REM) -- 5.5.3 Security Capability (xSEC) -- 5.6 Introducing REST Architectural Style for M2M -- 5.6.1 Introduction to REST -- 5.6.2 Why REST for M2M? -- 5.6.3 REST Basics -- 5.6.4 Applying REST to M2M -- 5.6.5 Additional Functionalities -- 5.7 ETSI TC M2M Resource-Based M2M Communication and Procedures -- 5.7.1 Introduction -- 5.7.2 Definitions Used in this Section -- 5.7.3 Resource Structure -- 5.7.4 Interface Procedures -- 5.8 Chapter Conclusion -- References -- 6 M2M Optimizations in Public Mobile Networks -- 6.1 Chapter Overview -- 6.2 M2M over a Telecommunications Network -- 6.2.1 Introduction -- 6.2.2 M2M Communication Scenarios -- 6.2.3 Mobile or Fixed Networks -- 6.2.4 Data Connections for M2M Applications -- 6.3 Network Optimizations for M2M -- 6.3.1 Introduction -- 6.3.2 3GPP Standardization of Network Improvements for Machine Type Communications -- 6.3.3 Cost Reduction -- 6.3.4 M2M Value-Added Services -- 6.3.5 Numbering, Identifiers, and Addressing -- 6.3.6 Triggering Optimizations -- 6.3.7 Overload and Congestion Control -- References -- 7 The Role of IP in M2M -- 7.1 Introduction -- 7.1.1 IPv6 in Brief -- 7.1.2 Neighbor Discovery Protocol -- 7.2 IPv6 for M2M -- 7.3 6LoWPAN -- 7.3.1 Framework -- 7.3.2 Header Compression -- 7.3.3 Neighbor Discovery -- 7.4 Routing Protocol for Low-Power and Lossy Networks (RPL). 7.4.1 RPL Topology -- 7.5 CoRE -- 7.5.1 Message Formats -- 7.5.2 Transport Protocol -- 7.5.3 REST Architecture -- References -- 8 M2M Security -- 8.1 Introduction -- 8.1.1 Security Characteristics of Cellular M2M -- 8.2 Trust Relationships in the M2M Ecosystem -- 8.3 Security Requirements -- 8.3.1 Customer/M2M Device User -- 8.3.2 Access Network Provider -- 8.3.3 M2M Service Provider -- 8.3.4 Application Provider -- 8.3.5 Bootstrapping Requirements -- 8.4 Which Types of Solutions are Suitable? -- 8.4.1 Approaches Against Hijacking -- 8.4.2 Public Key Solutions -- 8.4.3 Smart Card-Based Solutions -- 8.4.4 Methods Based on Pre-Provisioned Symmetric Keys -- 8.4.5 Protocol for Automated Bootstrapping Based on Identity-Based Encryption -- 8.4.6 Security for Groups of M2M Devices -- 8.5 Standardization Efforts on Securing M2M and MTC Communications -- 8.5.1 ETSI M2M Security -- 8.5.2 3GPP Security Related to Network Improvements for Machine Type Communications -- References -- 9 M2M Terminals and Modules -- 9.1 M2M Module Categorization -- 9.1.1 Access Technology -- 9.1.2 Physical Form Factors -- 9.2 Hardware Interfaces -- 9.2.1 Power Interface -- 9.2.2 USB (Universal Serial Bus) Interface -- 9.2.3 UART (Universal Asynchronous Receiver/ Transmitter) Interface -- 9.2.4 Antenna Interface -- 9.2.5 UICC (Universal Integrated Circuit Card) Interface -- 9.2.6 GPIO (General-Purpose Input/Output Port) Interface -- 9.2.7 SPI (Serial Peripheral Interface) Interface -- 9.2.8 I2C (Inter-Integrated Circuit Bus) Interface -- 9.2.9 ADC (Analog-to-Digital Converter) Interface -- 9.2.10 PCM (Pulse Code Modulation) Interface -- 9.2.11 PWM (Pulse Width Modulation) Interface -- 9.2.12 Analog Audio Interface -- 9.3 Temperature and Durability -- 9.4 Services -- 9.4.1 Application Execution Environment -- 9.4.2 Connectivity Services -- 9.4.3 Management Services -- 9.4.4 Application Services -- 9.5 Software Interface -- 9.5.1 AT Commands -- 9.5.2 SDK Interface -- 9.6 Cellular Certification -- 9.6.1 Telecom Industry Certification. 9.6.2 MNO Certification -- 10 Smart Cards in M2M Communication -- 10.1 Introduction -- 10.2 Security and Privacy Issues in M2M Communication -- 10.3 The Grounds for Hardware-Based Security Solutions -- 10.4 Independent Secure Elements and Trusted Environments -- 10.4.1 Trusted Environments in M2M Devices -- 10.4.2 Trusting Unknown Devices: The Need for Security Certification -- 10.4.3 Advantages of the Smart Card Model -- 10.5 Specific Smart Card Properties for M2M Environments -- 10.5.1 Removable Smart Cards versus Embedded Secure Elements -- 10.5.2 UICC Resistance to Environmental Constraints -- 10.5.3 Adapting the Card Application Toolkit to Unattended Devices -- 10.5.4 Reaching UICC Peripheral Devices with Toolkit Commands -- 10.5.5 Confidential Remote Management of Third-Party Applications -- 10.6 Smart Card Future Evolutions in M2M Environments -- 10.6.1 UICC-Based M2M Service Identity Module Application -- 10.6.2 Internet Protocol Integration of the UICC -- 10.7 Remote Administration of M2M Secure Elements -- 10.7.1 Overview -- 10.7.2 Late Personalization of Subscription -- 10.7.3 Remote Management of Subscriptions on the Field -- References -- Part III BOOK CONCLUSIONS AND FUTURE VISION -- 11 Conclusions -- Index. |
| Record Nr. | UNINA-9910827010803321 |
| Chichester, West Sussex, U.K. : , : Wiley, , 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||