Chichester, West Sussex, United Kingdom : , : IEEE, Wiley, , 2015

[Piscataqay, New Jersey] : , : IEEE Xplore, , [2015]

1-118-91371-X

1-118-91373-6

1 online resource (307 p.)

TEC061000

WuKwok

004.67/8

Embedded Internet devices

Internet of things

Inglese

Description based upon print version of record.

Includes bibliographical references at the end of each chapters and index.

Machine generated contents note: Contents Forward Preface 1 -- INTRODUCTIONS AND MOTIVATION 1.1 Introduction 1.2 The book 1.2.1 Objectives 1.2.2 Benefits 1.2.3 Organization 1.2.4 Book Cover 1.2.5 Impact of C-IoT 1.2.6 Summary 1.3 C-IoT Terms of References 1.3.1 Introduction 1.3.2 Need for IoT Framework 1.3.3 C-IoT Domains and Business Apps Model 1.3.4 C-IoT Roadmap 1.3.5 C-IoT Platform and Developer Community 1.3.6 C-IoT Opportunities for Business apps, solutions and systems 1.4 The Future 1.4.1 General Trends 1.4.2 Point Solutions 1.4.3 Collaborative IoT 1.4.4 C-IoT and RFID 1.4.5 C-IoT and Nanotechnology 1.4.6 Cyber-Collaborative IoT (C2-IoT) 1.4.7 C2-IoT and EBOLA Case 1.4.8 Summary 2 -- APPLICATION REQUIREMENTS 2.1 C-IOT Landscape 2.1.1 C-IoT Model and Architecture Layers 2.1.2 C-IoT Model and Enabling Technologies 2.1.3 Definition of key elements 2.1.4 Requirement Considerations 2.1.5 C-IoT System Solution - Requirement Considerations 2.2 Applications Requirement - Use Cases 2.3 Health & Fitness (Lead Example) 2.3.1 Landscape 2.3.2 Health & Fitness - Sensing Requirements 2.3.3 Health & Fitness - Gateway Requirements 2.3.4 Health & Fitness - Service Requirements 2.3.5 Health & Fitness - Solution Considerations 2.3.6 Health & Fitness - System Considerations 2.3.7 Health & Fitness and

Hospitals 2.4 Video Surveillance 2.4.1 Landscape 2.4.2 Video Surveillance - Across Home, Industry and Infrastructure 2.4.3 Video Surveillance - Sensing Requirements 2.4.4 Video Surveillance - Gateway Requirements 2.4.5 Video Surveillance - Services 2.4.6 Example: Red Light Camera - Photo Enforcement Camera 2.4.7 Conclusion 2.5 Smart Home & Building 2.5.1 Landscape 2.5.2 Requirement 2.5.3 Home - Sensing Requirements 2.5.4 Home - Gateway Requirements 2.5.5 Home - Services 2.6 Smart Energy 2.6.1 Landscape 2.6.2 Requirements 2.6.3 Smart Energy - Sensing Requirements 2.6.4 Smart Energy - Gateway Requirements 2.6.5 Smart Energy - Services 2.6.6 The Smart Energy App 2.6.7 Smart Energy and Network Security 2.7 Track & Monitor 2.7.1 Landscape 2.7.2 Track & Monitory - Sensing Requirements 2.7.3 Track & Monitor - Services 2.7.4 Track & Monitor - Solution Considerations 2.7.5 Track & Monitor - Examples 2.8 Smart Factory/Manufacturing 2.8.1 Factory Automation - Robot 2.8.2 Caregiver and Robot 2.8.3 Industrial Robot 2.9 Others: Smart Car, Smart Truck and Smart City 2.9.1 Smart Car 2.9.2 Smart Roadside 2.9.3 Drone 2.9.4 Machine Vision 2.9.5 Smart City 3 -- C-IOT APPLICATIONS AND SERVICES 3.1 Smart IoT Application Use Cases 3.1.1 Health monitoring - Individual level (Fitness/Health Tracking wearables) 3.1.2 Health Monitoring at Business level (used in clinic) 3.1.3 Home and Building Automation - Individual level (Smart Home) 3.1.3.1 Smart Thermostat (Smart Energy Management) 3.1.3.2 Smart Smoke Alarm (Safety) 3.1.3.3 Smart IP Camera for Video Surveillance (Security) 3.1.3.4 Smart Service Robots at Consumer level - Roombas iRobot 3.1.3.5 Smart Home Gateway (Scalable for Smart Building Automation) 3.1.3.6 Smart Building Automation 3.1.4 Smart Energy and Smart Grid 3.1.5 Smart Energy Gateways 3.1.6 Industrial and Factory Automation 3.1.7 Smart Transportation & Fleet Logistics (Connected Cars - V2X: V2V, V2I) 3.1.8 Smart City 3.2 Smart IoT Platform 3.2.2 Smart IoT Software Gateway Platform 3.2.3 Smart Sensor Fusion Platform 3.3 Secured C-IoT Software Platform 3.3.1 C-IoT Security - Example on Smart Energy 3.3.2 Securing NAN (Metrology-to-Concentrator) 3.3.3 Securing Home Area Network (HAN) 3.3.4 Securing WAN (Concentrator-to-Sub Station/Utility Servers) 3.3.5 Platform Solution for Concentrator 3.3.6 Platform Solution for Sub Station/Utility Servers 3.3.7 Network Topology and IP Addressing: WAN 3.3.8 Security on the Concentrator and Utility Servers 3.3.9 Summary on C-IoT Security 4 -- IOT REFERENCE DESIGN KIT 5 -- C-IOT CLOUD-BASED SERVICES AND END DEVICE DIVERSIITY 5.1 C-IoT Cloud Based Services 5.1.1 Introduction and Drivers to C-IoT Service Platform 5.1.2 Classes of C-IoT Cloud Computing 5.1.3 C-IoT Innovative and Collaborative Services 5.1.4 The Emerging Data Centre LAN 5.2 C-IoT User Device Diversity 5.2.1 Introduction 5.2.2 C-IoT Developers/Platform 5.2.3 Wearable Devices - Individual 5.2.4 Harvesting (Self-powered nodes) - Infrastructure Applications 5.2.5 Embedded Devices and Servers 5.2.6 Performing Sentiment Analysis Using Big Data 5.2.7 Far-Reaching Consequence 5.2.8 Collaboration 6 -- IMPACT OF C-IOT AND TIPS 6.1 Impact on Business Process Productivity and Smart of Digital Life 6.1.1 Individual 6.1.2 Industry 6.1.3 Infrastructure 6.2 Considerations of developing Differentiated C-IoT Solutions 6.2.1 Software Processes and Platform 6.2.3 Standardization 6.2.4 Advertising Ecosystem Value Exchange 6.2.5 Opportunity with Industry Supply Chain for Material Handling 6.3 Practical Tips in maintaining Digital Life Style 6.3.1 Mobile and Wearable Computing 6.3.2 Robotics and Automation 6.3.3 Sensors and C-IoT 6.3.4 BIG Data and Predictive Analysis 6.3.5 The Changing Workforce 6.3.6 Sustainability 7 -- CONCLUSION 7.1 Simple C-IoT Domains and Model 7.2 Disruptive Business Applications of C-IoT 7.3 A

New LifeStyle 7.4 Development Platform 7.5 C-IoT emerging Standards, Consortiums and other Initiatives 7.5.1 C-IoT Emerging Standards 7.5.2 C-IoT Emerging Consortiums 7.5.3 Forums, Workshops, and other Initiatives 7.5.4 C-IoT and Radio Communications 7.5.5 C-IoT and Nanotechnology 7.5.6 C-IoT and Security 7.6 Final Note References About the Authors Index .

"Provides a simplified visionary approach about the future direction of IoT, addressing its wide-scale adoption in many markets, its interception with advanced technology, the explosive growth in data, and the emergence of data analytics"--

Hoboken, New Jersey, : Wiley, 2012

1-283-60396-9

1-118-43596-6

9786613916419

1-118-43593-1

1 online resource (432 p.)

Wiley series on information and communication technology ; ; 95

TEC007000

621.39/81

Ethernet (Local area network system)

Local area networks (Computer networks)

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Networks and Services; Contents; Foreword; Preface; 1 Introduction and Overview; 1.1 Introduction; 1.2 Basic Ethernet; 1.3 Synchronization; 1.4 Pseudowires; 1.5 Protection; 1.6 Carrier Ethernet Architecture and Services; 1.7 Carrier Ethernet Traffic Management; 1.8 Ethernet Operations, Administrations, and Maintenance (OAM); 1.9 Circuit Emulation; 1.10 Ethernet Local Management Interface (ELMI); 1.11 PBT; 1.12 T-MPLS and MPLS-TP; 1.13 Virtual Private LAN Services (VPLS); 2

Basic Ethernet; 2.1 Introduction; 2.2 CSMA/CD; 2.3 Full Duplex, Pause, Autonegotiation; 2.4 Repeaters and Hubs

2.5 Bridges2.6 Switches; 2.7 Physical Layer; 2.8 Temperature Hardening; 2.9 Standards; 2.10 Ethernet Frame Types and the Ethertype Field; 2.11 Conclusion; References; 3 Synchronization; 3.1 Introduction; 3.2 Application Requirements; 3.3 Synchronization Standards; 3.4 NTP/SNTP; 3.5 Precision Time Protocol (IEEE 1588); 3.6 Synchronous-Ethernet Networks (SyncE); 3.7 Conclusion; References; 4 Pseudowires; 4.1 Introduction; 4.2 Protocol Layers; 4.3 Payload Types; 4.4 Pseudowire Architecture; 4.5 Control Plane; 4.6 Multisegment Architecture; 4.7 Multisegment Pseudowire Setup Mechanisms

4.8 Resiliency4.9 Quality of Service and Congestion Control; 4.10 Operations and Maintenance (OAM); 4.11 Security; 4.12 Conclusion; References; 5 Ethernet Protection; 5.1 Introduction; 5.2 Automatic Protection Switching (APS) Entities; 5.3 Linear Protection; 5.4 Ring Protection; 5.5 Link Aggregation; 5.6 Conclusion; References; 6 Carrier Ethernet Architectures and Services; 6.1 Introduction; 6.2 Standards; 6.3 Architecture; 6.4 Interfaces; 6.5 Services; 6.6 Conclusion; References; 7 Carrier Ethernet Traffic Management; 7.1 Introduction; 7.2 Policing; 7.3 Queuing, Scheduling, and Flow Control

7.4 Three CoS Model7.5 SLAs (Service-Level Agreements); 7.6 SLAs; 7.7 Application-CoS-Priority Mapping; 7.8 Bandwidth Profile; 7.9 Conclusion; References; 8 Carrier Ethernet OAM&P (Operations, Administration, Management, and Performance); 8.1 Introduction; 8.2 Link OAM; 8.3 Service OAM; 8.4 Maintenance Entities; 8.5 Maintenance Points; 8.6 OAM Addressing and Frame Format; 8.7 Continuity Check Message (CCM); 8.8 Loopback and Reply Messages (LBM and LBR); 8.9 Link Trace and Reply Messages (LTM and LTR); 8.10 Ethernet Alarm Indication Signal (ETH-AIS)

8.11 Ethernet Remote Defective Indication (ETH-RDI)8.12 Ethernet Locked Signal (ETH-LCK); 8.13 Performance Measurements; 8.14 Performance Monitoring; 8.15 Loss Measurements; 8.16 Availability; 8.17 Frame Delay Measurements; 8.18 Interframe Delay Variation (IFDV) Measurements; 8.19 Testing; 8.20 Security; 8.21 OAM Bandwidth; 8.22 Conclusion; References; 9 Circuit Emulation Services (CES); 9.1 Introduction; 9.2 Circuit Emulation Functions; 9.3 Adaptation Function Headers; 9.4 Synchronization; 9.5 TDM Application Signaling; 9.6 CESoETH Defects and Alarms; 9.7 Performance Monitoring of CESoETH

9.8 CESoETH Service Configuration

This book provides a comprehensive understanding of current and debated future networking technologies. It gives insight into building end-to-end networks and services with Carrier Ethernet, PBT, MPLS-TP, and VPLS while also shedding light on the pros and cons of these technologies for service providers and enterprise network owners.  Focusing on layer-2 networking and services, Networks and Services covers:The basics of Ethernet such as protocol stack, bridges, switches, and hubsKey techniques that are being used in building carrier-class Carrier Ethernet netwo