1Preface
1239.1 Introduction
21 The Internet of Things: An Architectural Perspective about the Future
1249.2 A Basic Idea about RFID
31.1 Introduction
1259.2.1 Readers
41.2 Definition and Function
1269.2.2 Signaling
51.3 Opportunities and Motivation
1279.2.3 Bulk Reading
61.4 Future Developments
1289.2.4 Miniaturization
71.5 A Multi-Disciplinary Architectural Approach to the future IoT
1299.3 Utility of RFID
81.6 References
1309.3.1 Commerce
92 The Idea of Man: A Cultivated and Instructed Approach to Computing Systems
1319.3.2 Retail
102.1 Introduction
1329.3.3 Control Accessibility
112.2 The Idea of Man
1339.3.4 Advertising
122.3 Internet of Things and their Relationship to Man
1349.3.5 Promotion Tracking
132.4 How is Internet of Things different from Artificial Intelligence?
1359.3.6 Logistics and Transportation
142.5 The Role of Artificial Intelligence in Internet of Things
1369.3.7 Infrastructure Protection and Management
152.6 Influence of Philosophy on Computer Science: Is it Possible?
1379.3.8 Passport
162.7 Power Relationship between Human Beings and Computer System
1389.3.9 Transportation Payments
172.8 Assemblage of Humans and Machines and their Relationship to Social Interaction
1399.4 RFID in other sectors
182.9 The Programmer’s Idea of Man and its Influence on Computing Systems
1409.4.1 Identification of Animal and implantation in Human
192.10 Methods and Complications in the Implementation of the Idea of Man in System Layout
1419.4.2 RFID in Several Institutions
202.11 Conclusion
1429.4.3 Libraries
212.12 References
1439.4.4 Museums
223 Creativity and Productivity in Smart Space through Internet
1449.4.5 Schools and Universities
233.1 Introduction
1459.4.6 Sports
243.1.1 Application of Internet to Gain Knowledge
1469.4.7 Complement to Barcode
253.1.2 Application of Internet to Increase the Scope of Business
1479.4.8 Waste Management
263.1.3 Application of Internet to Improve Communication
1489.4.9 Telemetry
273.1.4 Application of intErnet to enable Creativity and Innovation
1499.5 Standardization and Regulation
283.1.5 Application of Internet to Improve Registration and Transportation
1509.6 Issues and Concerns
293.2 Concept of DiY as a Network
1519.6.1 Data Flooding
303.2.1 Legal System of Democratic Network
1529.6.2 Security Concerns
313.2.2 Illegal System of Democratic Network
1539.7 Advantages of RFID along with IoT
323.3 Characteristics of DiY Networking
1549.8 References
333.3.1 Connecting the Society
15510 Internet of Things: Business Models
343.3.2 Informing the Society
15610.1 Introduction
353.3.3 Teaching and Serving the Society
15710.2 Business Model and their Innovation
363.3.4 Sharing Personalised Skills Economically
15810.2.1 What is a Business Model?
373.3.5 Recognition
15910.2.2 Innovation of Business Model
383.3.6 Enabling Creativity of the Society
16010.3 Creating the Value in Internet of Things
393.4 Applications of DiY
16110.3.1 The Laws of Information
403.4.1 Application of DiY in the Practice of Socio-Cultural Activities
16210.3.2 Internet of Things and Revenue Generation
413.4.2 Implementation of DiY in the Process of Creating Software Applications
16310.4 Business Model Scenes for IoT
423.4.3 Application of DiY in the ‘Smart Spaces’
16410.5 References
433.5 Introduction to creation of detectable smart space
16511 The Diy Smart Experience Project
443.6 Concept of creative participants in data transmission through interconnected system
16611.1 Introduction
453.6.1 Participant Enabling Concept I: Call-out IoT
16711.2 Evolution of DIY
463.6.2 Participant Enabling Concept II: Smart Objects IoT
16811.2.1 The Past of DIY
473.6.3 Participant Enabling Concept III: Phenomena or Event IoT
16911.2.2 The Possible Future of DIY
483.7 References
17011.3 Why are people building things?
494 End-User Participation and Toolkits
17111.4 Motivation of people as a driver
504.1 Internet and internet of things
17211.5 People Logics, Distinguishing Motivation Levels
514.2 Challenges and obstruction
17311.6 Eco-awareness theme in DiYSE
524.3 Inclination towards end-user participation
17411.6.1 DiY ‘Internet of Things’ Consumption of Energy
534.3.1 User-centered Design
17511.6.2 Engagement of Eco-aware Application
544.3.2 Participatory Designs
17611.6.3 Requirement
554.3.3 End user Programming
17711.6.4 Technologies and Standards Relevant to DiY Eco-awareness
564.3.4 Crowdsourcing
17811.7 DiY service creation framework: Middleware and sensor-actuator technologies
574.3.5 Living Labs
17911.7.1 Device Integration
584.4 Toolkits facilitating innovation
18011.7.2 Middleware Technologies Required for DiY IOT
594.5 Internet of Things Toolkits
18111.8 Semantic Interoperability as a prerequisite for DiY formation
604.5.1 Wiring
18211.8.1 Ontology
614.5.2 Arduino
18311.8.2 Methodologies in the Ontology Engineering
624.5.3 Lilypad
18411.8.3 Implications of Ontology Engineering
634.6 References
18511.9 The DiYSE service framework
645 Internet of Things to Web of Things: Pillars of Computer Architecture
18611.9.1 Contextualisation Layer
655.1 Introduction
18711.9.2 Composition and Exposition Layer of Service
665.2 Relationship between the IOT and WOT
18811.9.3 Execution Layer
675.3 Formation of Smart things based on RESTful Principles: 5.3.1 Operation in Uniform Interfaces
18911.9.4 Creation and Deployment of DiYSE Applications
685.4 Creating Network of Things
19011.10 Smart Spaces interactions, uses and creates
695.5 Devices which Restrict Web-connections
19111.10.1 Environment Configuration and Interaction of Service
705.6 Architecture of WOT or Web of Things
19211.10.2 Approach to Ecological Designing
715.7 Modified Version of WOT
19311.10.3 Architectural Support and Interaction Modeling
725.7.1 Real-time WOT
19411.10.4 Example Custom Methods for Interaction: Intelligent Devices
735.7.2 Run-time WOT
19511.10.5 Protocols of the Multimodel Middleware
745.8 Conclusion
19611.10.6 Decisive Example: Simple Interaction between Smart Space and Multidevice Interfaces
755.9 References
19711.11 Reference
766 Role of Data Input in the Internet of Things: An Introductory Approach to Cooperating Logistics Processes
19812 Intelligent Cargo
776.1 Introduction
19912.1 Introduction
786.2 Relationship between Logistics and the Internet of Things
20012.2 Semantic Web Service and its life cycle process
796.3 Uses and Applications of IoT in Logistics
20112.3 Different approaches to Semantic Web Service
806.4 Future of IoT Technology
20212.3.1 Internet Reasoning Service Approach
816.5 The Internet of Things: A Syntactic Approach
20312.3.2 OWL – S Approach
826.6 Self-Governing Cooperating Logistics Processes
20412.3.3 WSMF Approach
836.7 Smart Devices of Logistics
20512.4 Conclusion and Discussion
846.8 Introduction to Computers
20612.5 References
856.9 Growth of Computers over the Years
20713 Applications of IoT - Utilities
866.10 An Analysis and Comparison of the Cognitive Abilities of Human Beings and Artificial Intelligence
20813.1 Utilities
876.11 Conclusion
20913.1.1 Smart Metering
886.12 References
21013.1.2 Smart Grid
897 Internet of things Resource Management: Synchronization, Clustering and Software Agents
21113.1.3 Smart Home
907.1 Introduction
21213.1.4 E-mobility
917.2 History and associated work
21313.2 Internet of Business
927.2.1 Clustering
21413.3 Challenges faced by Utility industry
937.2.2 Various Agents of Software
21513.4 References
947.2.3 Synchronization of the Data
21614 Applications of IoT – Agriculture
957.3 Various definitions and assumption
21714.1 Introduction
967.4 Scalability clustering
21814.2 How and Where to Start
977.4.1 Various Principles of Clustering used in the Construction of the IOT
21914.3 IoT Applications of IoT and Smart Farming
987.4.2 Contextual Role
22014.3.1 Precision Farming
997.4.3 Guidelines for Design
22114.3.2 Use of Agricultural Drones
1007.5 Various software agents which are used for the representation of the objects
22214.3.3 Smart Greenhouse Farming
1017.6 SynchroniZation of the data
22314.3.4 Managing the Livestock using Internet of Things
1027.6.1 Network Architecture Types
22414.3.5 Beehive with IoT Connections
1037.6.2 Various Challenges Encountered and the Requirements
22514.4 IoT in Agriculture: Boon or Bane?
1047.7 Conclusion and Summary
22614.5 References
1057.8 References
22715 Application of IoT - Transportation
1068 The Contribution of Internet on Increasing the Agility and Autonomy in Collusion Productions
22815.1 Introduction
1078.1 Introduction
22915.2 Benefits of IoT in the transportation industry
1088.2 Futuristic Challenges faced by the Networked enterprises
23015.3 Uses of Iot in transportation
1098.3 Basic perceptions about the role of Agility and Autonomy
23115.4 Barriers in the way of deploying IoT in the transportation sector
1108.3.1 What is Agility?
23215.5 IoT: Use cases
1118.3.2 Importance of the Autonomous Control
23315.5.1 Connected Cars
1128.4 Role of Internet of things in enabling the autonomy and agility
23415.5.2 Connected Highways
1138.5 New techniques which are introduced to satisfy the demands of the production logistics
23515.5.3 Connected Fleets
1148.6 Application field of IOT
23615.5.4 Geo-fencing
1158.6.1 The Assembly Technique
23715.6 References
1168.6.2 Setting the Layout of the Tail Light
23816 Applications of IoT – Public Safety
1178.6.3 The System Operating the Tail Lights
23916.1 Introduction
1188.6.4 Things Required in Advance for the Technology to be Smooth
24016.2 Scopes of IOT in the Field of Public Safety
1198.7 Challenges faced in developing the Internet of Things
24116.3 IoT Users
1208.8 Conclusion and Outlook
24216.4 Important Challenges to be Addressed
1218.9 References
24316.5 References
1229 Integrated Billing Solutions
244Index
