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The Future Internet : Future Internet Assembly 2013: Validated Results and New Horizons.

Bibliographic Details
Main Author: Galis, Alex.
Other Authors: Gavras, Anastasius.
Format: eBook
Language:English
Published: Berlin, Heidelberg : Springer Berlin / Heidelberg, 2013.
Edition:1st ed.
Series:Lecture Notes in Computer Science Series
Subjects:
Electronic books.
Online Access:Click to View
Table of Contents:
  • Intro
  • Preface
  • Table of Contents
  • Software Driven Networks, Virtualisation, Programmability and Autonomic Management
  • Towards a Socially-Aware Management of New Overlay Application Traffic Combined with Energy Efficiency in the Internet (SmartenIT)
  • 1 Introduction
  • 2 Current Trends in the Internet
  • 3 Challenges Emerging from Internet Trends
  • 4 Use Cases and Solution Approaches
  • 5 Requirements for System Design and Architecture Design
  • 6 Summary and Preliminary Conclusions
  • References
  • The NEBULA Future Internet Architecture
  • 1 Introduction
  • 2 NEBULA as a Network Architecture
  • 2.1 Today's Internet
  • 2.2 NEBULA
  • 3 NEBULA Future Internet Architecture Integration
  • 4 NEBULA Configuration and Operation
  • 4.1 Policy Configuration
  • 4.2 Path Setup
  • 4.3 Forwarding
  • 4.4 Naming
  • 5 Conclusions
  • References
  • Open the Way to Future Networks - A Viewpoint Framework from ITU-T*
  • 1 Introduction and Context
  • 2 Future Network Standardization in ITU-T
  • 2.1 Service Awareness
  • 2.2 Data Awareness
  • 2.3 Environmental Awareness
  • 2.4 Social and Economic Awareness
  • 3 Future Plan
  • 4 Related Research and Standardization and Programs
  • 5 Concluding Remarks
  • References
  • Towards a Minimal Core for Information-Centric Networking
  • 1 Introduction
  • 1.1 Advantages of a Minimal Core
  • 1.2 Design Goals for the Core
  • 2 Information-Centrism
  • 3 Naming and Content Security
  • 4 Information Space
  • 4.1 Definition
  • 4.2 Discussion
  • 5 An Example Node Architecture
  • 6 Development on Top of the Core
  • 6.1 Managing Consistency with Scopes
  • 7 Conclusion
  • References
  • Managing QoS for Future Internet Applications over Virtual Sensor Networks
  • 1 Introduction
  • 2 The VITRO Routing Solution
  • 3 Applications Exploiting Virtualization of WSNs
  • 3.1 Simulation Environment.
  • 3.2 Energy Control in Public and Private Buildings
  • 3.3 Traffic Control Application Domain
  • 3.4 Logistics Applications
  • 3.5 Security-Related Applications
  • 4 Conclusions
  • References
  • High Availability in the Future Internet
  • 1 Introduction
  • 2 Related Work and Background
  • 3 Providing Fast Protection with LFAs
  • 4 Analyzing and Improving LFA-Based Fast Protection
  • 5 Improving Fast Protection with Remote LFA
  • 6 Conclusions and Future Work
  • References
  • Integrating OpenFlow in IMS Networks and Enabling for Future Internet Researchand Experimentation
  • 1 Introduction
  • 2 Introducing SDN to IMS: Integrating OpenFlow
  • 3 Enhancements and Implementation on IMS Testbeds
  • 3.1 The UoP OSIMS Testbed
  • 3.2 The TSSG Testbed
  • 4 Enabling for Experimentation
  • 4.1 Integration with other Control and Monitoring Frameworks
  • 5 Target Experiments/Experimenters
  • 5.1 QoS with Policy Enforcement and OpenFlow Control
  • 5.2 Prioritizing Traffic between 2 IMS Cores Exchanging Data
  • 6 Conclusions and Future Work
  • References
  • Computing and Networking Clouds
  • Contrail: Distributed Application Deployment under SLA in Federated Heterogeneous Clouds
  • 1 Introduction
  • 2 Contrail Architecture
  • 3 Federation Concept and Service
  • 4 Service Level Agreements
  • 5 Virtual Execution Platform
  • 6 Conclusion
  • References
  • Cloud-Based Evaluation Framework for Big Data
  • 1 Introduction
  • 2 Challenges in Benchmarking on Big Data
  • 3 VISCERAL Framework
  • 3.1 Cloud-Based Framework
  • 3.2 Benchmark Activity Flow
  • 3.3 Manual Annotation
  • 4 Discussion and Conclusion
  • References
  • Optimizing Service Ecosystems in the Cloud
  • 1 Introduction
  • 2 Overview of Optimization Models
  • 2.1 SOA4All Optimizer
  • 2.2 DAEM Optimizer
  • 3 Experimental Design
  • 4 Experimental Results.
  • 4.1 Soa4all Is Faster on a Single Site, Whereas DAEM is Faster in a Multi-site Configuration
  • 4.2 Soa4all Is More Sca alable than DAEM
  • 4.3 DAEM's Output s Is More Stable and Resilient to Changes than SOA4Al ll's
  • 4.4 BonFIRE Support for Future Internet Scenarios
  • 5 Discussion about Related Work
  • 6 Conclusion
  • References
  • Resource Optimisation in IoT Cloud Systems by Using Matchmaking and Self-management Principles
  • 1 Introduction
  • 2 Matchmaking for IoT Cloud Systems and Services
  • 3 Cloud Computing and IoT Services
  • 4 IoT Data Cloud Challenges and Limitations
  • 5 IoT Cloud Service Matchmaking Evaluation
  • 6 Linked Data and Scalable Cloud Management
  • 7 Matchmaking and IoT Cloud Service Control
  • 8 Conclusions and Future Work
  • References
  • Towards a Secure Network Virtualization Architecture for the Future Internet
  • 1 Introduction
  • 2 Current Architecture Proposals
  • 3 Analysis of Capabilities
  • 4 Global Virtualization Architecture
  • 4.1 GVA Features
  • 4.2 Functional Blocks
  • 5 Initial Viability Analysis
  • 6 Conclusions and Future Work
  • References
  • Seeding the Cloud: An Innovative Approach to Grow Trust in Cloud Based Infrastructures
  • 1 Introduction
  • 2 Seed4C Approach: The NoSE as a Minimal Trusted Computing Base for the Cloud
  • 3 Examples of Addressed Use-Cases
  • 3.1 High Performance Computing
  • 3.2 Privacy Policy Enforcement
  • 4 Conclusion
  • References
  • Internet of Things
  • IoT6 - Moving to an IPv6-Based Future IoT
  • 1 Introduction
  • 2 IPv6 Capabilities for the Internet of Things
  • 3 IPv6 Worldwide Deployment
  • 4 IoT6 Architectural Model
  • 5 Resources Repo ository and Service Discovery
  • 6 Building Autom mation Components Integration
  • 7 Conclusion
  • References
  • SmartSantander: Internet of Things Research and Innovation through Citizen Participation
  • 1 Introduction.
  • 2 Novel Architecture for Service Provision and Experimentation
  • 3 Service Provisio on and Experimentation: Augmented Reality y and Participator ry Sensing
  • 3.1 Augmented y Reality Service
  • 3.2 Participatory Sensi ing Service
  • 3.3 Service Component t Implementation
  • 4 Conclusions
  • References
  • A Cognitive Management Framework for Empowering the Internet of Things
  • 1 Introduction
  • 2 Related Work and Paper Contribution
  • 3 Cognitive Management Framework for IoT
  • 3.1 Virtual Objects Level
  • 3.2 Composite Virtual Objects Level
  • 3.3 User/Stakeholder and Service Level
  • 4 Framework Implementation
  • 4.1 Operation
  • 4.2 Ambient Assisted Living Example
  • 5 Conclusion
  • References
  • Building Modular Middlewares for the Internet of Things with OSGi
  • 1 Introduction
  • 2 Middlewares for the Internet of Things
  • 3 Selected Mechanisms of OSGi
  • 3.1 Modularity
  • 3.2 Runtime Configurations
  • 3.3 Configurations of Bundles
  • 3.4 Console
  • 3.5 Event-Based Communication
  • 3.6 Local Services
  • 3.7 Web Services
  • 4 Motivations and Requirements for an OSGi-Based Middleware
  • 4.1 Modularity
  • 4.2 Service-Oriented Architecture
  • 4.3 Communication with Devices
  • 5 Architecture of the Middleware
  • 5.1 The Device Layer
  • 5.2 The Business Logic Layer
  • 5.3 The Interface Layer
  • 6 Management of the Middleware
  • 6.1 Lifecycles of Modules
  • 6.2 Runtime Configurations
  • 6.3 Configurations of Modules
  • 7 Example Implementation of the Middleware
  • 8 Conclusions and Future Works
  • References
  • Towards an Architecture for Future Internet Applications
  • 1 Introduction
  • 2 Device Independent Architecture
  • 2.1 Device Independence
  • 2.2 Multi-device Support
  • 2.3 The Architecture
  • 3 Future Directions
  • References.
  • ComVantage: Mobile Enterprise Collaboration Reference Framework and Enablers for Future Internet Information Interoperability
  • 1 IT Challenges for Collaboration
  • 2 ComVantage Application Areas in a Nutshell
  • 2.1 Mobile Maintenance Scenario
  • 2.2 The Customer-Oriented Production Scenario
  • 3 ComVantage Reference Architecture
  • 4 Security Model for Linked Data Access Control
  • 5 Semantic Data Lifting
  • 5.1 Linked Data Adapter for Databases
  • 5.2 Linked Data Adapter for Real-Time Sensor Data Middleware
  • 6 The ComVantage Modelling Framework
  • 7 Intuitive and Trustful Mobile Collaboration
  • 8 Conclusions
  • References
  • Test-Enabled Architecture for IoT Service Creation and Provisioning
  • 1 Introduction
  • 2 Related Work - IoT-A ARM
  • 3 Requirements
  • 3.1 IoT Requirements
  • 3.2 Requirements for Knowledge-Based Service Lifecycle Management
  • 3.3 Requirements for Test-Driven Service Creation
  • 3.4 Comparison of Reviewed Architectures against Identified Requirements
  • 4 Architecture
  • 4.1 Architecture for IoT Service Creation and Provision
  • 4.2 Reverse Mapping with Respect to IoT-A Domain Model
  • 4.3 Extension against IoT-A Reference Architecture
  • 5 IoT.est Architecture Building Blocks
  • 6 Case Study
  • 7 Conclusions
  • References
  • Enabling Technologies and Economic Incentives
  • Sustainable Wireless Broadband Access to the Future Internet - The EARTH Project
  • 1 Introduction
  • 2 Socio-Economic Impact Analysis
  • 2.1 Global Carbon Footprint of Mobile Communications
  • 2.2 RAN Energy Consumption and the Potential Impact of EARTH Technologies
  • 3 Energy Efficiency Evaluation Framework (E3F)
  • 3.1 Small-Scale Short-Term System-Level Evaluations
  • 3.2 Power Model
  • 3.3 Traffic Model
  • 3.4 Metrics
  • 3.5 Application of E3F: : Where Is the Energy Saving Potential?
  • 4 Hardware Solutions and Radio Interface Techniques.
  • 4.1 Hardware Solutions.

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