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Building the future internet through FIRE : 2016 FIRE book : a research and experiment based approach / Martin Serrano [and five others], editors.

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Format:
Book
Author/Creator:
Serrano, Martin.
Contributor:
Serrano, Martin, editor.
Series:
River Publishers series in information science and technology.
River Publishers series in information science and technology
Language:
English
Subjects (All):
World Wide Web.
Physical Description:
1 online resource (794 pages) : illustrations, tables.
Edition:
First edition.
Place of Publication:
Gistrup, Denmark ; Delft, the Netherlands : River Publishers, 2017.
Language Note:
English
Summary:
The Internet as we know it today is the result of a continuous activity for improving network communications, end user services, computational processes and also information technology infrastructures. The Internet has become a critical infrastructure for the human-being by offering complex networking services and end-user applications that all together have transformed all aspects, mainly economical, of our lives. Recently, with the advent of new paradigms and the progress in wireless technology, sensor networks and information systems and also the inexorable shift towards everything connected paradigm, first as known as the Internet of Things and lately envisioning into the Internet of Everything, a data-driven society has been created. In a data-driven society, productivity, knowledge, and experience are dependent on increasingly open, dynamic, interdependent and complex Internet services. The challenge for the Internet of the Future design is to build robust enabling technologies, implement and deploy adaptive systems, to create business opportunities considering increasing uncertainties and emergent systemic behaviors where humans and machines seamlessly cooperate.
Contents:
Front Cover
Half Title Page
RIVER PUBLISHERS SERIES IN INFORMATION SCIENCE AND TECHNOLOGY
Title Page - Building the Future Internet through FIRE 2016 FIRE Book: A Research and Experiment based Approach
Copyright Page
Contents
Dedications
Acknowledgements
Editors Biography
Foreword
List of Figures
List of Tables
PART I - The Next Generation Internet with FIRE
Chapter 1 - European Challenges for Experimental Facilities
1.1 Evolution of Experimentation Facilities into Open Innovation Ecosystems for the Future Internet
1.2 Support, Continuity and Sustainability:The NITOS Testbed Example
1.2.1 NITOS Future Internet Facility Overview
1.2.2 NITOS Evolution and Growth
1.2.3 Facilitating User's Experience
1.2.4 Exploitation of NITOS and Users Statistics
1.2.5 References
1.3 Experimentation: Vision and Roadmap
1.3.1 Envisioning Evolution of Experimentation Facilities into the Future
1.3.2 Vision and Opportunities of OMA LwM2M/oneM2M and Its Role in the Monitoring and Deployment of Large Scale Unmanned Networks
1.3.3 Large Deployments with Low-power, Long-range, Low-cost
1.3.3.1 LoRa technology
1.3.3.2 LoRaWAN
1.3.3.3 Simplified deployment scenarios
1.4 Conclusions
References
Chapter 2 - Next Generation Internet Research and Experimentation
2.1 Experimentation Facilities in H2020: Strategic Research and Innovation Agenda Contributions
2.1.1 European Ecosystem Experimentation Impacts
2.1.2 Drivers Transforming the Next Generation Internet Experimentation
2.1.2.1 Intelligent spaces
2.1.2.2 Cooperative autonomous machines
2.1.2.3 Collective human experience
2.1.2.4 Key networking technologies
2.2 Policy Recommendations for Next Generation Internet Experimentation
2.3 References.
2.4 Experimentation Facilities Evolution towards Ecosystems for Open Innovation in the Internet of Future
2.4.1 Changes in the FIRE Portfolio
2.4.2 Technological Innovation and Demand Pull
2.4.3 Positioning of FIRE
2.4.4 Bridging the Gaps between Demands and Service Offer
2.4.5 Testbed-as-a-Service
2.4.6 Future Scenarios for FIRE
2.5 FIRE Vision and Mission in H2020
2.6 From Vision to Strategic Objectives
2.6.1 Strategic Objectives
2.6.2 FIRE's Enablers
2.7 FIRE Roadmap towards 2020
2.7.1 Milestones
2.7.2 Towards Implementation - Resolving the Gaps
2.8 Main Conclusions and Recommendations
2.8.1 FIRE Vision and Positioning
2.8.2 Strategic Challenges for Evolution of FIRE
2.8.3 Action Plans to Realize the Strategic Directions
2.9 Final Remarks
References to AmpliFIRE Reports and White Papers
PART II - Experimentation FACILITIES Best Practices and Flagship Projects
Chapter 3 - Fed4FIRE - The Largest Federation of Testbeds in Europe
3.1 Introduction
3.2 Federated Experimentation Facilities
3.2.1 Requirements from Industry and Research
3.2.2 Establishing Fed4FIRE Federation of Testbesd
3.2.3 Experimentation Facilities in Fed4FIRE
3.3 Framework for Large-scale Federation of Testbeds
3.3.1 Framework Architecture and Tools
3.3.1.1 Experiment lifecycle
3.3.1.2 Resource discovery, specification, reservation and provisioning
3.3.1.2.1 Architectural components
3.3.1.3 Other functionality
3.3.2 Federating Experimentation Facilities
3.3.2.1 Classes of testbeds
3.3.2.2 Types of federation
3.3.2.3 Workflow for federation
3.3.3 Federation Tools
3.3.3.1 Portal
3.3.3.2 jFed
3.3.3.3 NEPI
3.3.3.4 YourEPM
3.4 Federated Testing in Fed4FIRE
3.4.1 Overview of Experiments on Fed4FIRE
3.4.2 Complexity of the Fed4FIRE Experiments.
3.4.3 Value to the Experimenter
3.4.4 Support Provided by the Federation to SMEs
3.4.5 Added Value of the Federation
3.5 Operating the Federation
3.5.1 Federation Model, Structure and Roles
3.5.2 Financial Approach of the Federation
3.5.3 Organization of the Federation
3.6 Summary
Chapter 4 - A Platform for 4G/5G Wireless Networking Research,Targeting the Experimentally-Driven Research Approach - FLEX -
4.1 Introduction
4.2 Problem Statement
4.2.1 FLEX Testbeds
4.2.1.1 NITOS testbed
4.2.1.2 w-iLab.t testbed
4.2.1.3 OpenAirInterface testbed
4.2.1.4 PerformNetworks testbed
4.2.1.5 FUSECO playground
4.3 Background and State-of-the-Art on Control and Management of Testbeds
4.3.1 Slice-based Federation Architecture (SFA)
4.3.2 cOntrol and Management Framework (OMF)
4.3.3 OML
4.4 Approach
4.5 Technical Work
4.5.1 Control Plane Tools
4.5.1.1 NITOS Scheduler
4.5.1.2 jFed
4.5.1.3 NITOS brokering
4.5.2 Experimental Plane Tools
4.5.2.1 The FLEX LTErf service
4.5.2.2 OMF extensions
4.5.3 Monitoring Applications
4.5.3.1 FLEX QoE tool
4.5.3.2 FLEX problems
4.5.3.3 FLEX netchanges
4.5.4 Handover Toolkit
4.5.4.1 S1-based handovers
4.5.4.2 X2-based handovers
4.5.4.3 Cross-technology Inter-RAT SDN based handovers
4.5.5 Mobility Emulation Platforms
4.5.6 Functional Federation
4.6 Results and/or Achievements
4.6.1 Semantic Based Coordination for LTE in Unlicensed Bands
4.6.2 FLOW LTE to Wi-Fi Offloading Experiments
Discussion
Conclusions
Chapter 5 - MONROE: Measuring Mobile Broadband Networks in Europe
5.1 Introduction
5.2 Background and State of the Art
5.3 MONROE Approach and Key Features
5.4 MONROE System Design
5.5 Experiment Deployment
5.5.1 MONROE as a Fed4FIRE Federated Project.
5.5.2 User Authentication
5.5.3 The Experimenters Portal (MONROE User Access Client)
5.5.4 MONROE Scheduler
5.6 Network Measurements and Analytics with MONROE
5.6.1 MONROE Monitoring Experiments
5.6.2 Network Analytics with MONROE
5.7 User Experiments
5.8 Conclusions
Chapter 6 - Perform Networks: A Testbed for Exhaustive Interoperability and Performance Analysis for Mobile Networks
6.1 Introduction
6.2 Problem Statement
6.3 Background and State of the Art
6.3.1 Research Tools for Wireless Communications
6.3.2 Wireless Testbed Platforms
6.4 Approach
6.5 TechnicalWork
6.5.1 T2010 Standard S1 Interface Extension
6.5.2 Fleximon
6.5.3 TestelDroid
6.5.4 FIRE Technology
6.6 Results and Achievements
6.6.1 SME Experiments
6.6.2 FIRE Projects
6.6.3 Research Activities
6.7 Discussion
6.8 Conclusion
Chapter 7 - Large Scale Testbed for Intercontinental Smart City Experiments and Pilots - Results and Experiences
7.1 Introduction
7.2 TRESCIMO Architecture
7.2.1 Smart Environmental Monitoring Trial
7.2.2 Smart Energy Trial
7.3 Trial Results
7.3.1 Smart Environmental Monitoring Trial
7.3.1.1 Scenario and experiments
7.3.1.2 Evaluation results
7.3.1.2.1 Visualisation and monitoring of the data transmitted by the sensor devices
7.3.1.2.2 Performance of the DTN and wake-up system
7.3.1.2.3 Consumption of the wake-up sensor devices
7.3.1.2.4 Performance of the data collection process and device update capabilities
7.3.2 Smart Energy Trial
7.3.2.1 Scenario and experiments
7.3.2.2 Evaluation results
7.3.2.2.1 Energy consumption awareness
7.3.2.2.2 Behavioural change
7.3.2.2.3 Mobile app
7.3.2.2.4 Technology performance metrics
7.4 Discussion
7.4.1 Smart Environmental Monitoring Trial Observations.
7.4.2 Smart Energy Trial Observations
7.4.3 General Observation
7.5 Conclusion
Acknowledgments
Chapter 8 - BonFIRE: A Multi-Cloud Experimentation-as-a-Service Ecosystem
8.1 Introduction
8.2 A Cloud and Services Experimentation Service
8.3 Technical Approach
8.4 Federation of Heterogeneous Cloud and Networking Testbeds
8.5 Federation within the Broader FIRE Ecosystem
8.6 Pioneering Open Access Experimentation and Sustainability
8.7 Conclusions and Outlook
Chapter 9 - EXPERIMEDIA - A Multi-Venue Experimentation Service Supporting Technology Innovation through New Forms of Social Interaction and User Experience
9.1 Introduction
9.2 Networked Multimedia Systems
9.3 A Multi-Venue Media Experimentation Service
9.4 Smart Venues and Experiments
9.5 Users at the Heart of the System
9.6 Making a Difference in the Real-World
9.7 Real-Time Interactive and Immersive Media
9.8 Economic and Social Viability of Data Value Chains
9.9 Innovation whilst Respecting Privacy
9.10 Conclusions
Chapter 10 - Cross-Domain Interoperability Using Federated Interoperable SemanticIoT/C loud Testbeds and Applications: The FIESTA-IoT Approach
10.1 Introduction
10.2 Federated IoT Testbeds and Deployment of Experimental Facilities
10.3 Cross-Domain Interoperability
10.4 Experimentation as a Service
10.5 IoT Data Marketplace
10.6 FIESTA Platform Services and Tools
10.6.1 FIESTA Approach on Global Market Confidence Programme on Interoperability Service
10.6.2 FIESTA Approach on Linking and Reasoning over IoT Data Streams Services
10.6.3 FIESTA Approach on Federating IoT Stream Data Management Services
10.6.4 FIESTA Approach on Semantic Interoperability for IoT/Cloud Data Streams Tools.
10.6.5 FIESTA Approach on Semantic Interoperability for IoT/Cloud Resources Tools.
Notes:
Includes bibliographical references.
CC BY-NC-ND
Description based on print version record.
ISBN:
1-000-79728-7
1-00-333744-9
1-003-33744-9
1-000-79412-1
87-93519-11-7
9781003337447
OCLC:
1040273800

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