Building the Future Internet through FIRE

Building the Future Internet through FIRE
2016 FIRE Book: a Research and Experimentation based Approach

River Publishers Series in Computing and Information Science and Technology

Building the Future Internet through FIRE
2016 FIRE Book: a Research and Experimentation based Approach

Editors:
Martin Serrano, National University of Ireland Galway, Ireland
Nikolaos Isaris, European Commission, Belgium
Hans Schaffers, Saxion University of Applied Sciences, Netherlands
John Domingue, Open University, United Kingdom
Michael Boniface, IT Innovation, United Kingdom
Thanasis Korakis, Polytechnic Institute of NYU, USA

ISBN: 9788793519121

Available: June 2017

doi: https://doi.org/10.13052/rp-9788793519114


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.
Heterogeneous Networks, Performance Modelling and Analysis, Wired Networks, Wireless Networks, Ad hoc, Sensor and Cellular Networks, Optical Networks, Next and Future Generation Internet

Chapter 1: European Challenges for Experimental Facilities
by Hans Schaffers, Thanasis Korakis, Congduc Pham, Abdur Rahim, Antonio Jara and Martin Serrano


673

Chapter 2: Next Generation Internet Research and Experimentation
by Martin Serrano, Michael Boniface, Monique Calisti, Hans Schaffers, John Domingue, AlexanderWillner, Chiara Petrioli, Federico M. Facca, Ingrid Moerman, Johann M. Marquez-Barja, Josep Martrat, Levent Gurgen, Sebastien Ziegler, Serafim Kotrotsos, Sergi Figuerola Fernandez, Stathes Hadjiefthymiades, Susanne Kuehrer, Thanasis Korakis, TimWalters and Timur Friedman


857

Chapter 3: Fed4FIRE – The Largest Federation of Testbeds in Europe
by Piet Demeester, Peter Van Daele, TimWauters and Halid Hrasnica


1133

Chapter 4: A Platform for 4G/5G Wireless Networking Research,Targeting the Experimentally-Driven Research Approach -FLEX -
by Nikos Makris, Thanasis Korakis, Vasilis Maglogiannis, Dries Naudts, Navid Nikaein, George Lyberopoulos, Elina Theodoropoulou, Ivan Seskar, Cesar A. Garcia Perez, Pedro Merino Gomez, Milorad Tosic, Nenad Milosevic and Spiros Spirou


1033

Chapter 5: MONROE: Measuring Mobile Broadband Networks in Europe
by Özgü Alay, Andra Lutu, Rafael García, Miguel Peón-Quirós, Vincenzo Mancuso, Thomas Hirsch, Tobias Dely, JonasWerme, Kristian Evensen, Audun Hansen, Stefan Alfredsson, Jonas Karlsson, Anna Brunstrom, Ali Safari Khatouni, Marco Mellia, Marco Ajmone Marsan, Roberto Monno and Hakon Lonsethagen


3403

Chapter 6: PerformNetworks: ATestbed for Exhaustive Interoperability and Performance Analysis for Mobile Networks
by Almudena Diaz, Cesar A. Garcia-Perez, Alvaro Martin, Pedro Merino and Alvaro Rios


1417

Chapter 7: Large Scale Testbed for Intercontinental Smart City Experiments and Pilots – Results and Experiences
by Louis Coetzee, Marisa Catalan, Josep Paradells, Anastasius Gavras and Maria Joao Barros


810

Chapter 8: BonFIRE: A Multi-Cloud Experimentation-as-a-Service Ecosystem
by Michael Boniface, Vegard Engen, Josep Matrat, David Garcia, Kostas Kavoussanakis, Ally Hume and David Margery


747

Chapter 9: EXPERIMEDIA – A Multi-Venue Experimentation Service Supporting Technology Innovation through New Forms of Social Interaction and User Experience
by Michael Boniface, Stefano Modafferi, Athanasios Voulodimos David Salama Osborne and Sandra Murg


830

Chapter 10: Cross-Domain Interoperability Using Federated Interoperable Semantic IoT/Cloud Testbeds and Applications: The FIESTA-IoT Approach
by Martin Serrano, Amelie Gyrard, Michael Boniface, Paul Grace, Nikolaos Georgantas, Rachit Agarwal, Payam Barnagui, Francois Carrez, Bruno Almeida, Tiago Teixeira, Philippe Cousin, Frank Le Gall, Martin Bauer, Ernoe Kovacs, Luis Munoz, Luis Sanchez, John Soldatos, Nikos Kefalakis, Ignacio Abaitua Fernández-Escárzaga, Juan Echevarria Cuenca, Ronald Steinke, Manfred Hauswirth, Jaeho Kim and Jaeseok Yun


1010

Chapter 11: Combining Internet of Things and Crowdsourcing for Pervasive Research and End-user Centric Experimental Infrastructures (IoT Lab)
by Sébastien Ziegler, Cedric Crettaz, Michael Hazan, Panagiotis Alexandrou, Gabriel Filios, Sotiris Nikoletseas, Theofanis P. Raptis, Xenia Ziouvelou, Frank McGroarty, Aleksandra Rankov, Srdjan Krćo, Constantinos Marios Angelopoulos, Orestis Evangelatos, Marios Karagiannis, Jose Rolim and Nikolaos Loumis


1499

Chapter 13: Wireless Software and Hardware Platforms for Flexible and Unified Radio and Network Control (WiSHFUL)
by Nicholas Kaminski, Spilios Giannoulis, Ilenia Tinnirello, Peter Ruckebusch, Piotr Gawlowicz, Domenico Garlisi, Jan Bauwens2, Anatolij Zubow, Robin Leblon, Pierluigi Gallo, Ivan Seskar, Luiz, A. DaSilva, Sunghyun Choi, Jose de Rezende and Ingrid Moerman


999

Chapter 14: Estimating the Dimension ofYour Wireless Infrastructure by Using FIRE Testbeds
by Sergio Gonzalez-Miranda, Lorena Bourg, Viveca Jimenez and Alejandro Almunia


650

Chapter 15: An Experiment Description Language for Supporting Mobile IoT Applications
by Kostas Kolomvatsos, Michael Tsiroukis and Stathes Hadjiefthymiades


969

Chapter 16: Recursive InterNetwork Architecture, Investigating RINA as an Alternative to TCP/IP (IRATI)
by Eduard Grasa, Leonardo Bergesio, Miquel Tarzan, Eleni Trouva, Bernat Gaston, Francesco Salvestrini, Vincenzo Maffione, Gino Carrozzo, Dimitri Staessens, Sander Vrijders, Didier Colle, Adam Chappe, John Day and Lou Chitkushev


884

Chapter 17: FORGE: An eLearning Framework for Remote Laboratory Experimentation on FIRE Testbed Infrastructure
by Alexander Mikroyannidis, Diarmuid Collins, Christos Tranoris, Spyros Denazis, DaanPareit, JonoVanhie-Van Gerwen, Ingrid Moerman, Guillaume Jourjon, Olivier Fourmaux, John Domingue and Johann M. Marquez-Barja


1354

Chapter 18: Triangle: 5G Applications and Devices Benchmarking
by Almudena Díaz Zayas, Alberto Salmerón, Pedro Merino, Andrea F. Cattoni, Germán Corrales Madueno, Michael Diedonne, Frederik Carlier, Bart Saint Germain, Donald Morris, Ricardo Figueiredo, Jeanne Caffrey, Janie BaËœnos, Carlos Cárdenas, Niall Roche and Alastair Moore


1916

Chapter 19: Recursive InterNetwork Architecture (ARCFIRE, Large-scale RINA benchmark on FIRE)
by Sven van der Meer, Eduard Grasa, Leonardo Bergesio, Miquel Tarzan, Diego Lopez, Dimitri Staessens, Sander Vrijders, Vincenzo Maffione and John Day


741

Chapter 20: ARMOUR


818

Chapter 21: Enabling a Mobility Back-End as a Robust Service (EMBERS)
by Ricardo Vitorino, Margarida Campolargo and Timur Friedman


805

Chapter 22: F-Interop – Online Platform of Interoperability and Performance Tests for the Internet of Things
by Sébastien Ziegler, Loïc Baron, Brecht Vermeulen and Serge Fdida


869

Chapter 23: Q4Health: Mission Critical Communications Over LTE and Future 5G Technologies
by Cesar A. Garcia-Perez, Alvaro Rios, Pedro Merino, Kostas Katsalis, Navid Nikaein, Ricardo Figueiredo, Donal Morris, Terry O’Callaghan and Pilar Rodriguez


1275

Chapter 25: Understanding the Challenges in the Optical/Wireless Converged Communications Federated Union of Telecommunications Research Facilities for an EU-Brazil Open Laboratory (FUTEBOL)
by Johann M. Marquez-Barja, Nicholas Kaminski, Paulo Marques, Moises R. Nunes-Ribeiro, JulianoWickboldt, Cristiano B. Both and Luiz A. DaSilva


1186

Chapter 27: EU-US Collaboration in FIRE
by Brecht Vermeulen, TimWauters, Peter Vandaele and Piet Demeester


904

Chapter 28: FESTIVAL: Heterogeneous Testbed Federation Across Europe and Japan
by Martino Maggio, Giuseppe Ciulla, Roberto Di Bernardo, Nicola Muratore, Juan R. Santana, Toyokazu Akiyama, Levent Gurgen and Morito Matsuoka


877

Chapter 29: TRESCIMO:Towards Software-Based Federated Internet of Things Testbeds across Europe and South Africa to Enable FIRE Smart City Experimentation
by Nyasha Mukudu, Ronald Steinke, Giuseppe Carella, Joyce Mwangama, Andreea Corici, Neco Ventura, AlexanderWillner, Thomas Magedanz, Maria Barros and Anastasius Gavras


910

Chapter 30: Federated Experimentation Infrastructure Interconnecting Sites from Both Europe and South Korea (SmartFIRE)
by Kostas Choumas, Thanasis Korakis, Jordi Ordiz, Antonio Skarmeta, Pedro Martinez-Julia, Taewan You, Heeyoung Jung, Hyunwoo Lee, Ted “Taekyoung” Kwon, Loic Baron, Serge Fdida, Woojin Seok, Minsun Lee, Jongwon Kim, Song Chong and Brecht Vermeulen


1107