Increasing the role of Testbeds for Increasing the role of Testbeds - PowerPoint PPT Presentation

Increasing the role of Testbeds for Increasing the role of Testbeds for Research Exploitation Research Exploitation Dr A Paventhan Dr A Paventhan ERNET India, Bangalore paventhan@eis.ernet.in paventhan@eis.ernet.in

Outline Outline EU FIRE facilities / projects Introduction Introduction Experimental facility � BonFIRE TEFIS CREW SMARTSANTANDER � BonFIRE, TEFIS, CREW, SMARTSANTANDER Further Information MyFIRE MyFIRE Introduction Project objectives /Survey results Project objectives /Survey results EU FP7 Call8 U Upcoming events i Future Internet Testbed plans for India 2

FIRE: Future Internet Research & Experimentation FIRE: Future Internet Research & Experimentation Validation Long-term FIRE Research Research Large Scale Large Scale Experiments Requirements FIRE Experimental Facility FIRE Experimental Facility User Communities Test bed 1 Test bed 2 Test bed 3 Exp 5 Exp 5 Exp 2 Exp 2 Test bed 9 Test bed 1 Test bed 2 Test bed 3 Test bed 4 Test bed 5 Exp Test bed 4 Exp Exp Test bed 5 T t b d 5 4 Exp 1 Test bed 6 3 3 Test bed 7 Test bed 8 Federated Service Testbeds Federated Service Testbeds Test bed 6 Test bed 7 Test bed 8 Federated Network Testbeds Federated Network Testbeds 3

FIRE projects FIRE projects Coordination and Support Actions FIREBALL PARADISO 2 0 all 5 -201 PARADISO MyFire FIRE Station 2008 FIREworks Building the Experim ental Facility and stim ulating its use 0 M€ - Ca - Call 2 - Smart Santander BonFIRE TEFIS OFELIA OFELIA OFELIA CREW CREW 40 M€ - jects, 50 ONELAB2 PII WISEBED VITAL++ Users Users Experim entally driven Research Experim entally-driven Research 17 proj projects, CONECT EULER SCAMPI CONVERGENC E LAWA SPITFIRE HOBNET NOVI Validation Validation 14 Research N4C SMART-NET Large Scale OPNEX ECODE Experiments Requirements Nanodatacenter SELF-NET PERIMETER CONECT s FP7 Projects Call 5 (2010) FP7 Projects Call 2 (2008) 4

FIRE Projects – By research areas FIRE Projects – By research areas 5

Project overview Project overview 6

BonFIRE: Facility features BonFIRE: Facility features • Access to multiple heterogeneous cloud testbeds using a single experiment descriptor d • Geographically distributed experiments • Elasticity dynamically up and down scale resources in a running experiment including cross ‐ site elasticity • Monitoring at both the infrastructure and application level M it i t b th th i f t t d li ti l l • Deployment of different software stacks within configurable virtual machines virtual machines • Repeatable experiments with experimental data management • More info: http://www bonfire project eu/ • More info: http://www.bonfire ‐ project.eu/ 7

Cognitive Radio Experimentation World Cognitive Radio Experimentation World CREW = an open federated test platform, which facilitates experimentally- driven research on advanced spectrum sensing, cognitive radio and cognitive networking strategies in view of horizontal and vertical spectrum cognitive networking strategies in view of horizontal and vertical spectrum sharing in licensed and unlicensed bands 8

CREW Federated platform: key aspects CREW Federated platform: key aspects • common portal (available on 14 Sept. 2011) � comprehensive description of the individual testbeds � guidelines on how to access and use the federated testbed id li h d h f d d b d • novel cognitive components � relocation of components � relocation of components � linking together software and hardware entities from the different partners � standardized API for SDR architectures (developed within WINNF) • creation of open data sets � a common data structure enables the emulation of CREW components in other experimental environments or in a simulator experimental environments or in a simulator • benchmarking framework � enabling experiments under controlled and reproducible test conditions � offering automated procedures for experiments and performance evaluation � allowing fair comparison • 2 open calls: More info: http://www.crew ‐ project.eu/opencallinfo 2 ll f h // / ll f 9

TEstbed for Future Internet Services TEstbed for Future Internet Services • Project Objectives • TEFIS aims to provide a single access point for experimenters to • TEFIS aims to provide a single access point for experimenters to manage their complete experiment, orchestrated across one or more testbed facilities • Support of the entire service development lifecycle (need finding; business model definition; software design and development; testing, quality and system engineering) q y y g g) • Provide an open framework that will enable the efficient combination of various facilities (Network resources, Living Lab resources, Cloud resources) resources) • Be use ‐ case driven (supporting experimenters to get the best out of the testbeds available) • More info: http://www.tefisproject.eu/ 10

Functional Architecture Functional Architecture 11

Smartsantander: City ‐ scale facility Smartsantander: City ‐ scale facility • Project Overview • City scale heterogeneous experimental facility that supports testing of • City ‐ scale heterogeneous experimental facility that supports testing of typical applications and services for a smart city. • Specify, design and implement necessary building blocks for a real ‐ world Future Internet of Things (IoT) experimental platform • The facility will comprise more than 20,000 sensors and will be based on a real life IoT deployment in an urban setting on a real life IoT deployment in an urban setting • The core of the facility is located in the Spanish city of Santander and surrounding area • More info: http://www.smartsantander.eu/ 12

High ‐ level Architecture High ‐ level Architecture 13

FIRE: Further Information FIRE: Further Information Websites: http://cordis.europa.eu/fp7/ict/fire http://www.ict ‐ fire.eu Publications: http://cordis.europa.eu/fp7/ict/fire/docs/fire ‐ brochure ‐ 2010_en.pdf http://www.booksonline.iospress.nl/Content/View.aspx?piid=16465 http://www.internetfutures.eu/wp ‐ content/uploads/2010/11/TAFI ‐ Final ‐ Report.pdf http://www.ict ‐ fire.eu/home/publications.html 14

MyFIRE: Introduction MyFIRE: Introduction MyFIRE: a project co ‐ funded by the European Commission under the 7th framework program under the 7th framework program Under the Future Internet Research & Experimentation (FIRE) initiative • Start Date: 01/06/2010 St t D t 01/06/2010 • Budget (EC contribution): 700 000 euro 700 000 euro • Duration: 24 months • Target Countries: Europe, Brazil, Russia, India & China • Target Groups: research testbeds users and beneficiaries users and beneficiaries 15

Objective 1: Do more with FIRE Objective 1: Do more with FIRE • To identify the main issues and needs in the testbed approach approach � What are the researchers and users needs for an experimental facility? experimental facility? � How to create liaisons with standardization process: use & participate? p p � How to better exploit the Future Internet research and what are the economics data for economics data for decision ‐ makers? 16

Sample result 1: Sample result 1: Services used / offered Services used / offered Services used / offered Services used / offered What kind of services are you using/offering in the Experimental Research Facility that your department make use of/possess? USERS (99) PROVIDERS (92) 56,6% Question only for 48,5% providers id 44 4% 44,4% 43,5% 40,2% 39,4% 35,9% 33,7% 30,4% 27,2% 13,0% 9,1%10,9% 10 9% 7,6% Experimental Measurement Testing Training Certification Advices on Advices on Advices on IPR Run a setup services and reporting methodology taking research commercialising rules involved in "community" services expertise innovations to research different group for users standardisation innovations exploitation paths 17

Sample result 2: Sample result 2: Estimation of experiment cost Estimation of experiment cost Estimation of experiment cost Estimation of experiment cost 18

Interested in more results? Interested in more results? Register at http://www.my ‐ fire.eu Join MyFIRE community to access results and provide your comments comments 19

Objective 2: Do more with FIRE Objective 2: Do more with FIRE • To detect best practices to stimulate the USE of the FIRE experimental facility � Produce best practices for researchers, providers and policy makers facilitating the access and the usage of testbeds � Organizing a series of 5 workshops in the European area O i i i f 5 k h i th E and BRIC countries to develop awareness of the FIRE facility facility � ERNET India hosted Euro ‐ India Future Internet Research & Experimentation workshop on 16 th Dec 2010 in Pune � Develop a networks and collaborations with the similar existing initiatives in the BRIC countries 20