The Triple-Helix Experience Importance of Exchanging Knowledge, Best Practice and Mutual Learning Within and Between European Regions Professor Eric Goodyer Scientific Advisor to THE ISSUE Project
What is a Triple Helix? 11/11/14 2
Research informed by Societal Challenges Policy makers informed of emerging technology Industry well placed to commercialise new technology University aware of commercial needs Business enabled to support policy delivery Government needs and market opportunities visible
DOES IT WORK?
Proof 1 Societal Challenges
Horizon 2020 H2020 candidate structure Excellent Science Industrial Leadership Activity: Leadership in enabling and industrial technologies Topic: Low carbon vehicles Topic: UAVs for monitoring transport infrastructures and urban air quality Activity: Access to risk finance Activity: Innovation in SMEs Societal Challenges Activity: Health, demographic change and well-being Activity: Food security, sustainable agriculture, marine and maritime research and the bio economy Activity: Secure, clean and efficient energy Activity: Smart, green and integrated transport Topic: Innovations in relation to Intelligent Traffic Systems Topic: Improved monitoring and management of air quality and GHG emissions in the urban context Topic: Urban and regional road networks utilisation, planning and optimisation Topic: Urban transport, mobility, intermodality and interoperability Topic: Improved safety, security and health for urban communities Activity: Inclusive, innovative and secure societies WP3 JAP Structure Concept 15 March 2013 6
Proof 2 Triple Helix Methodology
Knowledge exchange programmes MORE THAN JUST A CONFERENCE! THE-ISSUE has a vision for an information exchange portal where ideas, needs and solutions are shared. Partnerships created. Supply chains created & Projects developed. Plus a continuous exchange of flow of information & people between regions and within regions. Exchanging ideas and mentoring. Leading to pre-project study teams. THE ISSUE Launch Event. Leicester. January 18 2012
RTD Challenges and project concepts Innovations in relation to Intelligent Traffic Systems Improved monitoring and management of air quality and GHG emissions in the urban context EM: Traffic congestion and air quality management EM: Traffic congestion and air quality management MZ: ITS solution for higher traffic safety (accident avoidance) EM: Future carbon and air quality monitoring MO: Innovative traffic management systems as tutor system for speed control MO: Creation of a specific tool (software + hardware) for road safety enhancement MO: Development of an integrated system to manage road traffic and environmental problems MZ: Road information system for network planning and management (including intelligent traffic management) MZ: Innovative solutions to reduce harmful trafficrelated factor (air pollution and noise mitigation) introducing low carbon economy Urban and regional road networks utilisation, planning and optimisation MZ: Road information system for network planning and management (including intelligent traffic management) MZ: Copernicus (GMES) services for transport and physical planning applications using SDI solutions MO: Use of ICT technologies to provide data and information to public transport operators and planning actors MO: Development of innovative public transport planning and management tools MP: Satellite image processing and GIS to provide data for transport and territorial planning Urban transport, mobility, intermodality and interoperability EM: Road freight interoperability across urban/regional interfaces MZ: Location-based service solutions for improvement of transport functioning MP: Development of cooperative systems: M2M, V2V, V2I for travel, traffic and air quality information services and for security issues MP: Indoor and outdoor positioning: GNSS, hybridization methods, precise localisation, indoor/outdoor transition Improved safety, security and health for urban communities Enabling Technologies MP: Development of cooperative systems: M2M, V2V, V2I for travel, traffic and air quality information services and for security issues UAVs for monitoring transport infrastructures and urban air quality EM: Future carbon and air quality monitoring Low Carbon Vehicles MO: Creation of a specific tool (software + hardware) for road safety enhancement Open Source GIS in urban transport applications MZ: Copernicus (GMES) services for transport and physical planning applications using SDI solutions MP: Modelling, management and reliability estimation of passenger flows data (all modes: car, pedestrian, bicycle etc) WP3 JAP Structure Concept 15 March 2013 10
Proof 3 Legacy
Policy Needs Research Outputs Wikipedia Joint Action Plan Road Map for ESIG Commercialisation
European Association