EUFAR EUropean Facility for Airborne Research to EUFAR Integrating Activity of the EC FP7 Budget 8 M Duration 4 years (2008 2012) 33 Partners 22 aircraft open to Trans national Access Jean Louis Brenguier, Coordinator
open to Transnational Access (TA) OPERATORS CATEGORIES 1. Strato. jet 2. Jets 3. Large A/C 4. Medium A/C 5. Small A/C Geophysica EEIG Geophysica DLR HALO Cessna 208B NLR Citation ENVISCOPE Learjet Partenavia SAFIRE F 20 ATR 42 Piper Aztec MetOffice BAe 146 NERC Do 228 INTA 2 CASA 212 TAU King Air 200 GTK Twin Otter Caravan TU BS Do 128 FUB Cessna 207 TMG ASK 16 UNIMAN C 182 CNR IBIMET ky Arrow IFU Microlight TOTAL AIRCRAFT : 24 1 4 2 8 9 k /flight hour: 16 9 28 9 11 3 to 6 0.8 to 3
EUFAR acts as an interface between aircraft operators, scientific users and funding institutions, to facilitate the evolution from the existing patchwork of national organisations toward a European distributed infrastructure for airborne research.
Météo France (FR) Coordinator MetOffice (UK) DLR (DE) NLR (NL) Enviscope (DE) CNRS (FR) NERC (UK) INTA (ES) GTK (FI) FUB (DE) FZK (DE) AWI (DE) CNR IBIMET (IT) UNIMAN (UK) VITO (BE) 15 aircraft or instruments operators and 18 experts in airborne measurements Jülich (DE) JOGU (DE) STFC (UK) USZ (HU) UCAM DCHEM (UK) UHEI (DE) UWAR (PL) COSINE (NL) IRSN (FR) COMAT (FR) VKI (BE) UZH (CH) WU (NL) USBE (CZ) TAU (IL) UEDIN (UK) GFZ (DE) PML (UK)
Long Term Objectives To lay the groundwork of a European distributed infrastructure for airborne research in environmental and geo sciences for each European scientist to get access at "equal terms" to the airborne facility the most suited to his scientific objectives, irrespective of his origin and of where the facility is operated.
Better service to the users: The most complete fleet, easy access, strong scientific and technical support Improved aircraft performance: Range, ceiling, payload, cost Reduced duplication Optimized operation (200 600 flight hours/year) Stronger expertise in airborne instrumentation
Research Funding Institutions Future of the Fleet Sustainable Structure Scientific Advisory Committee Trans national Access Education & Training Scientific Users Experts in Airborne Instrumentation Expert WGs Standards and Protocols Network of Aircraft Operators Data Base EUFAR Web site
Networking Activities 2 M N1. Scientific Advisory Committee ( CNRM) N2. Transnational Access coordination ( MetOffice) N3. Future of the Fleet ( Jülich) N4. Expert Working Groups ( JOGU) N5. Education and Training ( VITO) N6. Standards and Protocols ( DLR) N7. Airborne Data Base ( STFC) N8. E Communication ( CNRM) N9. Sustainable structure ( CNRM) Transnational Activities (TA) 3 M Joint Research Activities (JRA) 2,4 M. Development and evaluation of new and improved hygrometers for airborne research (DENCHAR Jülich). Quality layers for airborne hyperspectral imagery and data products (HYQUAPRO VITO). Airborne Laser Interferometric Drop Sizer (ALIDS IRSN)
Scientific Advisory Committee The Scientific Advisory Committee is constituted of about 12 members, with broad scientific background and experience, geographical representation and gender balance Objectives: To provide the with independent strategic recommendations on EUFAR objectives and long term developments (based on EUFAR accomplishments, difficulties encountered, statistics on the activities of the infrastructures and on their scientific impact)
Trans national Access Coordination Objectives: To implement EUFAR Trans national Access activities in a coordinated way Designation of the members of the selection panel, implementation of the selection criteria and review procedures Regular sequence of calls for proposals and evaluation meetings (independent scientific review of the proposals) 22 aircraft open to TA Support planned for 64 projects: 201 users and 538 flight hours EUFAR FP6 Achievements: 74 proposals received Support allocated to 46 projects: 230 users and 412 flight hours
Future of the Fleet Objectives: To evaluate the performance of the existing fleet and identify gaps The availability of a stratospheric aircraft in Europe has already been selected as a priority for the development of the fleet To provide solutions for the long term development of the fleet EUFAR FP6 Achievements: Launch of the COPAL EC Preparatory Phase project for the construction of a heavy payload and long endurance aircraft for multidisciplinary research in the middle and lower troposphere
Expert Working Groups Objectives: To compile the knowledge in a high level handbook on Airborne Physical Measurements Methods and Instruments (state of the art in airborne physical measurement principles and techniques) To improve the expertise among the specialized scientists in 18 fields of airborne research by organizing experts workshops To facilitate the transfer of expert knowledge to users, operators, and funding agencies EUFAR FP6 Achievements: 12 Expert Working Groups 13 Expert Workshops organized
Expert Working Groups List of Expert Working Groups: Support to airborne measurements: Certification/Operation Instrument Integration Data Processing Imaging sensors Cal/Val Unmanned Aerial Systems Specific measurement fields: In Situ Aerosols Gas Phase Chemistry Cloud Microphysics Radiation Solid Earth Geophysics Thermodynamics Turbulence Stratospheric Research Polar Research Active Remote Sensing Hyperspectral Applications for Soil Hyperspectral Applications for Vegetation Hyperspectral Applications for Water
Education and Training Objectives: To promote airborne research in the European academic community To educate and train (theoretically and practically) new early stage researchers in airborne atmospheric research and airborne hyperspectral remote sensing To train trainers (e.g. university lecturers) in airborne atmospheric research and airborne hyperspectral remote sensing 3 opportunities: Training courses on airborne research Invited access to existing campaigns Participation in the design of a new field campaign. Tutoring by experienced scientists EUFAR FP6 Achievements: 30 young scientists invited to field experiments (out of 48 applications) 2 training courses on airborne measurements organised: Boundary layer research with airborne instruments (Romania, July 2007): 40 candidates, 27 selected Airborne cloud and aerosol science (The Netherlands, April 2008): 53 candidates, 20 selected
Standards and Protocols Objectives: To develop common protocols for airborne hyperspectral remote sensing (compilation, harmonisation and improvement of existing protocols in compliance with existing standards) To support users and operators with recommendations on best practice and state of theart software for airborne data pre processing To develop and publish open source software toolboxes for higher level data products, and data analysis To define standards for data transfer in real time
Data Base Objectives: To provide a centralised gateway to data acquired onboard aircraft (both in situ and remote sensed) along with supporting metadata, collected by the aircraft of the EUFAR Fleet. A data archive and web interface will be set up. This will include providing well documented, centralised access to distributed archives and a secure accessible archive for remaining offline data. Support will be given to data providers to attain community agreed standard data formats. Once established this service will provide the capacity for one stop shop access to EUFAR data and will be of benefit to both project partners and the wider scientific community alike.
E_Communication Objectives: To elaborate solutions on Internet for the dissemination of the EUFAR information, for facilitating the electronic submission of transnational access proposals and their evaluation, and for providing all EUFAR working groups with a secured domain for collaborative activities EUFAR WEB Front Office: Information about aircraft, instruments, expert working groups, etc EUFAR WEB Back Office: Online evaluation of TA proposals Documents sharing
E_Communication : a unique portal for all European airborne activities 1000 scientists registered
: list of expert working groups
: expert working groups details
: list of aircraft
: aircraft details
: instruments
Sustainable Structure Objectives: To develop a framework for a sustainable EUFAR structure by: Evaluating possible models of legal structure for a joint management of the network Promoting the extension of trans national access beyond Community support (Equal Terms Trans national Access) Compiling information on the activities of the fleet and their scientific impact to support strategic decisions Developing coordination with the COPAL Preparatory Phase study and the international community of research aircraft operators
Development and evaluation of new compact hygrometers for airborne research (DENCHAR) Objectives: Development and evaluatation of novel compact hygrometers for airborne research Investigation of the sampling characteristics of different gas/ice inlets Development of an improved ultra fast thermometer for near and in cloud measurements
Quality layers for airborne hyperspectral imagery and data products (HYQUAPRO) Objectives: To develop quality indicators and quality layers for airborne hyperspectral imagery To develop quality indicators and quality layers for higher level data products To implement and to test quality layers in existing processing chains of airborne hyperspectral imagery To develop higher performing water and soil algorithms as demonstrators for end to end processing chains with harmonized quality measures
Airborne Laser Interferometric Drop Sizer (ALIDS) Objectives: To design and construct an airborne drop spectrometer based on a new principle, that provides absolute measurements of the drop size and a large sampling section.
JRA EUFAR FP6 Achievements EUFAR FP6 Achievements: design and construction of two airborne pods for measurements of physical and optical aerosol properties: Unique standard for airborne measurements, Usable on more than 50% of the EUFAR Fleet.
Thank You!! EUFAR Summer School on Boundary Layer Research with SAFIRE ATR42 aircraft