Summary
TThe LOFAR for Space Weather (LOFAR4SW) design proposal will deliver the full conceptual and technical design for creating a new leading-edge European research facility for space weather science.
Space weather research is prominent in international research programmes (e.g., H2020, ESA, WMO, COSPAR), because of its high societal relevance: vital infrastructures depend on technology that is vulnerable to the impact of space weather events, particularly geomagnetic storms related to solar outbursts. The implemented LOFAR4SW facility will enable high-impact solar and space weather research, and will uniquely provide the missing link of global measurements of the interplanetary magnetic field – a key parameter in forecasting the severity of geomagnetic storms.
The LOFAR4SW design project maximally leverages the infrastructure and technology of LOFAR; now the world’s foremost low frequency radio astronomy telescope and a widely recognised enabler of innovation. Designing a significant upgrade in hardware, algorithms, and software will allow to create, at a fraction of the cost of building a new facility, a large scale cutting-edge research facility providing simultaneous independent access to both the radio astronomy and the space weather research communities.
For the LOFAR4SW systems design approach, the consortium has a powerful combination of partners, with clear, focused work packages that engage science experts motivated by the physical research challenges and with up-to-date knowledge of the data analysis methods, and link these to engineers intimately familiar with LOFAR and highly experienced in low frequency and data-intensive processing techniques. Emphasis will also be placed on Dissemination of designed data analysis methods to prepare prospective users, on Governance development with stakeholders and policy makers to ensure a support base for a smooth evolution of the LOFAR facility, and on Outreach to promote wider public awareness of space weather issues.
Space weather research is prominent in international research programmes (e.g., H2020, ESA, WMO, COSPAR), because of its high societal relevance: vital infrastructures depend on technology that is vulnerable to the impact of space weather events, particularly geomagnetic storms related to solar outbursts. The implemented LOFAR4SW facility will enable high-impact solar and space weather research, and will uniquely provide the missing link of global measurements of the interplanetary magnetic field – a key parameter in forecasting the severity of geomagnetic storms.
The LOFAR4SW design project maximally leverages the infrastructure and technology of LOFAR; now the world’s foremost low frequency radio astronomy telescope and a widely recognised enabler of innovation. Designing a significant upgrade in hardware, algorithms, and software will allow to create, at a fraction of the cost of building a new facility, a large scale cutting-edge research facility providing simultaneous independent access to both the radio astronomy and the space weather research communities.
For the LOFAR4SW systems design approach, the consortium has a powerful combination of partners, with clear, focused work packages that engage science experts motivated by the physical research challenges and with up-to-date knowledge of the data analysis methods, and link these to engineers intimately familiar with LOFAR and highly experienced in low frequency and data-intensive processing techniques. Emphasis will also be placed on Dissemination of designed data analysis methods to prepare prospective users, on Governance development with stakeholders and policy makers to ensure a support base for a smooth evolution of the LOFAR facility, and on Outreach to promote wider public awareness of space weather issues.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/777442 |
| Start date: | 01-12-2017 |
| End date: | 28-02-2022 |
| Total budget - Public funding: | 2 998 750,00 Euro - 2 998 750,00 Euro |
Cordis data
Original description
TThe LOFAR for Space Weather (LOFAR4SW) design proposal will deliver the full conceptual and technical design for creating a new leading-edge European research facility for space weather science.Space weather research is prominent in international research programmes (e.g., H2020, ESA, WMO, COSPAR), because of its high societal relevance: vital infrastructures depend on technology that is vulnerable to the impact of space weather events, particularly geomagnetic storms related to solar outbursts. The implemented LOFAR4SW facility will enable high-impact solar and space weather research, and will uniquely provide the missing link of global measurements of the interplanetary magnetic field – a key parameter in forecasting the severity of geomagnetic storms.
The LOFAR4SW design project maximally leverages the infrastructure and technology of LOFAR; now the world’s foremost low frequency radio astronomy telescope and a widely recognised enabler of innovation. Designing a significant upgrade in hardware, algorithms, and software will allow to create, at a fraction of the cost of building a new facility, a large scale cutting-edge research facility providing simultaneous independent access to both the radio astronomy and the space weather research communities.
For the LOFAR4SW systems design approach, the consortium has a powerful combination of partners, with clear, focused work packages that engage science experts motivated by the physical research challenges and with up-to-date knowledge of the data analysis methods, and link these to engineers intimately familiar with LOFAR and highly experienced in low frequency and data-intensive processing techniques. Emphasis will also be placed on Dissemination of designed data analysis methods to prepare prospective users, on Governance development with stakeholders and policy makers to ensure a support base for a smooth evolution of the LOFAR facility, and on Outreach to promote wider public awareness of space weather issues.
Status
CLOSEDCall topic
INFRADEV-01-2017Update Date
28-04-2024
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all
Search
Organisations
-
| STICHTING NEDERLANDSE WETENSCHAPPELIJK ONDERZOEK INSTITUTEN (NWO-I) (Coördinator)
-
| CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)
-
| CENTRUM BADAN KOSMICZNYCH POLSKIEJ AKADEMII NAUK
-
| Chalmers University of Technology
-
| OBSERVATOIRE DE PARIS
-
| STICHTING INTERNATIONAL LOFAR TELESCOPE
-
| Trinity College Dublin
-
| UNITED KINGDOM RESEARCH AND INNOVATION
-
| UNIVERSITAET BIELEFELD