EISCAT_3D_2

EISCAT_3D: A European three-dimensional imaging radar for atmospheric and geospace research (Preparatory Phase)

 Coordinatore EISCAT SCIENTIFIC ASSOCIATION 

 Organization address address: RYMDCAMPUS 1
city: KIRUNA
postcode: 981 92

contact info
Titolo: Mr.
Nome: Henrik
Cognome: Andersson
Telefono: +46 980 79153
Fax: +46 980 79159

 Nazionalità Coordinatore Sweden [SE]
 Totale costo 5˙941˙152 €
 EC contributo 4˙495˙227 €
 Programma FP7-INFRASTRUCTURES
Specific Programme "Capacities": Research infrastructures
 Code Call FP7-INFRASTRUCTURES-2010-1
 Funding Scheme CP-CSA-Infra-PP
 Anno di inizio 2010
 Periodo (anno-mese-giorno) 2010-10-01   -   2014-09-30

 Partecipanti

# participant  country  role  EC contrib. [€] 
1    EISCAT SCIENTIFIC ASSOCIATION

 Organization address address: RYMDCAMPUS 1
city: KIRUNA
postcode: 981 92

contact info
Titolo: Mr.
Nome: Henrik
Cognome: Andersson
Telefono: +46 980 79153
Fax: +46 980 79159

SE (KIRUNA) coordinator 1˙243˙414.88
2    OULUN YLIOPISTO

 Organization address address: Pentti Kaiteran Katu 1
city: OULU
postcode: 90014

contact info
Titolo: Dr.
Nome: Leila
Cognome: Risteli
Telefono: +358 8 5533971
Fax: +358 8 5533973

FI (OULU) participant 1˙142˙085.12
3    LULEA TEKNISKA UNIVERSITET

 Organization address address: University Campus, Porsoen
city: LULEA
postcode: SE97187

contact info
Titolo: Ms.
Nome: Ulrica
Cognome: Lång
Telefono: +46 920 493 018
Fax: +46 920 492 191

SE (LULEA) participant 748˙937.43
4    INSTITUTET FOR RYMDFYSIK

 Organization address address: PO BOX 812
city: KIRUNA
postcode: 98128

contact info
Titolo: Ms.
Nome: Yvonne
Cognome: Freiner
Telefono: +46 980 79079
Fax: +46 980 79050

SE (KIRUNA) participant 353˙137.79
5    UNIVERSITETET I TROMSOE

 Organization address address: Hansine Hansens veg 14
city: TROMSO
postcode: 9037

contact info
Titolo: Dr.
Nome: Angelique
Cognome: Prick
Telefono: +47 776 44001
Fax: +47 776 44765

NO (TROMSO) participant 316˙926.20
6    SCIENCE AND TECHNOLOGY FACILITIES COUNCIL

 Organization address address: Polaris House North Star Avenue
city: SWINDON
postcode: SN2 1SZ

contact info
Titolo: Mr.
Nome: Tony
Cognome: Wells
Telefono: 441235000000
Fax: 441235000000

UK (SWINDON) participant 297˙175.43
7    NATIONAL INSTRUMENTS BELGIUM NV

 Organization address address: IKAROSLAAN 13
city: ZAVENTEM
postcode: 1930

contact info
Titolo: Dr.
Nome: Bence
Cognome: áts
Telefono: 3652515926
Fax: 3652515699

BE (ZAVENTEM) participant 262˙290.40
8    UPPSALA UNIVERSITET

 Organization address address: SANKT OLOFSGATAN 10 B
city: UPPSALA
postcode: 751 05

contact info
Titolo: Mrs.
Nome: Elisabeth
Cognome: Lindqvist
Telefono: +46 18 4716339
Fax: +46 18 511925

SE (UPPSALA) participant 75˙796.96
9    VETENSKAPSRADET - SWEDISH RESEARCH COUNCIL

 Organization address address: VASTRA JARNVAGSGATAN 3
city: STOCKHOLM
postcode: 11164

contact info
Titolo: Dr.
Nome: Tomas
Cognome: Andersson
Telefono: +46 8 54644173
Fax: +46 8 54644180

SE (STOCKHOLM) participant 55˙463.41

Mappa


 Word cloud

Esplora la "nuvola delle parole (Word Cloud) per avere un'idea di massima del progetto.

environment    environmental    phased    upper    radars    weather    made    man    northern    consist    measuring    scandinavia    radar    studied    wind    addition    magnetosphere    auroral    scientific    space    construction    scientists    generation    scatter    solar    located    multiple    data    terrestrial    earth    observations    geospace    array    preparatory    eiscat    global    sites    components    frequency    society    infrastructures    site    atmosphere    incoherent    monitoring    community    antenna   

 Obiettivo del progetto (Objective)

EISCAT_3D is a next generation incoherent scatter radar system for high-latitude atmosphere and geospace studies that will be built in northern Fenno-Scandinavia. The facility will consist of multiple large phased-array antenna transmitters/receivers in three countries, comprising tens of thousands of individual antenna elements. The new radars will collect data from the upper stratosphere to the magnetosphere and beyond, contributing to the basic, environmental and applied science that underpins the use of space by contemporary society. EISCAT_3D's capabilities go beyond anything currently available to the international research community and will constitute a valuable scientific resource for the European Research Area.

Located in the auroral zone at the edge of the northern polar vortex, EISCAT_3D will provide long-term continuous data for scientists studying global change, measuring the effects of man-made and natural variability on the middle and upper atmosphere. Its observations will underpin space weather prediction and monitoring, essential for the operation and the improved service of European space assets. In addition EISCAT_3D will facilitate studies of solar system influences on the terrestrial environment, such as solar wind, meteors, dust, energetic particles and cosmic rays, in collaboration with other research infrastructures.

The Preparatory Phase will resolve the remaining legal, financial and technical questions which must be addressed before the construction of EISCAT_3D.

Introduzione (Teaser)

A next-generation phased array technology radar promises a breakthrough in the way environmental scientists monitor changes in the Earth's atmosphere.

Descrizione progetto (Article)

Measuring and understanding man-made changes to Earth is a key focus for environmental scientists. Most of these changes cannot be seen with the naked eye or on our planet's surface. They need to be studied in the Earth's upper atmosphere and the surrounding interplanetary space known as geospace.

This region has been studied for more than 30 years using incoherent scatter radars, remotely sensing geospace. The European Incoherent Scatter Scientific Association (EISCAT) operates radar sites in Scandinavia and the Norwegian archipelagos. However, radar technology has advanced significantly since their construction.

EISCAT and partners initiated the EU-funded EISCAT_3D_2 (A European three-dimensional imaging radar for atmospheric and geospace research (Preparatory Phase)) project to prepare the way for an improved model of the previous radar system. The so-called EISCAT_3D will work at a new frequency and exploit phased array technology to provide observations well beyond what is currently available to the scientific community.

The new radar system will address the needs of modern society to understand the geospace environment as a system and to forecast effects caused by space weather variations. EISCAT_3D is an improvement on traditional incoherent scatter radars that are not able to operate continuously as measuring geophysical instruments.

It will consist of multiple large fields of antennas, known as phased arrays, some of which will be equipped to transmit as well as receive signals. EISCAT scientists have already designed at least five radar sites, one of which will be the central site and include a transmitter.

The radar sites will be spread across the northern regions of Finland, Norway and Sweden, and located within the auroral oval. These locations offer unique research opportunities as the couplings of the solar wind to the magnetosphere, ionosphere and atmosphere are strongest there.

EISCAT_3D_2 represented the preparatory phase that was scheduled to run until 2014. The project team worked on resolving issues blocking the path to beginning construction of the new radar. Among others, the site selection and frequency allocation were finalised taking into account scientific and environmental constraints.

The optimal antenna array layout and receiver configuration was recommended based on simulation work. The assembly of prototypes of key antenna elements allowed scientists to determine their reliability and cost effectiveness. Furthermore, industrial partners were identified for the construction of relevant components.

In addition to acquiring hardware components, dedicated signal processing techniques have been developed. However, handling the large amounts of data expected to be collected (several trillion bytes per second) will require close collaboration with regional and global e-infrastructures for the environment.

EISCAT, through its participation in numerous consortia, will facilitate the sharing of data with other geospace observatories and environmental research entities. In the next construction phase, all computing, storage and networking facilities will be put in place, and the radar system will go through strict testing.

The culmination of all work in EISCAT_3D_2 and the construction phase will ultimately result in the project entering its operational phase. The new EISCAT_3D will make significant contributions to identifying and monitoring solar-terrestrial interdependencies.

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