The ESWW is the main annual event in the European Space Weather calendar. It is the European forum for Space Weather as proven by the high attendance to the past editions.

ESWW15 will again adopt the central aim of bringing together the diverse groups in Europe working on different aspects of Space Weather: scientists, engineers, satellite operators, power grid technicians, communication and navigation specialists, people working in aviation, space weather service providers, etc. (http://www.stce.be/esww15/)

During the conference participants will have an opportunity to learn more about the LOFAR4SW project which will be presented on Friday, November 9 during the session 11 – Space Weather Instrumentation. Dr Richard Fallows will talk about “LOFAR4SpaceWeather: Towards Space Weather Monitoring with Europe’s Largest Radio Telescope“. Presentation will start at 12:27  in large lecture room (MTC 00.10) of Maria Theresia College.

We also recommend for your attention two poster session on 6th and 8th November located within the premises of the University Hall. Attendees can find there, among others, posters related to the LOFAR4SW project and LOFAR observations, which list is presented below:
1.2 Observing the Sun with LOFAR: Current results and future prospective. Zucca, P et al.
1.8 Type II radio burst observed by LOFAR on August 25, 2014. Magdalenic, J et al.
1.12 Tomography Programing for Space Weather Analysis using the Worldwide IPS Stations Network (WIPSS). Jackson, B et al.
1.19 LOFAR observations of fine spectral structure dynamics in type IIIb radio bursts. Sharykin, I et al.
1.22 Insights into Coronal Mass Ejection Shock Kinematics with the Irish Low Frequency Array (I-LOFAR). Maguire, C et al.
1.27 Observations the different types of radio bursts with LOFAR station in Baldy. Dabrowski, B et al.
1.41 CME-driven shock and Type II solar radio burst band-splitting. Chrysaphi, N et al.
3.8 The Worldwide Interplanetary Scintillation (IPS) Stations (WIPSS) Network: Recent Campaign Results Including LOFAR and Steps Towards LOFAR For Space Weather (LOFAR4SW). Bisi, M et al.
11.13 Monitoring of space weather conditions with LOFAR station in Borowiec. Pozoga, M et al.
12.13 Ionospheric response to strong geomagnetic storms from 2017 analysed on the basis of the LOFAR data. Matyjasiak, B et al.