CEDAR email: System-Scale Data Analysis to Resolve Thermospheric Joule Heating: Announcement of Registration and Abstract Submission for 1-day Workshop
Shore, Robert M.
robore at bas.ac.uk
Mon Feb 5 07:01:41 MST 2018
We are pleased to announce that registration and abstract submission are now open for the 1-day workshop "System-Scale Data Analysis to Resolve Thermospheric Joule Heating", which will be held at the British Antarctic Survey (Cambridge, UK) on Friday 27th April 2018.
The aim of this workshop is to give a forum for discussing of the interdisciplinary utility of data-driven analytical techniques, and the best ways to harness the potential of the available large datasets which are driving advances in near-Earth space research. The specific focus of the workshop is on the intrinsically interdisciplinary problem of resolving Joule heating - the transfer of energy from electrical currents in the ionosphere to the neutral particles of the upper atmosphere.
Registration and practical details are here: https://www.eventbrite.co.uk/e/system-scale-data-analysis-to-resolve-thermospheric-joule-heating-tickets-42453674082. Registration is open until 23rd April. Note that financial support is available for attending postgraduate students.
Abstract submission and details on the scientific focus of the meeting are here: https://goo.gl/forms/HWxTUEmG6XNge0LV2. Abstract submission deadline is 19th March.
Why this workshop is needed:
To enjoy the benefits of an improved description of Joule heating and to improve predictions of its impact, we must understand its components - ionospheric electric field, conductivity and current flow - and the solar, magnetospheric and thermospheric factors which drive them. These improvements require systems-level (global) analyses, spanning the complex and strongly coupled solar-terrestrial environment. The increasing availability of large ground-based and satellite datasets, such as AMPERE, SuperDARN and SuperMAG which span multiple years (even multiple solar cycles) with often excellent geographic coverage provides an unprecedented set of complementary observations to achieve this.
Analytical techniques from the disciplines of statistics, machine learning and information theory are driving new discoveries of spatiotemporal trends and interdependencies in solar-terrestrial system phenomena. We see a need to communicate the use of these techniques to the solar-terrestrial community. We aim to foster discussion on new and existing techniques which provide state-of-the-art descriptions of the Joule heating, its causative electrodynamic components, and the associated thermospheric response. In particular, we seek out approaches which exploit all available data, rather than focusing on single instruments, epochs, or phenomena. Contributions which improve the understanding of coupling between systems and thus improve the nowcasting, forecasting or hindcasting of Joule heating phenomena are especially welcome.
Conveners: Robert Shore, Anasuya Aruliah, John Coxon, Elizabeth Tindale.
For more information please contact Rob Shore at robore at bas.ac.uk<mailto:robore at bas.ac.uk>.
Kind regards,
Rob (on behalf of the conveners)
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