WP13: Enabling actions February 15, 2010 This work package was set up to explore the issues related to the identification of actual ..
WP12: Networking and reference time and frequency February 12, 2010 At each antenna array of the EISCAT_3D system, high quality timing and ..
WP11: Implementation blueprint February 12, 2010 The goal of the EISCAT_3D Design Study was to produce a complete specification and set of ..
WP10: New ways of exploiting incoherent scatter radars February 12, 2010 The unique capabilities of the proposed EISCAT_3D radar will make it ..
WP9: Signal processing February 12, 2010 The effective operation of the distributed components of the receiver, the post-set forming of multiple antenna ..
WP8: Data archiving and distribution February 12, 2010 This work package was assigned the task of designing a data-handling system capable of ..
WP7: Distributed control and monitoring February 12, 2010 Both the global control and monitoring of the whole EISCAT_3D facility and the low-level ..
WP6: Active element February 12, 2010 This Work Package of the EISCAT_3D Design Study covered the design of the active component of ..
WP5: Interferometry February 12, 2010 Studies of very fine scale plasma phenomena require the routine employment of interferometric techniques in order to ..
WP4: Phased array receivers February 12, 2010 A key element of the EISCAT_3D radar is the ability to receive scattered radar power ..
WP3: Evaluation of the options for the active element February 12, 2010 A major part of the cost of the new EISCAT_3D ..
WP2: Evaluation of design performance goals February 12, 2010 This Work Package of the EISCAT_3D Design Study was dedicated to surveying the ..
WP1: Management of the EISCAT_3D Design Study February 12, 2010 The Management Work Package was running throughout the EISCAT_3D Design Study to ..
The Design Study has now ended The design study ran as a Specific Support Action under the Framework Programme 6 initiative (EU ..