- Title
- Optimizing MIDAS III over South Africa
- Creator
- Giday, Nigussie Mezgebe
- ThesisAdvisor
- Katamzi, Zama
- ThesisAdvisor
- McKinnell, L. A. (Lee-Anne)
- Subject
- Multi-Instrument Data Analysis System (MIDAS)
- Subject
- Global Positioning System
- Subject
- Ionosphere -- South Africa
- Subject
- Ionospheric electron density -- South Africa
- Subject
- Ionosondes -- South Africa
- Subject
- Tomography -- Scientific applications -- South Africa
- Date
- 2014
- Type
- Thesis
- Type
- Masters
- Type
- MSc
- Identifier
- vital:5517
- Identifier
- http://hdl.handle.net/10962/d1011277
- Identifier
- Multi-Instrument Data Analysis System (MIDAS)
- Identifier
- Global Positioning System
- Identifier
- Ionosphere -- South Africa
- Identifier
- Ionospheric electron density -- South Africa
- Identifier
- Ionosondes -- South Africa
- Identifier
- Tomography -- Scientific applications -- South Africa
- Description
- In this thesis an ionospheric tomographic algorithm called Multi-Instrument Data Anal- ysis System (MIDAS) is used to reconstruct electron density profiles using the Global Positioning System (GPS) data recorded from 53 GPS receivers over the South African region. MIDAS, developed by the Invert group at the University of Bath in the UK, is an inversion algorithm that produces a time dependent 3D image of the electron density of the ionosphere. GPS receivers record the time delay and phase advance of the trans- ionospheric GPS signals that traverse through the ionosphere from which the ionospheric parameter called Total Electron Content (TEC) can be computed. TEC, the line integral of the electron density along the satellite-receiver signal path, is ingested by ionospheric tomographic algorithms such as MIDAS to produce a time dependent 3D electron density profile. In order to validate electron density profiles from MIDAS, MIDAS derived NmF2 values were compared with ionosonde derived NmF2 values extracted from their respective 1D electron density profiles at 15 minute intervals for all four South African ionosonde stations (Grahamstown, Hermanus, Louisvale, and Madimbo). MIDAS 2D images of the electron density showed good diurnal and seasonal patterns; where a comparison of the 2D images at 12h00 UT for all the validation days exhibited maximum electron concentration during the autumn and summer and a minimum during the winter. A root mean square error (rmse) value as small as 0.88x 10¹¹[el=m³] was calculated for the Louisvale ionosonde station during the winter season and a maximum rmse value of 1.92x 10¹¹[el=m³] was ob- tained during the autumn season. The r² values were the least during the autumn and relatively large during summer and winter; similarly the rmse values were found to be a maximum during the autumn and a minimum during the winter indicating that MIDAS performs better during the winter than during the autumn and spring seasons. It is also observed that MIDAS performs better at Louisvale and Madimbo than at Grahamstown and Hermanus. In conclusion, the MIDAS reconstruction has showed good agreement with the ionosonde measurements; therefore, MIDAS can be considered a useful tool to study the ionosphere over the South African region.
- Format
- 100 p., pdf
- Publisher
- Rhodes University, Faculty of Science, Physics and Electronics
- Language
- English
- Rights
- Giday, Nigussie Mezgebe
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