SSTSP DERS İÇERİKLERİ (as of 12 Mart 2014)
Yer’e Yakın Uzay Modülü/Near Earth Space Module (52
1. Introduction,
Prof.Dr.Yurdanur Tulunay,
3 hours
1.1 Historical Background
1.2 Definition of Space Weather
1.3 Space Weather Effects on Technologies and Mitigation Activities
1.4 Organisation of the Module
2. Origins of Space Weather,
Prof.Dr. Yurdanur Tulunay,
12 hours
2.1 The Sun and its influence
2.2 The Earth within the Solar System
2.3 The Magnetosphere and Geomagnetic Storms
2.4 The Ionosphere and Thermosphere
3. Telecommunication Systems and Space Weather,
Prof.Dr. Erdem Yazgan, Prof.Dr. Yurdanur Tulunay
3.1 The outline of Terrestrial Telecommunication
3.1.1 Longwave Propagation
3.1.2 Extremely Low Propagation
3.1.3 Very Low Frequency and Low Frequency
3.1.4 Medium Frequency
3.1.5 High Frequency ( short wave) Operational Systems System Performance Modelling
3.2 Earth – Space Telecommunications
3.2.1 Integrated Propagation Effects Refraction Phase and Group Path Variation Ionospheric Doppler Shift
17 hours Faraday Rotation Time Dispersion Absorption Importance of Total Electron Content
3.2.2 Differential Effects and the vertical distribution of the ionospheric electron densities Diurnal variation of scintillation Global morphology of Scintillation Modelling of the Scintillation Channel Mitigation Schemes
3.2.3 Specification and Forecasting of Outages on Satellite Communication and
Navigation Systems
3.2.4 European Warning centers and DIAS Network
4. Case studies for Retrospective construction, Nowcasting, Forecasting of
Space Weather Effects
4.1 Data Driven Modelling Approach,
Prof.Dr.Ersin Tulunay
6 hours
5. Tutorials and a Field Trip
5.1 The Turkish Experience on Satellite Programs, Prof. Dr. Fuat İnce
3 hours
5.2 The CubeSat Experience , Doç. Dr. Gökhan İnalhan
3 hours
5.3 Round Table Sum-up, Lecturers and the Class
3 hours
5.4 A visit to the TURKSAT Uydu Kontrol Merkezi ve TURKSAT Komünikasyon Gözlem
Merkezi ,
Y. Müh. Cemal Şakacı
5 hours

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