Workshop program (new)
Agenda of Summer Space School 2015
Monday, June 22
9.30-10.00 Opening Ceremony.
10.00-10.30 Presentation 1. SSAU National Research Universities.
10.30-11.00 Presentation 2. Samara Aerospace Cluster.
11.00-11.30 Break
11.30-12.00 Presentation 3. Rocket Space Center "Progress" : present and future.
12.00-12.30 Presentation 4. Summer Space School: outlooks and future development.
12.30-14.00 Lunch
14.00-14.30 Presentation 5. Schedule of nanosatellite technologies development in SSAU.
14.30-16.00 School participants presentations
16.00-17.30 Excursion in Aerospace museum
Tuesday, June 23
9.00-10.30 Lecture 1. Introduction to nanosatellite design.
10.30-11.00 Break
11.00-12.30 Lecture 2. Introduction to Altium Designer for nanosatellite electronic subsystems design.
12.30-14.00 Lunch
14.00-15.30 Lecture 3. Introduction to information technologies for nanosatellite design.
15.30-15.45 Break
15.45-17.00 Utilization of ProEngineer/Altium Designer for nanosatellite design
Wednesday, June 24
9.00-10.30 Lecture 4. Basics of space flight mechanics: nanosatellites orbits.
10.30-11-00 Break
11.00-12.30 Lecture 5. Basics of nanosatellite relative motion.
12.30-14.00 Lunch
14.00-15.30 Utilization of ProEngineer/Altium Designer for nanosatellite design.
15.30-15.45 Break
15.45-17.30 Utilization of ProEngineer/Altium Designer for nanosatellite design.
Thursday, June 25
9.00-10.30 Lecture 6. Features of nanosatellite flight dynamics.
10.30-11.00 Break
11.00-12.30 Lecture 7. Control of nanosatellite dynamics motion: flywheels subsystems.
12.30-14.00 Lunch
14.00-15.30 Utilization of ProEngineer/Altium Designer for nanosatellite design.
15.30-15.45 Break
15.45-17.30 Utilization of ProEngineer/Altium Designer for nanosatellite design.
Friday, June 26
10.00-12.00 Excursion to Stalin's bunker.
14.00-15.00 Lunch
14.00-17.00 Final training for information technologies
Saturday, June 27
Excursion. Visit to the Technology Museum in Togliatti.
Sunday, June 28
Excursion. Volga river trip.
Monday, June 29
9.00-10.30 Lecture 8. Design of nanosatellite electronic subsystems (part I).
10.30-11.00 Break
11.00-12.30 Lecture 9. Control of nanosatellite dynamics motion: magnetic control subsystems.
12.30-14.00 Lunch
14.00-15.30 Practice. Nanosatellite for Earth remote sensing: mission analysis/Nanosatellite for improvement of technology for motion autonomous monitoring: mission analysis.
15.30-15.45 Break
15.45-17.30 Practice. Formation requirements to nanosatellite.
Tuesday, June 30
9.00-10.30 Lecture 10. Basics of space navigation.
10.30-11-00 Break
11.00-12.30 Lecture 11. Design of nanosatellite electronic subsystems (part 2).
12.30-14.00 Lunch
14.00-15.30 Practice. Choice of onboard nanosatellite subsystems. Simulation of nanosatellite functioning (part 1)
15.30-15.45 Break
15.45-17.30 Practice. Choice of onboard nanosatellite subsystems. Simulation of nanosatellite functioning(part 2)
Wednesday, July 1
9.00-10.30 Lecture 12. Basics of satellite radio navigation: navigation receivers construction principles.
10.30-11.00 Break
11.00-12.30 Lecture 13. Introduction to programming microcontrollers for onboard nanosatellites.
12.30-14.00 Lunch
14.00-15.30 Testing of nanosatellites.
15.30-15.45 Break
15.45-17.30 Schedule of nanosatellite creation.
Thursday, July 2
9.00-10.30 Lecture 14. New technologies for nanosatellite separation.
10.30-11.00 Break
11.00-12.30 Lecture 15. Nanosatellite Operating Center.
12.30-14.00 Lunch
14.00-15.30 Lecture 16. Programming microcontrollers.
15.30-15.45 Break
16.00-17.30 Excursion to Center of nanosatellite testing. Preparation of presentations on projects.
Friday, July 3
10.00-12.00 Presentation of projects.
12.00-13.00 Closing Ceremony/Issuance of certificates
13.00-14.00 Lunch
14.00-16.00 Excursion to "Samara Space" museum
Saturday, July 4
Departure of participants