Technical programme
IAC-14 — 65th International Astronautical Congress
C1. ASTRODYNAMICS SYMPOSIUM
This symposium addresses advances in orbital mechanics, attitude dynamics, guidance, navigation and control of single or multi-spacecraft systems as well as space robotics.
- Coordinator
Alfred Ng
Canadian Space Agency — CanadaAnna Guerman
Centre for Mechanical and Aerospace Science and Technologies (C-MAST) — Portugal
C1.1. Orbital Dynamics (1)
This theme discusses advances in the knowledge of natural motions of objects in orbit aroung the Earth, planets, minor bodies, Lagrangian points and more generally natural orbital dynamics of spacecraft in the Solar System. It also covers advances in orbit determination.
- Co-Chair
Johannes Schoenmaekers
European Space Operations Centre — GermanyWeihua Zhang
National University of Defense Technology — China
- Rapporteur
Antonio Almeida Prado
INPE — Brazil
C1.2. Orbital Dynamics (2)
This theme discusses advances in the knowledge of natural motions of objects in orbit around the Earth, planets, minor bodies, Langrangian points and more generally natural orbital dynamics of spacecraft in the Solar System. It also covers advances in orbit determination.
- Co-Chair
Josep J. Masdemont
Universitat Politecnica de Catalunya (UPC) — SpainOthon Winter
São Paulo State University - Universidade Estadual Paulista (UNESP) — Brazil
- Rapporteur
Shoji Yoshikawa
Mitsubishi Electric Corporation — Japan
C1.3. Attitude Dynamics (1)
This theme discusses advances in spacecraft attitude dynamics and control, as well as design, testing and performance of novel attitude sensors and actuators. This theme also covers dynamics and control of multiple interconnected regidi and flexible bodies, including tethered systems, an in-orbit assembly.
- Co-Chair
Mikhail Ovchinnikov
Keldysh Institute of Applied Mathematics, RAS — Russian FederationAmalia Ercoli Finzi
Politecnico di Milano — Italy
- Rapporteur
Hao-Chi Chang
tiSPACE Inc. — Unknown
C1.4. Attitude Dynamics (2)
This theme discusses advances in spacecraft attitude dynamics and control, as well as design, testing and performance of novel attitude sensors and actuators. This theme also covers dynamics and control of multiple interconnected regidi and flexible bodies, including tethered systems, an in-orbit assembly.
- Co-Chair
Kazuya Yoshida
Tohoku University — JapanSimei Ji
Beijing Institute of Technology — China
- Rapporteur
Paolo Teofilatto
Sapienza University of Rome — Italy
C1.5. Guidance, Navigation and Control (1)
The emphasis of this theme is on the studies and application related to the guidance, navigation and control of Earth-orbiting and interplanetary spacecraft and rockets, including formation flying, rendezvous and docking.
- Co-Chair
Eberhard Gill
Delft University of Technology — The NetherlandsJames O'Donnell
National Aeronautics and Space Administration (NASA), Goddard Space Flight Center — United States
- Rapporteur
Igor V. Belokonov
Samara National Research University (Samara University) — Russian Federation
C1.6. Guidance, Navigation and Control (2)
The emphasis of this theme is on the studies and application related to the guidance, navigation and control of Earth-orbiting and interplanetary spacecraft and rockets, including formation flying, rendezvous and docking.
- Co-Chair
Bernard Lübke-Ossenbeck
OHB System AG-Bremen — GermanyBenedicte Escudier
Institut Supérieur de l'Aéronautique et de l'Espace (ISAE) — France
- Rapporteur
Fuyuto Terui
Kanagawa Institute of Technology — Japan
C1.7. Guidance, Navigation and Control (3)
The emphasis of this theme is on the studies and application related to the guidance, navigation and control of Earth-orbiting and interplanetary spacecraft and rockets, including formation flying, rendezvous and docking.
- Co-Chair
Daniel Scheeres
Colorado Center for Astrodynamics Research, University of Colorado — United StatesArun Misra
Mc Gill Institute for Aerospace Engineering (MIAE) — Canada
- Rapporteur
Yong Chun Xie
Beijing Institute of Control Engineering, China Academy of Space Technology (CAST) — China
C1.8. Mission Design, Operations and Optimization (1)
The theme covers design, operations and optimization of Earth-orbiting and interplanetary missions, with emphasis on studies and experiences related to current and future missions.
- Co-Chair
Kathleen Howell
Purdue University — United StatesVincent Martinot
Thales Alenia Space France — France
- Rapporteur
Filippo Graziani
G.A.U.S.S. Srl — Italy
C1.9. Mission Design, Operations and Optimization (2)
The theme covers design, operations and optimization of Earth-orbiting and interplanetary missions, with emphasis on studies and experiences related to current and future missions.
- Co-Chair
Yury Razoumny
RUDN University — Russian FederationDavid Spencer
The Aerospace Corporation — United States
- Rapporteur
Richard Epenoy
Centre National d'Etudes Spatiales (CNES) — France