session 3
Technologies to Enable Space Systems
- type
oral
- Description
This session will focus on innovative, technological developments that are usually high risk, but which have the potential to significantly enhance the performance of existing and new space systems. Enabling innovative technologies for space applications often result from spin-ins which will be discussed during the session, together with potential spin-offs. Examples include instrumentation, biotechnology, components, micro- and nano-technology, MEMs, advanced new structures and software techniques.
- Date
2018-10-02
- Time
- Room
- IPC members
Co-Chair: Mr. Steven Arnold, The John Hopkins University Applied Physics Laboratory, United States;
Co-Chair: Mr. Xavier Roser, Thales Alenia Space France, France;
Rapporteur: Mr. Eiichi Tomita, Japan Aerospace Exploration Agency (JAXA), Japan;
Order | Time | Paper title | Mode | Presentation status | Speaker | Affiliation | Country |
---|---|---|---|---|---|---|---|
1 | 14:45 | Advanced GNC for In-Orbit Autonomous Assembly of Flexible Vehicles – IOA-GNC | 15 | confirmed | Ms. Aída Alcalde Barahona | G.M.V. Space and Defence, S.A. | Spain |
2 | 15:00 | Ground testing of vision-based GNC systems by means of a new experimental facility | 12 | confirmed | Dr. Paolo Lunghi | Politecnico di Milano | Italy |
3 | 15:12 | A HIGHLY INTEGRATED NAVIGATION UNIT FOR ON-ORBIT SERVICING MISSIONS | 12 | confirmed | Dr. Vincenzo Capuano | Techno System Developments S.R.L. | Italy |
4 | 15:24 | Testing vision-based guidance and navigation systems for entry descent and landing operations | 12 | confirmed | Dr. Martin Dunstan | University of Dundee | United Kingdom |
5 | 15:36 | Rover Orientation Estimation using Sun Sensors for Lunar and Planetary Exploration | 12 | confirmed | Mr. Takuto Oikawa | Tohoku University | Japan |
6 | 15:48 | A new complementary multi-core data processor for space applications | 12 | confirmed | Mr. Daniele Luchena | ARCA Dynamics | Italy |
7 | 16:00 | Problems, Challenges and Experiences from Several Practical SoC Chips for Spaceborne Electronics | 12 | no-show | Dr. Hui Cao | Xi'an Microelectronics Technology Institute, China Academy of Space Electronics Technology (CASET), China Aerospace Science and Technology Corporation (CASC) | China |
8 | 16:12 | application of gpu on-orbit and self-adaptive scheduling by its internal thermal sensor | 10 | confirmed | Mr. Nan Li | University of Chinese Academy of Sciences; Technology and Engineering Center for Space Utilization, Chinese Academy of Sciences | China |
9 | 16:22 | Beyond functional correctness - Getting Flight Software Timing Right | 10 | confirmed | Mr. Andreas Wortmann | OHB System | Germany |
10 | 16:32 | 12 | confirmed | Prof. Shinichi Kimura | Tokyo University of Science | Japan | |
11 | 16:44 | Thermoelectric system of thermostating for space stations, Moon and Martian bases | 10 | confirmed | Mr. Oleksandr Loza | Yuzhnoye State Design Office | Ukraine |
12 | 16:54 | Fault Estimation and Fault-tolerant Control for Control Moment Gyro Actuated High Agility Spacecraft | 10 | confirmed | Mr. Chengfei Yue | National University of Singapore | Singapore, Republic of |
13 | 17:04 | Application of a Scintillator Detector as a Fault Tolerance System for FPGA | 10 | no-show | Mr. Juan Salvador Tafoya Vargas | Universidad Nacional Autónoma de México (UNAM) | Mexico |