session 2B
- Title
Systems and Infrastructures to Implement Sustainable Space Development and Settlement - Technologies
- type
oral
- Description
The emergence of new technologies will be essential to realizing the various systems and infrastructures that will be needed to enable ambitious scenarios for sustainable future space exploration, utilization and eventual settlement. Technologies for new, reusable space infrastructures are needed, including the following: (1) infrastructures that enable affordable and reliable access to space for both exploration systems and logistics; (2) infrastructures for affordable and reliable transportation in space, including access to/from lunar and planetary surfaces for crews, robotic and supporting systems and logistics; (3) infrastructures that allow sustained, affordable and highly effective robotic and human operations on the Moon, Mars and other destinations; and, (4) supporting in space infrastructures that provide key services (such as communications, navigation, etc.). Papers are solicited in these and related areas.
- Date
2022-09-22
- Time
- Room
- IPC members
Co-Chair: Mr. Alain Pradier, European Space Agency (ESA), The Netherlands;
Co-Chair: Dr. Christopher Moore, National Aeronautics and Space Administration (NASA), United States;
Rapporteur: Dr. Alain Dupas, European Bank for Reconstruction and Development, France;
Rapporteur: Mr. Gary Barnhard, National Space Society, United States;
Order | Time | Paper title | Mode | Presentation status | Speaker | Affiliation | Country |
|---|---|---|---|---|---|---|---|
1 | 10:15 | 11 | confirmed | Dr. Christophe FIGUS | Airbus Defence and Space SAS | France | |
2 | 10:26 | 11 | confirmed | Dr. Peter Weiss | Spartan Space | France | |
3 | 10:37 | 11 | confirmed | Prof. Alex Ellery | Carleton University, Space Exploration and Engineering Group | Canada | |
4 | 10:48 | Lunar Regolith Behavior in Vacuum for ISRU Transportation and Storage | 11 | confirmed | Mr. Jason Noe | Michigan Technological University | United States |
5 | 10:59 | An airlock concept to limit the biological contamination of Mars during a human exploration mission | 11 | confirmed | Dr. Christiane Heinicke | ZARM, University of Bremen | Germany |
6 | 11:10 | CMG-Powered Artificial Gravity and Magnetic Loading System for Lunar Settlements | 11 | confirmed | Ms. Spoorthi M.S. | University of Petroleum and Energy Studies | India |
7 | 11:21 | Conceptual Design of a Liquid Water Storage System for Lunar Life Support and Exploration | 11 | confirmed | Mr. Tim Altorfer | ZHAW – Zurich University of Applied Sciences | Switzerland |
8 | 11:32 | Establishing Distributed Control Networks in Smart Lunar Bases | 11 | confirmed | Mr. Jiawei Qiu | University of Arizona | United States |
9 | 11:43 | 11 | confirmed | Mr. Gary Barnhard | XISP-Inc | United States | |
10 | 11:54 | On-Orbit Servicing: International Consensus about Standardization of Interfaces | 11 | confirmed | Mr. Virgile Gautier | Space Generation Advisory Council (SGAC) | Germany |
11 | 12:05 | 11 | confirmed | Dr. Luciana Tenorio Carrera | Department of Engineering, The University of Tokyo | Japan | |
12 | 12:16 | Molten regolith electrolysis: system design and vacuum component testing | 11 | Dr. Laurent Sibille | Southeastern Universities Research Association (SURA) | United States | |
13 | 12:27 | Horizontal construction on the Moon using regolith compaction | 11 | confirmed | Dr. Gordon Wasilewski | Astronika | Poland |