Technical programme
IAC-18 — 69th International Astronautical Congress
D5. 51st IAA SYMPOSIUM ON SAFETY, QUALITY AND KNOWLEDGE MANAGEMENT IN SPACE ACTIVITIES
Quality, safety, security… These domains reflect a same concern: how a complex space system can be developed and be operated in order to give its best with the proper robustness. In that environment, where radiations are not the least stress and possible ill-intentioned actions may occur, decreasing the level of failures in space activities is a must. Knowledge management, meaning proper capturing, capitalising, protecting and sharing the knowledge, and application of lessons learned and experience, are key factors. This Symposium organized by the International Academy of Astronautics aims at arousing the discussion between professionals, and raising the awareness of the new generation on the various approaches to obtain and run reliable, and safe space systems: design solutions, validation and tests, software development, validation and security, methods, management approaches, regulations to improve the quality, efficiency, and collaborative ability of space programs and space operations. All aspects are considered: risk management, complexity of systems and operations, knowledge and information management, human factors, economical constraints, international cooperation, norms, and standards.
- Coordinator
Jeanne Holm
City of Los Angeles — United StatesRoberta Mugellesi-Dow
European Space Agency (ESA) — United Kingdom
D5.1. Quality and safety, a challenge for traditional and new space
Great or small, ambitious or recurrent, every space program is undertaken with great hopes ! But we are far from 100 % success even if ”Faster, better, cheaper” is 20 years old. Now that the span of the actors of space has enlarged, including lots of newcomers, what are the practices to cope with the risks of failure and the results achieved? This session deals with the methods, tests, lessons learned, standards for analysis and mitigation of such risks to maintain the desired quality. It provides an opportunity for exchanges on all aspects of the life cycle (including design, development and production philosophy, operations) and associated risk management approach. It addresses every kind of space missions: transportation systems, orbital systems, exploration vehicles.
- Co-Chair
Manola Romero
3AF — FranceAlexander S. Filatyev
Lomonosov Moscow State University — Russian Federation
- Rapporteur
Pierre Molette
— France
D5.2. Knowledge management for space activities in the digital era
In the today’s digital era, also space businesses should rethink on the KM approaches to generate a community of shared and useful information and knowledge. More advanced technologies give digital workers the opportunity to communicate and collaborate on a regular basis, in addition the proliferation of mobile devices and social media allows content to be more rapidly shared. This new environment pushes towards understanding what critical knowledge is, how it can help drive down costs and seeing solutions. Key themes addressed during the session are: managing the sharing of the knowledge to develop new projects, what solutions are in place to work securely across corporate and international boundaries, how is knowledge captured, shared, and used to drive innovation and create value to the organization, collaboration and culture, the financial value of KM to the business, processes and technologies that organisations are using to sustain, energise and invigorate their ability to learn, innovate, and share knowledge. Examples of case studies of particular interest include successful projects and innovations in the application of knowledge management, grounded research in knowledge and risk management, methods that allow data, information or knowledge exchange within or amongst organisations in support of actual programmes.
- Co-Chair
Roberta Mugellesi-Dow
European Space Agency (ESA) — United KingdomPatrick Hambloch
The Planetary Society — Germany
- Rapporteur
Jeanne Holm
City of Los Angeles — United States
D5.3. Prediction, Testing, Measurement and Effects of space environment on space missions
Space environment has many natural components such as radiation, plasma, atomic oxygen, planetary dusts, extreme temperature, vacuum, micro-gravity, micrometeoroid and debris, etc. and several spacecraft induced components related to contamination, charging or e.g. plume effects. They strongly impact the quality of space missions. Environmental conditions yield constraints at design phase, and important risks in the course of the mission. The evaluation of the average and worst case conditions to be met, and of their impact on missions and sub-systems are thus of prime importance. This session will encompass the following topics: Space Weather, Plasma, Spacecraft Charging, Radiation, Atomic Oxygen, Planetary Dusts, Contamination, Combined Environments through - flight measurements; - physical processes; - prediction of average or worst case condition; - ground testing; - flight experiments and lessons learnt; - modelling and prediction.
- Co-Chair
Jean-Francois Roussel
Office National d’Etudes et de Recherches Aérospatiales (ONERA) — FranceMENGU CHO
Kyushu Institute of Technology — Japan
- Rapporteur
Carlos Soares
NASA Jet Propulsion Laboratory — United States
D5.4. Cyber-security threats to space missions and countermeasures to address them
The global network connectivity offered by the Internet introduces whole new families of cyber-security threats that can target space missions. To send commands to a spacecraft nowadays one would not need to build a ground station, but just penetrate from home or office the existing ground infrastructures, challenging and bypassing their protection measures. These questions will be addressed in the session: - What is the interest of cyber-crime and cyber-activism with respect to space activities? - How are aerospace organisations managing the ability to introduce the right level of security measures in the process to develop new missions? - What solutions are in place to work securely across corporate and international boundaries? - How is knowledge about security threats captured, shared among the constituency, and used to counteract the evolution of cyber threats? - Which ones of these specific threats are to be expected to target space missions, from the ground and up into space? - What is particularly to be expected from the cyber-space to target outer space? Case studies will focus on cryptography, processes, operational security, supply chain, and other aspects of space missions that are all constituting the technical and organizational measures necessary to make a mission “cyber secure”.
- Co-Chair
Stefano Zatti
University of Rome “La Sapienza” — Italy
- Rapporteur
Luca del Monte
ESA - European Space Agency — France
D5.IP. Interactive Presentations - 51st IAA SYMPOSIUM ON SAFETY, QUALITY AND KNOWLEDGE MANAGEMENT IN SPACE ACTIVITIES
This session offers a unique opportunity to deliver your key messages in an interactive presentation on any of the subjects of Safety, Quality and Knowledge Management in Space Activities addressed in the classic Sessions. The presentation will be displayed on a digital screen in a dedicated location and available for view by all Congress attendees for the entire Congress week. In addition, one afternoon is dedicated exclusively for the attendees to view the Interactive Presentations, and the author will be assigned a specific ten minute slot to personally present the topic and interact with the attendees present. The Interactive Presentation may take advantage of all electronic display capabilities, such as: PowerPoint charts, embedded hot links, pictures, audio and video clips etc. An award will also be presented to the author of the best Interactive Presentation in the D Category at a special ceremony. An Abstract that follows the standard format must be submitted by the deadline for standard IAC abstracts.
- Co-Chair
Jeanne Holm
City of Los Angeles — United StatesRoberta Mugellesi-Dow
European Space Agency (ESA) — United Kingdom