congress IAC-20
Sessions by date-time
Date is N/A
- A1.1. Behaviour, Performance and Psychosocial Issues in Space
- A1.2. Human Physiology in Space
- A1.3. Medical Care for Humans in Space
- A1.4. Medicine in Space and Extreme Environments
- A1.5. Radiation Fields, Effects and Risks in Human Space Missions
- A1.6. Astrobiology and Exploration
- A1.7. Life Support, habitats and EVA Systems
- A1.8. Biology in Space
- A2.1. Gravity and Fundamental Physics
- A2.2. Fluid and Materials Sciences
- A2.3. Microgravity Experiments from Sub-Orbital to Orbital Platforms
- A2.4. Science Results from Ground Based Research
- A2.5. Facilities and Operations of Microgravity Experiments
- A2.6. Microgravity Sciences on board ISS and beyond
- A2.7. Life and Physical Sciences under reduced Gravity
- A3.1. Space Exploration Overview
- A3.2A. Moon Exploration – Part 1
- A3.2B. Moon Exploration – Part 2
- A3.2C. Moon Exploration – Part 3
- A3.3A. Mars Exploration – missions current and future
- A3.3B. Mars Exploration – Science, Instruments and Technologies
- A3.4A. Small Bodies Missions and Technologies (Part 1)
- A3.4B. Small Bodies Missions and Technologies (Part 2)
- A3.5. Solar System Exploration including Ocean Worlds
- A4.1. SETI 1: SETI Science and Technology
- A4.2. SETI 2: SETI and Society
- A5.1. Human Exploration of the Moon and Cislunar Space
- A5.2. Human Exploration of Mars
- A5.3-B3.6. Human and Robotic Partnerships in Exploration - Joint session of the IAF Human Spaceflight and IAF Exploration Symposia
- A5.4-D2.8. Space Transportation Solutions for Deep Space Missions
- A6.1. Space Debris Detection, Tracking and Characterization
- A6.2. Modeling and Risk Analysis
- A6.3. Impact-Induced Mission Effects and Risk Assessments
- A6.4. Mitigation - Tools, Techniques and Challenges
- A6.5. Post Mission Disposal and Space Debris Removal (1)
- A6.6. Post Mission Disposal and Space Debris Removal (2)
- A6.7. Operations in Space Debris Environment, Situational Awareness
- A6.8-E9.1. Political, Legal, Institutional and Economic Aspects of Space Debris Detection, Mitigation and Removal
- A6.9. Orbit Determination and Propagation
- A6.10-B6.5. Joint Space Operations/ Space Debris Session
- A7.1. Space Agency Strategies and Plans
- A7.2. Science Goals and Drivers for Future Exoplanet, Space Astronomy and Space Physics
- A7.3. Technology Needs for Future Missions, Systems, and Instruments
- B1.1. International Cooperation in Earth Observation Missions
- B1.2. Future Earth Observation Systems
- B1.3. Earth Observation Sensors and Technology
- B1.4. Earth Observation Data Management Systems
- B1.5. Earth Observation Applications, Societal Challenges and Economic Benefits
- B1.6. 20th Anniversary of the Disaster Charter: History, Status and Future of this Powerful and Productive International Cooperation
- B2.1. Advances in Space-based Communication Systems and Services, Part 1
- B2.2. Advances in Space-based Communication Systems and Services, Part 2
- B2.3. Advances in Space-based Communication Systems and Services, Part 3
- B2.4. Advances in Space-based Communication Technologies, Part 1
- B2.5. Advances in Space-based Communication Technologies, Part 2
- B2.6. Advances in Space-based Navigation Systems, Services, and Applications
- B2.7. Advances in Space-based Navigation Technologies
- B2.8-GTS.3. Space Communications and Navigation Global Technical Session
- B3.1. Governmental Human Spaceflight Programmes (Overview)
- B3.2. Commercial Human Spaceflight Programmes
- B3.3. Utilization & Exploitation of Human Spaceflight Systems
- B3.4-B6.4. Flight & Ground Operations of HSF Systems - Joint Session of the IAF Human Spaceflight and IAF Space Operations Symposia)
- B3.5. Astronaut Training, Accommodation, and Operations in Space
- B3.6-A5.3. Human and Robotic Partnerships in Exploration - Joint session of the IAF Human Spaceflight and IAF Exploration Symposia
- B3.7. Advanced Systems, Technologies, and Innovations for Human Spaceflight
- B3.8. Human Space & Exploration
- B3.9-GTS.2. Human Spaceflight Global Technical Session
- B4.1. 21st Workshop on Small Satellite Programmes at the Service of Developing Countries
- B4.2. Small Space Science Missions
- B4.3. Small Satellite Operations
- B4.4. Small Earth Observation Missions
- B4.5. Access to Space for Small Satellite Missions
- B4.5A-C4.8. Joint Session between IAA and IAF for Small Satellite Propulsion Systems
- B4.6A. Generic Technologies for Small/Micro Platforms
- B4.6B. Generic Technologies for Nano/Pico Platforms
- B4.7. Constellations and Distributed Systems
- B4.8. Small Spacecraft for Deep-Space Exploration
- B4.9-GTS.5. Small Satellite Missions Global Technical Session
- B5.1. Tools and Technology in Support of Integrated Applications
- B5.2. Integrated Applications End-to-End Solutions
- B5.3. Satellite Commercial Applications
- B6.1. Ground Operations - Systems and Solutions
- B6.2. New Space Operations Concepts and Advanced Systems
- B6.3. Mission Operations, Validation, Simulation and Training
- B6.4-B3.4. Flight & Ground Operations of HSF Systems - A Joint Session of the IAF Human Spaceflight and IAF Space Operations Symposia)
- B6.5-A6.10. Joint Space Operations/ Space Debris Session
- C1.1. Guidance, Navigation and Control (1)
- C1.2. Guidance, Navigation and Control (2)
- C1.3. Guidance, Navigation & Control (3)
- C1.4. Mission Design, Operations & Optimization (1)
- C1.5. Mission Design, Operations & Optimization (2)
- C1.6. Orbital Dynamics (1)
- C1.7. Orbital Dynamics (2)
- C1.8. Attitude Dynamics (1)
- C1.9. Attitude Dynamics (2)
- C2.1. Space Structures I - Development and Verification (Space Vehicles and Components)
- C2.2. Space Structures II - Development and Verification (Deployable and Dimensionally Stable Structures)
- C2.3. Space Structures - Dynamics and Microdynamics
- C2.4. Advanced Materials and Structures for High Temperature Applications
- C2.5. Advancements in Materials Applications and Rapid Prototyping
- C2.6. Space Environmental Effects and Spacecraft Protection
- C2.7. Space Vehicles – Mechanical/Robotic/Thermal/Fluidic Systems
- C2.8. Specialized Technologies, Including Nanotechnology
- C2.9. Smart Materials and Adaptive Structures
- C3.1. Solar Power Satellite
- C3.2. Wireless Power Transmission Technologies and Application
- C3.3. Advanced Space Power Technologies
- C3.4. Space Power System for Ambitious Missions
- C3.5-C4.10. Joint Session on Advanced and Nuclear Power and Propulsion Systems
- C4.1. Liquid Propulsion (1)
- C4.2. Liquid Propulsion (2)
- C4.3. Solid and Hybrid Propulsion (1)
- C4.4. Solid and Hybrid Propulsion (2)
- C4.5. Electric Propulsion (1)
- C4.6. Electric Propulsion (2)
- C4.7. Hypersonic Air-breathing and Combined Cycle Propulsion, and Hypersonic Vehicle
- C4.8-B4.5A. Joint Session between IAA and IAF for Small Satellite Propulsion Systems
- C4.9. New Missions Enabled by New Propulsion Technology and Systems
- C4.10-C3.5. Joint Session on Advanced and Nuclear Power and Propulsion Systems
- D1.1. Innovative and Visionary Space Systems
- D1.2. Space Systems Architectures
- D1.3. Technologies to Enable Space Systems
- D1.4A. Space Systems Engineering - Methods, Processes and Tools (1)
- D1.4B. Space Systems Engineering - Methods, Processes and Tools (2)
- D1.5. Lessons Learned in Space Systems: Achievements, Challenges, Best Practices, Standards.
- D1.6. Cooperative and Robotic Space Systems
- D2.1. Launch Vehicles in Service or in Development
- D2.2. Launch Services, Missions, Operations, and Facilities
- D2.3. Upper Stages, Space Transfer, Entry and Landing Systems
- D2.4. Future Space Transportation Systems
- D2.5. Technologies for Future Space Transportation Systems
- D2.6. Future Space Transportation Systems Verification and In-Flight Experimentation
- D2.7. Small Launchers: Concepts and Operations
- D2.8-A5.4. Space Transportation Solutions for Deep Space Missions
- D2.9-D6.2. Emerging Global Space Ventures
- D3.1. Strategies & Architectures as the Framework for Future Building Blocks in Space Exploration and Development
- D3.2A. Systems and Infrastructures to Implement Sustainable Space Development and Settlement - Systems
- D3.2B. Systems and Infrastructures to Implement Sustainable Space Development and Settlement - Technologies
- D3.3. Space Technology and System Management Practices and Tools
- D4.1. Innovative Concepts and Technologies
- D4.2. Contribution of Moon Village to Solving Global Societal Issues
- D4.3. Entering the Space Elevator Era
- D4.4. Strategies for Rapid Implementation of Interstellar Missions: Precursors and Beyond
- D4.5. Space Resources, the Enabler of the Earth-Moon Econosphere
- D5.1. Quality and Safety, always a beginning!
- D5.2. Knowledge management for space activities in the digital transformation age
- D5.3. Space Environment and Effects on Space Missions
- D5.4-E9.2. Cyber-security threats to space missions and countermeasures to address them
- D6.1. Commercial Spaceflight Safety and Emerging Issues
- D6.2-D2.9. Emerging Global Space Ventures
- D6.3. Enabling safe commercial spaceflight: vehicles and spaceports
- E1.1. Ignition - Primary Space Education
- E1.2. Lift Off - Secondary Space Education
- E1.3. On Track - Undergraduate Space Education
- E1.4. In Orbit - Postgraduate Space Education
- E1.5. Enabling the Future - Developing the Space Workforce
- E1.6. Calling Planet Earth - Space Outreach to the General Public
- E1.7. New Worlds - Non-Traditional Space Education and Outreach
- E1.8. Hands-on Space Education and Outreach
- E1.9. Space Culture – Public Engagement in Space through Culture
- E2.1. Student Conference - Part 1
- E2.2. Student Conference - Part 2
- E2.3-GTS.4. Student Team Competition
- E2.4. Educational Pico and Nano Satellites
- E3.1. International cooperation in using space for sustainable development: Towards a ‘Space2030’ agenda
- E3.2. The future of space exploration and innovation
- E3.3. Space Economy - New models and economic approaches for private space ventures, with an emphasis on the needs of emerging space nations
- E3.4. Assuring a Safe, Secure and Sustainable Environment for Space Activities
- E3.5-E7.6. 35th IAA / IISL Scientific-Legal Roundtable: Let’s Go Digital: Legal and technical aspects of autonomous, digital systems in an AI-driven world
- E3.6. Economics of Procurement in Space Contracting
- E4.1. Memoirs & Organisational Histories
- E4.2. Scientific and Technical Histories
- E4.3. History of Middle Eastern Contribution to Astronautics and Astronomy
- E5.1. Space Architecture: Habitats, Habitability, and Bases
- E5.2. Is Space R&D Truly Fostering A Better World For Our Future?
- E5.3. Contemporary Arts Practice and Outer Space: A Multi-Disciplinary Approach
- E5.4. Space Assets and Disaster Management
- E5.5. Sharing space achievements and heritage: space museums and societies
- E6.1. Entrepreneurship and Innovation: The Practitioners' Perspectives
- E6.2. Finance and Investment: The Practitioners' Perspectives
- E6.3. Innovation: The Academics' Perspectives
- E6.4. Strategic Risk Management for Successful Space & Defence Programmes
- E6.5-GTS.1. Entrepreneurship Around the World
- E7.1. IISL Young Scholars session and Dr. Jasentuliyana Keynote lecture by a leading space law expert
- E7.2. Moon and Mars Settlement: Open Legal Issues
- E7.3. Legal Implications of Evolving Remote Sensing Technologies
- E7.4. Application of space law to cyber activities
- E7.5. National space law developments with particular focus on the Middle East region
- E7.6-E3.5. 35th Joint IISL/IAA Roundtable: Autonomous Intelligent Systems in Space: Operational and Legal Challenges.
- E7.7. Space Law in a Networked World
- E8.1. Multilingual Astronautical Terminology
- E9.1-A6.8. Policy, Legal, Institutional and Economic Aspects of Space Debris Detection, Mitigation and Removal
- E9.2.D5.4. Cyber-security threats to space missions and countermeasures to address them
- GTS.1-E6.5. Entrepreneurship Around the World
- GTS.2-B3.9. Human Spaceflight Global Technical Session
- GTS.3-B2.8. Space Communications and Navigation Global Technical Session
- GTS.4-E2.3. Student Team Competition
- GTS.5-B4.9. Small Satellite Missions Global Technical Session
