Open Science Research Excellence

ICASET 2021 : International Conference on Aerospace Science, Engineering and Technology

Tokyo, Japan
March 25 - 26, 2021

Call for Papers

ICASET 2021 : International Conference on Aerospace Science, Engineering and Technology is the premier interdisciplinary platform for the presentation of new advances and research results in the fields of Aerospace Science, Engineering and Technology. The conference will bring together leading academic scientists, researchers and scholars in the domain of interest from around the world. Topics of interest for submission include, but are not limited to:
  • Space Missions, Systems and Architectures
  • Science and Aerospace Frontiers
  • Deep Space, Earth and Discovery Missions
  • Future Space and Earth Science Missions
  • System and Technologies for Landing on Planets, the Moon, Earth and Small Bodies
  • Access to Space and Emerging Mission Capabilities
  • Robotic Mobility and Sample Acquisition Systems
  • uture Missions and Enabling Technologies for In Situ Exploration, Sample Returns
  • In Situ Instruments for Landed Surface Exploration, Orbiters and Flybys
  • Q/V Band and Beyond Satellite Missions
  • Mission Design for Spacecraft Formations
  • Radiation Issues and Modeling for Deep Space Missions
  • Space Debris and Dust: The Environment, Risks, and Mitigation Concepts and Practices
  • Asteroid Hazard Detection, Mitigation, and Retrieval Concepts
  • Antennas, RF/Microwave Systems, and Propagation
  • Phased Array Antenna Systems and Beamforming Technologies
  • Ground and Space Antenna Technologies and Systems
  • RF/Microwave Systems
  • Radio Astronomy and Radio Science
  • Miniaturized RF/Microwave Technologies Enabling Small Satellite and UAV Systems
  • Communication, Navigation Systems and Technologies
  • Evolving Space Communication Architectures
  • Communication Protocols and Services for Space Networks
  • Navigation and Communication Systems for Exploration
  • Relay Communications for Space Exploration
  • Space Communication Systems Roundtable : Networking the Solar System
  • Innovative Space Communications and Tracking Techniques
  • Space Navigation Techniques
  • Communication System Analysis and Simulation
  • Wideband Communications Systems
  • Communications and/or Related Systems: Theory, Simulation, and Signal Processing
  • Global Navigation Satellite Systems
  • Software Defined Radio and Cognitive Radio Systems and Technology
  • CNS Systems and Airborne Networks for Manned and Unmanned Aircraft
  • Aerospace Information Systems and Cyber Security
  • Space Information Systems Security
  • Civil and National Security Space Panel: Joint NASA/DoD Technology Initiatives
  • Observation Systems and Technologies
  • Large Optical Systems
  • Optical Instruments
  • Atmospheric Turbulence: Phenomenology, Measurement, Mitigation
  • Photonic Devices and Systems for Aerospace Applications
  • Astrophysics and Exoplanet Missions
  • Imaging of Objects in Space
  • Image Processing
  • Laser Communications and Atmospheric Propagation
  • Laser Radar
  • Remote Sensing
  • End to End Remote Sensing: Approaches and Challenges
  • Instrument and Sensor Architecture and Design
  • Imaging Spectrometer Systems, Science, and Science Applications
  • Advances in Radar Signal Processing
  • Tracking Theory
  • Multisensor Fusion
  • Applications of Target Tracking
  • Missile Guidance, Navigation and Control
  • Applications and Architectures for Wireless Smart Sensors Networks
  • Integrated Sensing, Modeling, and Analysis Using Sensor Webs
  • Spacecraft Avionics Systems, Subsystems, and Technologies
  • High Performance Space Processing and High-Speed Interconnect Satellite Architectures and Standards
  • Onboard Signal, Data, Command Processing and Data Handling Technologies
  • Multi- and Many-Core Computing in Space: Hardware and Software
  • Memory and Data Storage Technologies for Space and Missile Applications
  • High Performance Reconfigurable Computing for Space
  • Mixed Signal and System-on-a-Chip Technologies
  • Avionics for Small Satellites, Nano-Satellites, and CubeSats
  • Power Electronics for Space Applications
  • Electronics for Extreme Environments
  • Advanced Packaging for Space - 3D Electronics
  • Fault Tolerance, Autonomy, and Evolvability in Spacecraft Avionics
  • Spacecraft Guidance, Navigation, and Control Technologies
  • Emerging Technologies for Space Applications
  • Using COTS in Space
  • Spacecraft, Launch Vehicle Systems and Technologies
  • Human Exploration Systems
  • Human Exploration Systems Technology Development
  • Advanced Launch Vehicle Systems and Technologies
  • Hosted Payloads
  • Human Factors and Performance
  • Modular Bus Technologies, Components and Standardized Spacecraft
  • Mechanical Systems, Design and Technologies
  • Spacecraft Propulsion and Power Technologies
  • Autonomous Space Exploration Systems and Technologies
  • New Technologies and Instruments for Scientific Balloon Missions
  • Enabling Systems and Technologies for CubeSat/Smallsats
  • Federated, Fractionated, and Distributed Systems
  • Air Vehicle Systems and Technologies
  • Air Vehicle Flight Testing
  • UAV Systems and Autonomy
  • Aircraft Systems and Avionics
  • Air Vehicle Flight Controls
  • Guidance Strategies in Presence of Wind
  • Software and Computing
  • Computational Modeling
  • Software Engineering
  • Software Architecture and Design
  • Model-based Systems and Software Engineering
  • Implementing Artificial Intelligence for Aerospace
  • Human-Systems Interaction
  • Cloud Computing
  • Software Architecture
  • Diagnostics, Prognostics and Health Management (PHM)
  • PHM for Aerospace Subsystems, Components and Structures
  • Prognostics for Electronics and Avionic Systems
  • Algorithms and Advanced Concepts for Diagnostics and PHM
  • Design Attributes for Diagnostics and Prognostics
  • Systems Health Management for Space Systems and Operations
  • MEMS and Sensor Technologies for System Diagnostics, IVHM and PHM
  • Maturation of Health Management Technologies via Ground/Flight Testing and Research
  • Probabilistic Design for Reliability of Aerospace Electronics
  • PHM for UAVs and Autonomous Systems
  • PHM for Propulsion Systems
  • PHM for Astronauts and Pilots
  • PHM for Satellites
  • PHM for System Structure and Implementation
  • Ground and Space Operations
  • Spacecraft Development and Flight Operations: Challenges, Successes, Failures and Lessons Learned
  • Flight/Ground Systems, Mission Planning and Operations
  • Managing Operations Life Cycle Cost and Risk
  • Human Space Flight Development, Operations and Processing
  • Payload and Instrument Operations and Processing
  • Cyber Security in Aerospace Operations
  • Management, Systems Engineering and Cost
  • System Simulation and Verification
  • Risk Management: Application and Lessons Learned
  • Cost and Schedule Tools, Methods and Processes
  • Management Tools, Methods and Processes
  • Mission Modeling, Concept Optimization and Concurrent Design
  • Systems Architecture, Engineering and System of Systems
  • Technology Transfer and Infusion
  • Promoting and Provoking Cultural Change
  • Government Plans, Policies and Education
  • Competition Robotics for Education and Workforce Development
  • Technology Development for Science-Driven Missions
  • Emerging Technologies for Mars Exploration
  • Mission Options and Technologies for Human Exploration
  • Access To Space and Emerging Mission Capabilities
  • Operational Uses of Consumer-Class Unmanned Aerial Vehicles
  • Model-based Engineering – Paradigm Shift or Business as Usual?
  • Pioneering Space