Modeling for Small Spacecraft Electric Propulsion
- Benjamin Jorns
University of Michigan
Data-Driven Predictive Modeling of Small Spacecraft Electric Propulsion Systems
- Deborah Levin
University of Illinois at Urbana-Champaign
Multi-scale Modeling of Plume-Spacecraft Interactions for Novel Propellants
- Paulo Lozano
Massachusetts Institute of Technology
Simulating the Operational Local Volume for Electrospray ion Thrusters (SOLVEiT)
Smart and Autonomous Systems for Space
- Natasha Bosanac
University of Colorado, Boulder
Autonomous Maneuvering within Chaotic Multi-Body Systems
- Roderic Grupen
University of Massachusetts, Amherst
A Control Framework for Autonomous Physical Systems: Observation, Modeling, Prediction, and Planning
- Melkior Ornik
University of Illinois at Urbana-Champaign
Safety-Constrained and Efficient Learning for Resilient Autonomous Space Systems
- Marco Pavone
Stanford University
Risk-Sensitive Learning and Decision Making for Autonomous Space Robots
Omni-Optical Antennas and Optical-Multiple-Access Technologies for Free-Space Near-Earth Satellite Communication
- Firooz Aflatouni
University of Pennsylvania
Integrated Omni-Directional Optical Phased Array Transceivers with Sub-Wavelength Element Spacing and Automatic Beam-Alignment
- Harry Atwater
California Institute of Technology
Electronically Controllable Metasurface Omnidirectional and Multiple Access Optical Antennas for Free-Space Near-Earth Satellite Communication
- Kerri Cahoy
Massachusetts Institute of Technology
MOSAIC: Miniature Optical Steered Antenna for Intersatellite Communication
Modeling Shock Layer Radiation and Chemical Kinetics for Planetary Entry
- Timothy Minton
University of Colorado, Boulder
Air-Carbon Boundary Layer Chemistry for Hypersonic Ablation
- Marco Panesi
University of Illinois at Urbana-Champaign
Radiative Heating Attenuation Through Heat Shield Doping: A Multi-Scale Approach from AB Initio to CFD
Physical and Mechanistic Modeling of the Self-Reacting Friction Stir Welding Process
- Xun Liu
The Ohio State University
Multiphysics Integrated Modeling of Self-Reacting Friction Stir Welding
- Michael Miles
Brigham Young University
Development of a Methodology for Characterizing the Tool/Part Interface in Friction Stir Welding for Improvement of Predictive Modeling in Aluminum Alloys
