Artificial Intelligence: Powering Human Exploration of the Moon and Mars
A stereo-vision hazard-detection algorithm to increase planetary lander autonomy
Promoting Crew Autonomy in a Human Spaceflight Earth Analog Mission through Self-Scheduling
Crew Autonomy Through Self-Scheduling: Scheduling Performance Pilot Study
Artificial Intelligence: Powering Human Spaceflight Exploration of the Moon and Mars
Equilibrium modeling of mixed autonomy traffic flow based on game theory
Stigmergy based behavioural coordination for satellite clusters
Facilitating Crew-Computer Collaboration During Mixed-Initiative Space Mission Planning
Adaptive Optimization for System Performance: Parameterized Differential Dynamic Programming
Crew Autonomy through Self-Scheduling: Scheduling Performance Pilot Study