Continuations may be unreasonable
LFP '88 Proceedings of the 1988 ACM conference on LISP and functional programming
Remote Agent: to boldly go where no AI system has gone before
Artificial Intelligence - Special issue: artificial intelligence 40 years later
Brahms: simulating practice for work systems design
International Journal of Human-Computer Studies
The Techsat-21 autonomous space science agent
Proceedings of the first international joint conference on Autonomous agents and multiagent systems: part 2
A problem solving model for collaborative agents
Proceedings of the first international joint conference on Autonomous agents and multiagent systems: part 2
Automated Planning and Scheduling for Goal-Based Autonomous Spacecraft
IEEE Intelligent Systems
Bridging the gap between planning and scheduling
The Knowledge Engineering Review
Using a robot control architecture to automate space shuttle operations
AAAI'97/IAAI'97 Proceedings of the fourteenth national conference on artificial intelligence and ninth conference on Innovative applications of artificial intelligence
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The day in a Space Station astronaut's life starts a year before his or her mission (or increment, in NASA-ese), when the mission planning and scheduling begins. The mission controllers refine and review the mission plan until execution time, when they upload it to the Space Station as an onboard short-term plan (OSTP). This installment of the AI in Space department looks at the process NASA uses to plan and execute an astronaut's "day in the life". It examines new planning and scheduling technologies presented at the Third International NASA Workshop on Planning and Scheduling for Space and show how they might affect future Space Station astronauts.