Publication Date:
2019-07-13
Description:
With each new rover mission to Mars, rovers are traveling significantly longer distances. This distance increase raises not only the opportunities for science data collection, but also amplifies the amount of environment and rover state uncertainty that must be handled in rover operations. This paper describes how planning, scheduling and execution techniques can be used onboard a rover to autonomously generate and execute rover activities and in particular to handle new science opportunities that have been identified dynamically. We also discuss some of the particular challenges we face in supporting autonomous rover decision-making. These include interaction with rover navigation and path-planning software and handling large amounts of uncertainty in state and resource estimations. Finally, we describe our experiences in testing this work using several Mars rover prototypes in a realistic environment.
Keywords:
Cybernetics, Artificial Intelligence and Robotics
Type:
International Conference on Automated Planning and Scheduling; Jun 06, 2006 - Jun 07, 2006; Windermere; United Kingdom
Format:
text
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