One of the ground tools used to operate the Mars Exploration Rovers is a mixed-initiative planning system called MAPGEN. The role of the system is to assist operators building daily plans for each of the rovers, maximizing science return, while maintaining rover safety and abiding by science and engineering constraints. In this paper, we describe the MAPGEN system, focusing on the mixed-initiative planning aspect. We note important challenges, both in terms of human interaction and in terms of automated reasoning requirements. We then describe the approaches taken in MAPGEN, focusing on the novel methods developed by our team
Bringing artificial intelligence planning and scheduling applications into the real world is a hard ...
Missions are being proposed which involve landing a varying number (anywhere from one to 24) of smal...
This paper presents an empirical study of some non-exhaustive approaches to optimizing preferences w...
The Mars Exploration Rovers Mars ‘03 mission is one of NASA’s most ambitious science missions to dat...
Activity planning for missions such as the Mars Exploration Rover mission presents many technical ch...
Mixed-Initiative Activity Plan Generator (MAPGEN) is a ground-based computer program for planning an...
The objective of this joint NASA Ames/JPL/SRI project was to develop mixed-initiative planning and s...
Not only has the number of JPL spacecraft launched per year exploded over the past few years, but al...
With the arrival of the Pathfinder spacecraft in 1997, NASA began a series of missions to explore th...
Robotic rovers uniquely benefit planetary exploration- they enable regional exploration with the pre...
Modern planning and scheduling systems are capable of dealing with the size and complexity of many r...
Activity planning for space mission operations has traditionally been a human-in-the-loop effort, co...
Autonomy is an important feature for space systems, especially for planetary exploration rovers. Fur...
Abstract: The command sequences used by the first Martian exploratory rover to traverse the unexplor...
This paper describes a dynamic planning system for coordinating multiple rovers in collecting planet...
Bringing artificial intelligence planning and scheduling applications into the real world is a hard ...
Missions are being proposed which involve landing a varying number (anywhere from one to 24) of smal...
This paper presents an empirical study of some non-exhaustive approaches to optimizing preferences w...
The Mars Exploration Rovers Mars ‘03 mission is one of NASA’s most ambitious science missions to dat...
Activity planning for missions such as the Mars Exploration Rover mission presents many technical ch...
Mixed-Initiative Activity Plan Generator (MAPGEN) is a ground-based computer program for planning an...
The objective of this joint NASA Ames/JPL/SRI project was to develop mixed-initiative planning and s...
Not only has the number of JPL spacecraft launched per year exploded over the past few years, but al...
With the arrival of the Pathfinder spacecraft in 1997, NASA began a series of missions to explore th...
Robotic rovers uniquely benefit planetary exploration- they enable regional exploration with the pre...
Modern planning and scheduling systems are capable of dealing with the size and complexity of many r...
Activity planning for space mission operations has traditionally been a human-in-the-loop effort, co...
Autonomy is an important feature for space systems, especially for planetary exploration rovers. Fur...
Abstract: The command sequences used by the first Martian exploratory rover to traverse the unexplor...
This paper describes a dynamic planning system for coordinating multiple rovers in collecting planet...
Bringing artificial intelligence planning and scheduling applications into the real world is a hard ...
Missions are being proposed which involve landing a varying number (anywhere from one to 24) of smal...
This paper presents an empirical study of some non-exhaustive approaches to optimizing preferences w...