The desire for persistent autonomy in ambitious robotic space missions has seen renewed interest in the use of on-board planning. This poses particular challenges in terms of the limited computational power of radiation-hardened hardware, and also the need to integrate with functions external to the planner itself. In this paper, we discuss the development of a forward-chaining temporal planner for use in this setting. We present results illustrating its lightweight resource footprint compared to contemporary planners, and its application to two proposed robotic space scenarios
Planetary rover planners involve complex reasoning systems where severe resources and communication ...
For long duration, manned exploration to be cost-effective, it is necessary to automate routine manu...
SM thesisAutonomous robots are being considered for increasingly capable roles in our society, such ...
The transition of mobile robots from a controlled environment towards the real-world represents a ma...
Throughout the history of space exploration, the complexity of missions has dramatically increased, ...
Expanding robotic space exploration beyond the immediate vicinity of Earth's orbit can only be achie...
We consider a general and industrially motivated class of planning problems involving a combination ...
In this paper, we describe the Linear Temporal Logic-based reactive motion planning. We address the ...
Significant developments of the space sector in recent years are now leading space technology on the...
. Deep Space One (DS1) will be the first spacecraft to be controlled by an autonomous closed loop sy...
This thesis focuses on temporal logic-based motion planning for autonomous ve- hicles. Specically pl...
Deep Space One will be the rst spacecraft to be controlled by an autonomous agent potentially capabl...
Deep Space One will be the first spacecraft to be controlled by an autonomous agent potentially capa...
In a constantly changing and partially unpredictable envi-ronment, robot-motion planning must be on-...
This paper focuses on the ESA APSI software platform for developing planning and scheduling applicat...
Planetary rover planners involve complex reasoning systems where severe resources and communication ...
For long duration, manned exploration to be cost-effective, it is necessary to automate routine manu...
SM thesisAutonomous robots are being considered for increasingly capable roles in our society, such ...
The transition of mobile robots from a controlled environment towards the real-world represents a ma...
Throughout the history of space exploration, the complexity of missions has dramatically increased, ...
Expanding robotic space exploration beyond the immediate vicinity of Earth's orbit can only be achie...
We consider a general and industrially motivated class of planning problems involving a combination ...
In this paper, we describe the Linear Temporal Logic-based reactive motion planning. We address the ...
Significant developments of the space sector in recent years are now leading space technology on the...
. Deep Space One (DS1) will be the first spacecraft to be controlled by an autonomous closed loop sy...
This thesis focuses on temporal logic-based motion planning for autonomous ve- hicles. Specically pl...
Deep Space One will be the rst spacecraft to be controlled by an autonomous agent potentially capabl...
Deep Space One will be the first spacecraft to be controlled by an autonomous agent potentially capa...
In a constantly changing and partially unpredictable envi-ronment, robot-motion planning must be on-...
This paper focuses on the ESA APSI software platform for developing planning and scheduling applicat...
Planetary rover planners involve complex reasoning systems where severe resources and communication ...
For long duration, manned exploration to be cost-effective, it is necessary to automate routine manu...
SM thesisAutonomous robots are being considered for increasingly capable roles in our society, such ...