This paper presents a novel solution to the problem of autonomous task allocation for a self-organising constellation of small satellites in Earth orbit. The method allows the constellation members to plan manoeuvres to cluster themselves above particular target longitudes on the Earth’s surface. This is enabled through the use of Coupled Selection Equations, which represent a dynamical systems approach to combinatorial optimisation problems, and whose solution tends towards a Boolean matrix which describes pairings of the satellites and targets which solves the relevant assignment problems. Satellite manoeuvres are actuated using a simple control law which incorporates the results of the Coupled Selection Equations. Three demonstrations of...
A dynamic optimization problem is employed to aid operators o f large-scale satellite constellations...
Existing on-board planning systems do not apply to small satellites with limited onboard computer ca...
Abstract: A technique for numerical optimization of the orbital disposition of a communica...
This paper presents a novel solution to the problem of autonomous task allocation for a self-organis...
This paper presents a novel solution to the problem of autonomous task allocation for a self-organiz...
This paper presents a novel method of manipulating the spatial pattern of a fractionated micro-satel...
Missions involving multiple spacecraft have become of great interest in the last decade as they offe...
This paper presents a method of controlling a constellation of small satellites in Geostationary Ear...
The multi-satellite on-board observation planning (MSOOP) is a variant of the multi-agent task alloc...
The complex and dynamic space environment is both exciting and challenging in this NewSpace era. In ...
The purpose of this paper is to present a new approach in the concept and implementation of autonomy...
International audienceAt the beginning of the space conquest the space-systems were composed of uniq...
To address the growing population of small satellite constellations that rely on distributed ground ...
Earth Observation market has been increasing in both size and complexity over the last years. EO mis...
Autonomous operational strategies for Earth Observation systems are called to address the challengin...
A dynamic optimization problem is employed to aid operators o f large-scale satellite constellations...
Existing on-board planning systems do not apply to small satellites with limited onboard computer ca...
Abstract: A technique for numerical optimization of the orbital disposition of a communica...
This paper presents a novel solution to the problem of autonomous task allocation for a self-organis...
This paper presents a novel solution to the problem of autonomous task allocation for a self-organiz...
This paper presents a novel method of manipulating the spatial pattern of a fractionated micro-satel...
Missions involving multiple spacecraft have become of great interest in the last decade as they offe...
This paper presents a method of controlling a constellation of small satellites in Geostationary Ear...
The multi-satellite on-board observation planning (MSOOP) is a variant of the multi-agent task alloc...
The complex and dynamic space environment is both exciting and challenging in this NewSpace era. In ...
The purpose of this paper is to present a new approach in the concept and implementation of autonomy...
International audienceAt the beginning of the space conquest the space-systems were composed of uniq...
To address the growing population of small satellite constellations that rely on distributed ground ...
Earth Observation market has been increasing in both size and complexity over the last years. EO mis...
Autonomous operational strategies for Earth Observation systems are called to address the challengin...
A dynamic optimization problem is employed to aid operators o f large-scale satellite constellations...
Existing on-board planning systems do not apply to small satellites with limited onboard computer ca...
Abstract: A technique for numerical optimization of the orbital disposition of a communica...