Distributed systems missions (DSM), also known as swarm or constellation missions, is an upcoming class of mission design that is changing the current landscape.Swarms enable multipoint observations and higher fidelity science data collection. Autonomy is a critical feature that DSM will require in order to run successfully, especially beyond earth-centric missions and in dynamic environments due to increased delays between ground and space
This thesis describes a framework for the high level control of an autonomous unmanned spacecraft. G...
Smallsat missions using cooperating constellations offer significant benefits compared to traditiona...
The four key objective properties of a system that are required of it in order for it to qualify as ...
Autonomous decision-making significantly increases mission effectiveness by mitigating the effects o...
Large constellations are quickly becoming the norm in small satellite missions. These constellations...
In the context of fierce competition arising in the space economy, the number of satellites and cons...
peer-reviewedThis chapter introduces the multi-agent paradigm and presents concepts and approaches ...
peer-reviewedThe need to collect new data and perform new science is causing the complexity of NASA ...
Missions involving multiple spacecraft have become of great interest in the last decade as they offe...
Distributed satellite systems is an enabling technology for many future NASA/DoD earth and space sci...
The need to collect new data and perform new science is causing the complexity of NASA missions to c...
AbstractThe four key objective properties of a system that are required of it in order for it to qua...
Distributed Space Systems (DSS) are an emerging class of mission designs that enable new scientific ...
The Remote Agent (RA) is an Artificial Intelligence (AI) system which automates some of the tasks no...
While monolithic satellite missions still pose significant advantages in terms of accuracy and oper...
This thesis describes a framework for the high level control of an autonomous unmanned spacecraft. G...
Smallsat missions using cooperating constellations offer significant benefits compared to traditiona...
The four key objective properties of a system that are required of it in order for it to qualify as ...
Autonomous decision-making significantly increases mission effectiveness by mitigating the effects o...
Large constellations are quickly becoming the norm in small satellite missions. These constellations...
In the context of fierce competition arising in the space economy, the number of satellites and cons...
peer-reviewedThis chapter introduces the multi-agent paradigm and presents concepts and approaches ...
peer-reviewedThe need to collect new data and perform new science is causing the complexity of NASA ...
Missions involving multiple spacecraft have become of great interest in the last decade as they offe...
Distributed satellite systems is an enabling technology for many future NASA/DoD earth and space sci...
The need to collect new data and perform new science is causing the complexity of NASA missions to c...
AbstractThe four key objective properties of a system that are required of it in order for it to qua...
Distributed Space Systems (DSS) are an emerging class of mission designs that enable new scientific ...
The Remote Agent (RA) is an Artificial Intelligence (AI) system which automates some of the tasks no...
While monolithic satellite missions still pose significant advantages in terms of accuracy and oper...
This thesis describes a framework for the high level control of an autonomous unmanned spacecraft. G...
Smallsat missions using cooperating constellations offer significant benefits compared to traditiona...
The four key objective properties of a system that are required of it in order for it to qualify as ...