This talk presents the concept of "Distributed Spacecraft Mission (DSM)", its drivers, its challenges and its benefits to NASA future Science and Exploration missions. The presentation focuses on the technology challenges related to DSMs and particularly the needs for Trusted Autonomy and Onboard Processing; particular attention is given to a specific type of DSM, the Intelligent and Collaborative Constellation (ICC). Examples of DSM, ICC and Autonomy-related technologies being currently developed at NASA are being introduced
The growing complexity of spacecraft constellations, communication relay offerings, and mission arch...
It is likely that NASA's future spacecraft systems will consist of distributed processes which will ...
A key addition to Springer's Space Technology Library series, this edited volume features the work o...
For the last 5 years, NASA Goddard has been investigating Distributed Spacecraft Missions (DSM) syst...
Autonomous decision-making significantly increases mission effectiveness by mitigating the effects o...
Distributed Space Systems (DSS) are an emerging class of mission designs that enable new scientific ...
NASA missions are becoming more complicated due to the decreasing cost of spacecraft; the increased ...
Abstract: Characterizing multiagent problem spaces requires understanding what constitutes a multiag...
A new trend in space systems is to move from big centralized satellites to smaller, but distributed...
Commonly referred to as \u27virtual platforms\u27, \u27formation flying\u27, \u27virtual spacecraft\...
During the last decades, the concept of distributed space systems has significantly progressed in t...
Abstract: The development of onboard autonomy capability is the key to a set of vastly important st...
The exploration of deep space presents a variety of significant control challenges. Long communicati...
Distributed systems missions (DSM), also known as swarm or constellation missions, is an upcoming cl...
The challenge of space flight in NASA’s future is to enable more frequent and more intensive space e...
The growing complexity of spacecraft constellations, communication relay offerings, and mission arch...
It is likely that NASA's future spacecraft systems will consist of distributed processes which will ...
A key addition to Springer's Space Technology Library series, this edited volume features the work o...
For the last 5 years, NASA Goddard has been investigating Distributed Spacecraft Missions (DSM) syst...
Autonomous decision-making significantly increases mission effectiveness by mitigating the effects o...
Distributed Space Systems (DSS) are an emerging class of mission designs that enable new scientific ...
NASA missions are becoming more complicated due to the decreasing cost of spacecraft; the increased ...
Abstract: Characterizing multiagent problem spaces requires understanding what constitutes a multiag...
A new trend in space systems is to move from big centralized satellites to smaller, but distributed...
Commonly referred to as \u27virtual platforms\u27, \u27formation flying\u27, \u27virtual spacecraft\...
During the last decades, the concept of distributed space systems has significantly progressed in t...
Abstract: The development of onboard autonomy capability is the key to a set of vastly important st...
The exploration of deep space presents a variety of significant control challenges. Long communicati...
Distributed systems missions (DSM), also known as swarm or constellation missions, is an upcoming cl...
The challenge of space flight in NASA’s future is to enable more frequent and more intensive space e...
The growing complexity of spacecraft constellations, communication relay offerings, and mission arch...
It is likely that NASA's future spacecraft systems will consist of distributed processes which will ...
A key addition to Springer's Space Technology Library series, this edited volume features the work o...