A description is given of UNICORN, a prototype system developed for the purpose of investigating artificial intelligence (AI) concepts supporting spacecraft autonomy. UNICORN employs thematic reasoning, of the type first described by Rodger Schank of Northwestern University, to allow the context-sensitive control of multiple intelligent agents within a blackboard based environment. In its domain of application, UNICORN demonstrates the ability to reason teleologically with focused knowledge. Also presented are some of the lessons learned as a result of this effort. These lessons apply to any effort wherein system level autonomy is the objective
Automation of Space Station functions and activities, particularly those involving robotic capabilit...
Abstract—New technologies are required to enable more efficient spacecraft flight and ground systems...
This presentation provides an overview of autonomous systems at NASA, including definitions, descrip...
This paper describes a method for the design of autonomous spacecraft, based upon behavioral approac...
To operate the majority of today’s satellites is costly and manpower intensive. In order to reduce c...
In the context of fierce competition arising in the space economy, the number of satellites and cons...
This thesis describes a framework for the high level control of an autonomous unmanned spacecraft. G...
Abstra t. Reasoning about autonomy is an integral omponent of ollaboration among omputational uni...
Artificial Intelligence (AI) is a growing field of computa- tional science techniques designed to mi...
Current research in space systems engineering has highlighted the requirement for increasingly auton...
The goal of building autonomous, intelligent systems is the major focus of both basic and applied re...
We present a new approach in the concept and implementation of autonomy for autonomous spacecraft. T...
A view of the capabilities and areas of artificial intelligence research which are required for auto...
Some aspects of the on-board application of expert systems in artificial satellites are discussed. T...
The possibilities to observe and interact with any given spacecraft are naturally limited compared ...
Automation of Space Station functions and activities, particularly those involving robotic capabilit...
Abstract—New technologies are required to enable more efficient spacecraft flight and ground systems...
This presentation provides an overview of autonomous systems at NASA, including definitions, descrip...
This paper describes a method for the design of autonomous spacecraft, based upon behavioral approac...
To operate the majority of today’s satellites is costly and manpower intensive. In order to reduce c...
In the context of fierce competition arising in the space economy, the number of satellites and cons...
This thesis describes a framework for the high level control of an autonomous unmanned spacecraft. G...
Abstra t. Reasoning about autonomy is an integral omponent of ollaboration among omputational uni...
Artificial Intelligence (AI) is a growing field of computa- tional science techniques designed to mi...
Current research in space systems engineering has highlighted the requirement for increasingly auton...
The goal of building autonomous, intelligent systems is the major focus of both basic and applied re...
We present a new approach in the concept and implementation of autonomy for autonomous spacecraft. T...
A view of the capabilities and areas of artificial intelligence research which are required for auto...
Some aspects of the on-board application of expert systems in artificial satellites are discussed. T...
The possibilities to observe and interact with any given spacecraft are naturally limited compared ...
Automation of Space Station functions and activities, particularly those involving robotic capabilit...
Abstract—New technologies are required to enable more efficient spacecraft flight and ground systems...
This presentation provides an overview of autonomous systems at NASA, including definitions, descrip...