This paper describes a behavioral competency level concerned with emergent scheduling of spacecraft payload operations. The level is part of a multi-level subsumption architecture model for autonomous spacecraft, and it functions as an action selection system for processing a spacecraft commands that can be considered as 'plans-as-communication'. Several versions of the selection mechanism are described, and their robustness is qualitatively compared
This paper describes the integration of a model-based planner into a procedural architecture. This a...
As humankind embarks on longer space missions farther from home, the requirements and environments f...
AbstractThis paper describes the DATA-CHASER Automated Planner/Scheduler (DCAPS) system for automate...
Space missions are characterized by long distances, difficult or unavailable communication and high ...
This paper describes a method for the design of autonomous spacecraft, based upon behavioral approac...
Planning and scheduling of NASA Space Shuttle missions is a complex, labor-intensive process requiri...
This thesis describes a framework for the high level control of an autonomous unmanned spacecraft. G...
Planning of spacecraft operations has historically been performed manually by ground operations staf...
Autonomous mission scheduling, a new concept for NASA ground data systems, is a decentralized and di...
The goal is to suggest the scheduling and control functions necessary for accomplishing mission obje...
Space missions are characterized by long distances, difficult or unavailable communication and high ...
The development of a dynamic autonomous system (DYASS) of resources for the mission support of near-...
As humankind embarks on longer space missions farther from home, the requirements and environments f...
We present a new approach in the concept and implementation of autonomy for autonomous spacecraft. T...
A frame-based expert scheduling system shell, PLAN-IT, is developed for spacecraft scheduling in the...
This paper describes the integration of a model-based planner into a procedural architecture. This a...
As humankind embarks on longer space missions farther from home, the requirements and environments f...
AbstractThis paper describes the DATA-CHASER Automated Planner/Scheduler (DCAPS) system for automate...
Space missions are characterized by long distances, difficult or unavailable communication and high ...
This paper describes a method for the design of autonomous spacecraft, based upon behavioral approac...
Planning and scheduling of NASA Space Shuttle missions is a complex, labor-intensive process requiri...
This thesis describes a framework for the high level control of an autonomous unmanned spacecraft. G...
Planning of spacecraft operations has historically been performed manually by ground operations staf...
Autonomous mission scheduling, a new concept for NASA ground data systems, is a decentralized and di...
The goal is to suggest the scheduling and control functions necessary for accomplishing mission obje...
Space missions are characterized by long distances, difficult or unavailable communication and high ...
The development of a dynamic autonomous system (DYASS) of resources for the mission support of near-...
As humankind embarks on longer space missions farther from home, the requirements and environments f...
We present a new approach in the concept and implementation of autonomy for autonomous spacecraft. T...
A frame-based expert scheduling system shell, PLAN-IT, is developed for spacecraft scheduling in the...
This paper describes the integration of a model-based planner into a procedural architecture. This a...
As humankind embarks on longer space missions farther from home, the requirements and environments f...
AbstractThis paper describes the DATA-CHASER Automated Planner/Scheduler (DCAPS) system for automate...