This paper focuses on the scheduling under uncertainty of satellite tracking from a heterogeneous network of ground stations taking into account allocated resources. An optimisation-based approach is employed to efficiently select the optimal tracking schedule that minimises the final estimation uncertainty. Specifically, the scheduling is formulated as a variable-size problem, and a Structured-Chromosome Genetic Algorithm is developed to tackle the mixed-discrete global optimisation. The search algorithm employs genetic operators specifically revised to handle hierarchical search spaces. An orbit determination routine is run within each call to the fitness function to quantify the estimation uncertainty resulting from each candidate tracki...
Abstract. Three algorithms are tested on the satellite range scheduling problem, using data from the...
This paper presents a new methodology for complex system design by means of optimisation techniques....
Copyright © 2015 by the American Institute of Aeronautics and Astronautics, Inc. All rights reserved...
This paper presents a novel optimisation approach, called Structured-Chromosome Genetic Algorithm (S...
This paper addresses the problem of autonomous scheduling of space objects' observations from a netw...
This work contributes to the autonomous scheduling of orbit determination campaigns for tracking spa...
Recently there has been a growing interest in mission operations scheduling problem. The problem, in...
The problem of observing a given set of Earth target sites within an assigned time frame is examined...
Genetic Algorithms have been applied successfully to many problems in a variety of different domains...
This work presents a Genetic Algorithm (GA) approach to Ground Station (GS) and Spacecraft (SC) Sch...
In this Master Thesis will be conducted a study on the family of scheduling problems from spacecraft...
We hypothesize that evolutionary algorithms can effec-tively schedule coordinated fleets of Earth ob...
AbstractSatellite range scheduling with the priority constraint is one of the most important problem...
We hypothesize that evolutionary algorithms can ef-fectively schedule coordinated fleets of Earth ob...
Genetic algorithms are mostly considered to represent the primary class of evolutionary methods that...
Abstract. Three algorithms are tested on the satellite range scheduling problem, using data from the...
This paper presents a new methodology for complex system design by means of optimisation techniques....
Copyright © 2015 by the American Institute of Aeronautics and Astronautics, Inc. All rights reserved...
This paper presents a novel optimisation approach, called Structured-Chromosome Genetic Algorithm (S...
This paper addresses the problem of autonomous scheduling of space objects' observations from a netw...
This work contributes to the autonomous scheduling of orbit determination campaigns for tracking spa...
Recently there has been a growing interest in mission operations scheduling problem. The problem, in...
The problem of observing a given set of Earth target sites within an assigned time frame is examined...
Genetic Algorithms have been applied successfully to many problems in a variety of different domains...
This work presents a Genetic Algorithm (GA) approach to Ground Station (GS) and Spacecraft (SC) Sch...
In this Master Thesis will be conducted a study on the family of scheduling problems from spacecraft...
We hypothesize that evolutionary algorithms can effec-tively schedule coordinated fleets of Earth ob...
AbstractSatellite range scheduling with the priority constraint is one of the most important problem...
We hypothesize that evolutionary algorithms can ef-fectively schedule coordinated fleets of Earth ob...
Genetic algorithms are mostly considered to represent the primary class of evolutionary methods that...
Abstract. Three algorithms are tested on the satellite range scheduling problem, using data from the...
This paper presents a new methodology for complex system design by means of optimisation techniques....
Copyright © 2015 by the American Institute of Aeronautics and Astronautics, Inc. All rights reserved...