Add to ORKGThis paper proposes Sliding-Mode Observer (SMO) and Artificial Potential Field (APF) as Navigation and Guidance algorithms for space applications. Both robust linear first-order and Super-Twisting SMOs are designed for performing sensor filtering measurements. Optical cameras and accelerometers are considered as sensors. A comparison with an Extended Kalman Filter (EFK) is proposed, in order to show the effectiveness of SMOs as alternative navigation algorithms. Harmonic 3D functions for the APF algorithm are proposed to manage issues related to the presence of local minima. Moreover, the repulsive field is changed for including moving targets and obstacles. Finally, the effectiveness of these algorithms is shown through numerical simulati...
This dissertation develops a methodology for automated trajectory control of a spacecraft about a no...
Many recent researches have been studying techniques to handle the problem of pose and shape reconst...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
This paper combines Guidance and Control (GC) algorithms for spacecraft proximity operations in pres...
This paper outlines a method based on the theory of artificial potential fields combined with slidin...
Estimation problems have to be solved in several space applications. During rendezvous to a target s...
In this paper, we discuss non-linear methodologies that can be employed to devise real-time algorith...
The artificial potential field (APF) method provides simple and effective path planners for practica...
This work focuses on the analysis and application of various nonlinear, autonomous guidance algorith...
In this paper, the development of relative navigation, guidance, and control algorithms of an autono...
textRecent years have seen ambitious robotic exploration missions to other planets and a renewed int...
In this paper, the development of guidance, navigation, and control algorithms of an autonomous spac...
International audienceThis paper proposes Thales Alenia Space vision-based navigation solution for c...
This paper presents a spacecraft relative navigation scheme based on a tracking technique. The augme...
An extended Kalman-Filter is modified to handle delayed and out-of-sync measurements from multiple s...
This dissertation develops a methodology for automated trajectory control of a spacecraft about a no...
Many recent researches have been studying techniques to handle the problem of pose and shape reconst...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
This paper combines Guidance and Control (GC) algorithms for spacecraft proximity operations in pres...
This paper outlines a method based on the theory of artificial potential fields combined with slidin...
Estimation problems have to be solved in several space applications. During rendezvous to a target s...
In this paper, we discuss non-linear methodologies that can be employed to devise real-time algorith...
The artificial potential field (APF) method provides simple and effective path planners for practica...
This work focuses on the analysis and application of various nonlinear, autonomous guidance algorith...
In this paper, the development of relative navigation, guidance, and control algorithms of an autono...
textRecent years have seen ambitious robotic exploration missions to other planets and a renewed int...
In this paper, the development of guidance, navigation, and control algorithms of an autonomous spac...
International audienceThis paper proposes Thales Alenia Space vision-based navigation solution for c...
This paper presents a spacecraft relative navigation scheme based on a tracking technique. The augme...
An extended Kalman-Filter is modified to handle delayed and out-of-sync measurements from multiple s...
This dissertation develops a methodology for automated trajectory control of a spacecraft about a no...
Many recent researches have been studying techniques to handle the problem of pose and shape reconst...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
