This paper outlines a method based on the theory of artificial potential fields combined with sliding mode techniques for spacecraft maneuvers in the presence of obstacles. Guidance and control algorithms are validated with a six degree-of-freed (dof) omorbital simulator. The idea of this paper is to provide computationally efficient algorithms for real time applications, in which the combination of Artificial potential field (APF) and sliding mode control shows the ability of plan trajectories, even in the presence of external disturbances and model uncertainties. A reduced frequency of the proposed controllers and a pulse width modulation (PWM) of the thrusters are considered to verify the performance of the system. The computational perf...
Industrial robotics, military, surveying, and delivery applications have laid a foundation for resea...
Propulsion, path planning and control of satellite formations in Geostationary Earth Orbits (GEO) an...
Rendezvous orbital maneuvers are planned operations which intend to make two spacecraft meet, while ...
This paper outlines a method based on the theory of artificial potential fields combined with slidin...
This paper combines Guidance and Control (GC) algorithms for spacecraft proximity operations in pres...
26th AAS/AIAA Space Flight Mechanics meeting, Napa, CaliforniaNumerous missions over the past decade...
The artificial potential field (APF) method provides simple and effective path planners for practica...
This paper proposes Sliding-Mode Observer (SMO) and Artificial Potential Field (APF) as Navigation a...
This dissertation develops a methodology for automated trajectory control of a spacecraft about a no...
Abstract: The objective of this work is to present a trajectory planning algorithm for spacecraft re...
This work focuses on the analysis and application of various nonlinear, autonomous guidance algorith...
This paper presents a unique real-time obstacle avoidance approach for manipulators and mobile robot...
The purpose of the present paper is to study an autonomous spacecraft rendezvous and docking (RVD) m...
Manipulators mounted on small satellites will be used to perform on-orbit servicing, removal of spac...
In this paper, we discuss non-linear methodologies that can be employed to devise real-time algorith...
Industrial robotics, military, surveying, and delivery applications have laid a foundation for resea...
Propulsion, path planning and control of satellite formations in Geostationary Earth Orbits (GEO) an...
Rendezvous orbital maneuvers are planned operations which intend to make two spacecraft meet, while ...
This paper outlines a method based on the theory of artificial potential fields combined with slidin...
This paper combines Guidance and Control (GC) algorithms for spacecraft proximity operations in pres...
26th AAS/AIAA Space Flight Mechanics meeting, Napa, CaliforniaNumerous missions over the past decade...
The artificial potential field (APF) method provides simple and effective path planners for practica...
This paper proposes Sliding-Mode Observer (SMO) and Artificial Potential Field (APF) as Navigation a...
This dissertation develops a methodology for automated trajectory control of a spacecraft about a no...
Abstract: The objective of this work is to present a trajectory planning algorithm for spacecraft re...
This work focuses on the analysis and application of various nonlinear, autonomous guidance algorith...
This paper presents a unique real-time obstacle avoidance approach for manipulators and mobile robot...
The purpose of the present paper is to study an autonomous spacecraft rendezvous and docking (RVD) m...
Manipulators mounted on small satellites will be used to perform on-orbit servicing, removal of spac...
In this paper, we discuss non-linear methodologies that can be employed to devise real-time algorith...
Industrial robotics, military, surveying, and delivery applications have laid a foundation for resea...
Propulsion, path planning and control of satellite formations in Geostationary Earth Orbits (GEO) an...
Rendezvous orbital maneuvers are planned operations which intend to make two spacecraft meet, while ...