This paper presents the design and study of cross product control, Linear-Quadratic Regulator (LQR)optimal control and high spin rate control algorithms for ESTCube-2/3 missions. The three-unit CubeSat is required to spin up in order to centrifugally deploy a 300-m long tether for a plasma brake deorbiting experiment. The algorithm is designed to spin up the satellite to one rotation per second which is achieved in 40 orbits. The LQR optimal controller is designed based on closed-loop step response with controllability and stability analysis to meet the pointing requirements of less than 0.1° for the Earth observation camera and the high-speed communication system. The LQR is based on linearised satellite dynamics with an actuator model. Th...
This paper describes the development of a three axis attitude control system for nanosatellites and ...
An attitude control system (ACS) is one of the critical subsystems of any spacecraft and typically i...
This work introduces a real time suboptimal control algorithm for six-degree-of-freedom spacecraft m...
This paper presents the design and study of cross product control, Linear-Quadratic Regulator (LQR)o...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...
This paper proposes a computationally efficient attitude control strategy for nanospacecraft fast re...
This paper describes the design process of developing a spin-axis control system for a 3U CubeSat, a...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) us...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) u...
peer reviewedThe paper delineates the magnetic controller gains tuning procedure for an active magne...
This paper presents the design of an attitude controller for a magnetically actuated nanosatellite. ...
Passive spacecraft attitude control using spin-stabilization is considered as one of traditional and...
The NTNU Test Satellite, NUTS, is a satellite being build in a student CubeSat project at the Norweg...
textA control system is designed and validated for a 3-unit CubeSat science mission. Utilizing three...
In the last decades, access to space has become more affordable thanks to the introduction of CubeSa...
This paper describes the development of a three axis attitude control system for nanosatellites and ...
An attitude control system (ACS) is one of the critical subsystems of any spacecraft and typically i...
This work introduces a real time suboptimal control algorithm for six-degree-of-freedom spacecraft m...
This paper presents the design and study of cross product control, Linear-Quadratic Regulator (LQR)o...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...
This paper proposes a computationally efficient attitude control strategy for nanospacecraft fast re...
This paper describes the design process of developing a spin-axis control system for a 3U CubeSat, a...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) us...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) u...
peer reviewedThe paper delineates the magnetic controller gains tuning procedure for an active magne...
This paper presents the design of an attitude controller for a magnetically actuated nanosatellite. ...
Passive spacecraft attitude control using spin-stabilization is considered as one of traditional and...
The NTNU Test Satellite, NUTS, is a satellite being build in a student CubeSat project at the Norweg...
textA control system is designed and validated for a 3-unit CubeSat science mission. Utilizing three...
In the last decades, access to space has become more affordable thanks to the introduction of CubeSa...
This paper describes the development of a three axis attitude control system for nanosatellites and ...
An attitude control system (ACS) is one of the critical subsystems of any spacecraft and typically i...
This work introduces a real time suboptimal control algorithm for six-degree-of-freedom spacecraft m...