For the upcoming formation flying technology demonstration mission NetSat a relative orbit propagator as well as a relative orbit controller were developed. The formation will consist of four equal nano-satellites with an electric propulsion system for orbit correction manoeuvres. This demands the use of continuous low-thrust models for relative orbit control, which is a novel field. A software framework was developed which allows orbit simulations of the whole fleet in a fully non-linear environment. The final on-board relative propagator is based on the Gim-Alfriend STM and incorporates eccentricity and the non-spherical shape of the Earth. The controller uses control Lyapunov function-based design and model predictive control, depending ...
This project is to investigate the applicability of advanced control theory and methodologies to the...
This paper presents a strategy for optimal manoeuvre design of multi-satellite formation flying in l...
In this paper, the problem of autonomous optimal absolute orbit keeping for a satellite mission in L...
For the upcoming formation flying technology demonstration mission NetSat a relative orbit propagato...
This thesis proposes a continuous low-thrust guidance and control strategy for satellite formation-f...
The Centre for Large Space Structures and Systems Inc. (CLS3) is planning a low Earth orbit formati...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
Formation flying is commonly identified as the collective usage of two or more cooperative spacecraf...
A novel continuous low-thrust fuel-efficient model predictive control strategy for multi-satellite f...
While trajectory design for single satellite Earth observation missions is usually performed bymeans...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...
Once been orbited, the technological nanosatellite TNS-0 is supposed to be used in one of the next m...
In this paper, the problem of autonomous optimal absolute orbit keeping for a satellite mission in L...
Formation flying missions have increased their importance thanks to the better performances that can...
This project is to investigate the applicability of advanced control theory and methodologies to the...
This paper presents a strategy for optimal manoeuvre design of multi-satellite formation flying in l...
In this paper, the problem of autonomous optimal absolute orbit keeping for a satellite mission in L...
For the upcoming formation flying technology demonstration mission NetSat a relative orbit propagato...
This thesis proposes a continuous low-thrust guidance and control strategy for satellite formation-f...
The Centre for Large Space Structures and Systems Inc. (CLS3) is planning a low Earth orbit formati...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
Formation flying is commonly identified as the collective usage of two or more cooperative spacecraf...
A novel continuous low-thrust fuel-efficient model predictive control strategy for multi-satellite f...
While trajectory design for single satellite Earth observation missions is usually performed bymeans...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...
Once been orbited, the technological nanosatellite TNS-0 is supposed to be used in one of the next m...
In this paper, the problem of autonomous optimal absolute orbit keeping for a satellite mission in L...
Formation flying missions have increased their importance thanks to the better performances that can...
This project is to investigate the applicability of advanced control theory and methodologies to the...
This paper presents a strategy for optimal manoeuvre design of multi-satellite formation flying in l...
In this paper, the problem of autonomous optimal absolute orbit keeping for a satellite mission in L...