In order to improve the autonomy of a maneuvered GEO satellite which is a member of a navigation satellite system, an integrated design method of autonomous orbit determination and autonomous control was proposed. A neural network state observer was designed to estimate the state of the GEO satellite, with only the intersatellite ranging information as observations. The controller is determined autonomously by another neural network based on the estimated state and the preset correction trajectory. A gradient descent learning method with a forgetting factor was used to derive the weight updating strategy which can satisfy the system’s stability and real-time performance. A Lyapunov method was used to prove the stability of both the observer...
In order to improve reliability of on-orbit satellite, this paper proposes a novel fault diagnosis s...
For the probe descending and landing safely, a neural network control method based on proportional i...
This paper is concerned with the design and comparison of attitude neural controllers for satellites...
The Global Positioning System (GPS) receivers are being widely utilized for low earth navigation in ...
In this paper, an adaptive attitude control algorithm is developed based on neural network for a sat...
Utilizing the well-established Dynamic Inversion( DI) theory and augmenting it with online trained n...
Geostationary Earth orbit (GEO) satellites are of great significance in the space market. Low-thrust...
The authors propose to use an analog neural network controller implemented in hardware, independent ...
Feedforward neural networks are investigated in this work to verify its ability to control the attit...
To accomplish more ambitious scientific goals of interplanetary nanosatellite missions, a certain se...
The nonlinear behavior exhibited by altitude control system processes and also the presence of exter...
The application of neural-based methods to optimal satellite subset selection for navigation use is ...
A neural adaptive observer (NAO) based fault detection and identification (FDI) strategy for a class...
Many far-reaching objectives and aspirations in space exploration are predicated on achieving a high...
A neural network-based controller is developed to enable a chaser spacecraft to approach and capture...
In order to improve reliability of on-orbit satellite, this paper proposes a novel fault diagnosis s...
For the probe descending and landing safely, a neural network control method based on proportional i...
This paper is concerned with the design and comparison of attitude neural controllers for satellites...
The Global Positioning System (GPS) receivers are being widely utilized for low earth navigation in ...
In this paper, an adaptive attitude control algorithm is developed based on neural network for a sat...
Utilizing the well-established Dynamic Inversion( DI) theory and augmenting it with online trained n...
Geostationary Earth orbit (GEO) satellites are of great significance in the space market. Low-thrust...
The authors propose to use an analog neural network controller implemented in hardware, independent ...
Feedforward neural networks are investigated in this work to verify its ability to control the attit...
To accomplish more ambitious scientific goals of interplanetary nanosatellite missions, a certain se...
The nonlinear behavior exhibited by altitude control system processes and also the presence of exter...
The application of neural-based methods to optimal satellite subset selection for navigation use is ...
A neural adaptive observer (NAO) based fault detection and identification (FDI) strategy for a class...
Many far-reaching objectives and aspirations in space exploration are predicated on achieving a high...
A neural network-based controller is developed to enable a chaser spacecraft to approach and capture...
In order to improve reliability of on-orbit satellite, this paper proposes a novel fault diagnosis s...
For the probe descending and landing safely, a neural network control method based on proportional i...
This paper is concerned with the design and comparison of attitude neural controllers for satellites...