This research work provides the development of an Adaptive Flight Control System (AFCS) for autonomous hover of a Rotary-wing Unmanned Aerial Vehicle (RUAV). Due to the complex, nonlinear and time-varying dynamics of the RUAV, indirect adaptive control using the Model Predictive Control (MPC) is utilised. The performance of the MPC mainly depends on the model of the RUAV used for predicting the future behaviour. Due to the complexities associated with the RUAV dynamics, a neural network based black box identification technique is used for modelling the behaviour of the RUAV. Auto-regressive neural network architecture is developed for offline and online modelling purposes. A hybrid modelling technique that exploits the advantages o...
Designing a reliable flight control for an autonomous helicopter requires a high performance dynami...
In this report we determine the dynamic model of a miniature helicopter in hovering flight. Identifi...
Stabilizing the Unmanned Aircraft Systems (UAS) under complex environment including system uncertain...
Designing reliable flight control for an autonomous helicopter requires a high performance dynamics ...
This thesis presents the development of small, inexpensive unmanned aerial vehicles (UAVs) to achie...
Recent publications on automatic flight controls are concentrated on neural network based adaptive c...
One research focus in DLR’s (German Aerospace Centre) Institute of Flight Systems is generation of a...
This paper deals with the development of a flight control scheme based on the Nonlinear Dynamic Inve...
This paper deals with the development of a flight control scheme based on the Nonlinear Dynamic Inve...
The paper deals with the stabilisation and trajectory tracking control of an autonomous quadrotor he...
This paper describes recent research on system design of a small-scaled rotorcraft UAV (RUAV) system...
“Teaching by Showing” control of a small helicopter’s aggressive maneuvering often...
This paper presents an off-line (finite time interval) and on-line learning direct adaptive neural c...
This paper presents an on-line learning adaptive neural control scheme for helicopters performing hi...
Abstract: This paper presents a new attitude stabilization and control of an unmanned helicopter ba...
Designing a reliable flight control for an autonomous helicopter requires a high performance dynami...
In this report we determine the dynamic model of a miniature helicopter in hovering flight. Identifi...
Stabilizing the Unmanned Aircraft Systems (UAS) under complex environment including system uncertain...
Designing reliable flight control for an autonomous helicopter requires a high performance dynamics ...
This thesis presents the development of small, inexpensive unmanned aerial vehicles (UAVs) to achie...
Recent publications on automatic flight controls are concentrated on neural network based adaptive c...
One research focus in DLR’s (German Aerospace Centre) Institute of Flight Systems is generation of a...
This paper deals with the development of a flight control scheme based on the Nonlinear Dynamic Inve...
This paper deals with the development of a flight control scheme based on the Nonlinear Dynamic Inve...
The paper deals with the stabilisation and trajectory tracking control of an autonomous quadrotor he...
This paper describes recent research on system design of a small-scaled rotorcraft UAV (RUAV) system...
“Teaching by Showing” control of a small helicopter’s aggressive maneuvering often...
This paper presents an off-line (finite time interval) and on-line learning direct adaptive neural c...
This paper presents an on-line learning adaptive neural control scheme for helicopters performing hi...
Abstract: This paper presents a new attitude stabilization and control of an unmanned helicopter ba...
Designing a reliable flight control for an autonomous helicopter requires a high performance dynami...
In this report we determine the dynamic model of a miniature helicopter in hovering flight. Identifi...
Stabilizing the Unmanned Aircraft Systems (UAS) under complex environment including system uncertain...