This chapter deals with the control system development and flight test for an unconventional flight vehicle, namely, a tandem ducted-fan experimental flying platform. The first-principle modeling approach combined with the frequency system identification has been adopted to obtain a high-fidelity dynamics model. It is inherently less stable and difficult to control. To accomplish the required practical flight tasks, the flying vehicle needs to work well even in windy conditions. Moreover, for flight control engineers, simple prescribed multi-loop controller structures are preferred. To handle the multiple problems, a structured velocity controller consisting of two feedback loops is developed, where inner loop provides stability augmentatio...
The tilt-duct vertical takeoff and landing (VTOL) concept has been around since the early 1960s; how...
A significant area of current research is to develop aircraft which are unmanned. More specifically,...
A comprehensive design of the baseline control and navigation system for a single-jet-engined flutte...
Unmanned Aerial Vehicles are self-piloted or remotely piloted aircrafts that have the capacity to fl...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
The development is described of a rate-command system for the control of a novel unmanned vehicle, t...
Unmanned aerial vehicles (UAVs) offer solutions to many high-value and high-risk missions. They have...
The development is described of a rate-command system for the control of a novel unmanned vehicle, t...
The technology of UAV (Unmanned Aerial Vehicle) has developed since its conception many years ago. U...
VTOL UAVs have the best of both worlds – good endurance as well as versatility in launching, manoeuv...
This paper describes a method for determining an optimal control allocation function for aircraft wi...
The last decade has seen significant advances in the development of Vertical takeoff and landing (VT...
Experimental comparisons between four different control design methodologies are applied to a small ...
This paper describes a strategy to simulate a dynamic model of a vertical takeoff and landing (VTOL)...
In a follow-up to our previous study, the current work examines the gust-induced “cone of uncertaint...
The tilt-duct vertical takeoff and landing (VTOL) concept has been around since the early 1960s; how...
A significant area of current research is to develop aircraft which are unmanned. More specifically,...
A comprehensive design of the baseline control and navigation system for a single-jet-engined flutte...
Unmanned Aerial Vehicles are self-piloted or remotely piloted aircrafts that have the capacity to fl...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
The development is described of a rate-command system for the control of a novel unmanned vehicle, t...
Unmanned aerial vehicles (UAVs) offer solutions to many high-value and high-risk missions. They have...
The development is described of a rate-command system for the control of a novel unmanned vehicle, t...
The technology of UAV (Unmanned Aerial Vehicle) has developed since its conception many years ago. U...
VTOL UAVs have the best of both worlds – good endurance as well as versatility in launching, manoeuv...
This paper describes a method for determining an optimal control allocation function for aircraft wi...
The last decade has seen significant advances in the development of Vertical takeoff and landing (VT...
Experimental comparisons between four different control design methodologies are applied to a small ...
This paper describes a strategy to simulate a dynamic model of a vertical takeoff and landing (VTOL)...
In a follow-up to our previous study, the current work examines the gust-induced “cone of uncertaint...
The tilt-duct vertical takeoff and landing (VTOL) concept has been around since the early 1960s; how...
A significant area of current research is to develop aircraft which are unmanned. More specifically,...
A comprehensive design of the baseline control and navigation system for a single-jet-engined flutte...