It is always a challenge to design a real-time optimal full flight envelope controller for a miniature helicopter due to the nonlinear, underactuated, uncertain, and highly coupled nature of its dynamics. This paper integrates the control of translational, rotational, and flapping motions of a simulated miniature aerobatic helicopter in one unified optimal control framework. In particular, a recently developed real-time nonlinear optimal control method, called the theta-D technique, is employed to solve the resultant challenging problem considering the full nonlinear dynamics without gain scheduling techniques and timescale separations. The uniqueness of the theta-D method is its ability to obtain an approximate analytical solution to the H...
With the increased use of small unmanned systems, and even automated flight, safety is becoming an is...
This article focuses on linear matrix inequality-based controller designs that can achieve stabiliza...
This thesis is concerned with controller design for helicopter systems. The emphasis will be focused...
It is always a challenge to design a real-time optimal full flight envelope controller for a miniatu...
A new nonlinear control approach, which is applied to a miniature aerobatic helicopter through a mul...
A new nonlinear control approach, which is applied to a miniature aerobatic helicopter through a mul...
International audienceIn this contribution nonlinear stabilizing and optimal nonlinear control strat...
Small-scale helicopters are very attractive for a wide range of civilian and military applications d...
Abstract: The paper addresses the design of an autopilot for small scale helicopters to let the vert...
The main characteristic attribute of the rotorcraft is the use of rotary wings to produce the thrust...
This paper focuses on the problem of minimum time trajectory planning for helicopter UAVs. It is fo...
We derive optimal power-off landing trajectories, for the case of a small-scale helicopter UAV. Thes...
Our research objective consists in developing a, model-based, automatic safety recovery system, for ...
The design of a high-performance guidance and control system for a small-scale helicopterUnmanned Ae...
AbstractA sliding mode control design for a miniature unmanned helicopter is presented. The control ...
With the increased use of small unmanned systems, and even automated flight, safety is becoming an is...
This article focuses on linear matrix inequality-based controller designs that can achieve stabiliza...
This thesis is concerned with controller design for helicopter systems. The emphasis will be focused...
It is always a challenge to design a real-time optimal full flight envelope controller for a miniatu...
A new nonlinear control approach, which is applied to a miniature aerobatic helicopter through a mul...
A new nonlinear control approach, which is applied to a miniature aerobatic helicopter through a mul...
International audienceIn this contribution nonlinear stabilizing and optimal nonlinear control strat...
Small-scale helicopters are very attractive for a wide range of civilian and military applications d...
Abstract: The paper addresses the design of an autopilot for small scale helicopters to let the vert...
The main characteristic attribute of the rotorcraft is the use of rotary wings to produce the thrust...
This paper focuses on the problem of minimum time trajectory planning for helicopter UAVs. It is fo...
We derive optimal power-off landing trajectories, for the case of a small-scale helicopter UAV. Thes...
Our research objective consists in developing a, model-based, automatic safety recovery system, for ...
The design of a high-performance guidance and control system for a small-scale helicopterUnmanned Ae...
AbstractA sliding mode control design for a miniature unmanned helicopter is presented. The control ...
With the increased use of small unmanned systems, and even automated flight, safety is becoming an is...
This article focuses on linear matrix inequality-based controller designs that can achieve stabiliza...
This thesis is concerned with controller design for helicopter systems. The emphasis will be focused...