This paper presents the results of attitude, velocity, heave and yaw controller design for an autonomous model scaled helicopter using identified model of vehicle dynamic from parameterized state-space model with quasi-steady attitude dynamic approximation (6 Degree of Freedom model). Multivariable state-space control methodology such as pole placement was used to design the linear state-space feedback for the stabilization of helicopter because of its simple controller architecture. The design specification for controller design was selected according to Military Handling Qualities Specification ADS-33C. Results indicate that acceptable controller can be designed using pole placement method with quasi-steady attitude approximation and it h...
Helicopters are complex, coupled dynamic systems with unstable behavior. Countless studies have show...
The main characteristic attribute of the rotorcraft is the use of rotary wings to produce the thrust...
In this paper, we compare three different control methodologies for helicopter autopilot design: lin...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This paper present the results of attitude, velocity, heave and yaw controller design for UTM autono...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
Unmanned air vehicles and their control is a popular research field. The next decade will determine ...
The aim of this research project is to develop an autopilot system that enables the helicopter model...
This thesis presents the results of a study into the use of Hꝏ-optimization for the design of feedba...
AbstractHelicopters are inherently unstable unlike aeroplanes. They are to be stabilized using appro...
This paper presents an investigation into the design of a flight control system, using a decoupled n...
M.Ing.In this study the design of a multivariable inner loop controller for a helicopter, which is b...
Autorotation is a maneuver that requires no power and it is used in rotorcrafts when last operating ...
With the increased use of small unmanned systems, and even automated flight, safety is becoming an is...
Purpose – This paper aims to present the design of a stability augmentation system (SAS) in the long...
Helicopters are complex, coupled dynamic systems with unstable behavior. Countless studies have show...
The main characteristic attribute of the rotorcraft is the use of rotary wings to produce the thrust...
In this paper, we compare three different control methodologies for helicopter autopilot design: lin...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This paper present the results of attitude, velocity, heave and yaw controller design for UTM autono...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
Unmanned air vehicles and their control is a popular research field. The next decade will determine ...
The aim of this research project is to develop an autopilot system that enables the helicopter model...
This thesis presents the results of a study into the use of Hꝏ-optimization for the design of feedba...
AbstractHelicopters are inherently unstable unlike aeroplanes. They are to be stabilized using appro...
This paper presents an investigation into the design of a flight control system, using a decoupled n...
M.Ing.In this study the design of a multivariable inner loop controller for a helicopter, which is b...
Autorotation is a maneuver that requires no power and it is used in rotorcrafts when last operating ...
With the increased use of small unmanned systems, and even automated flight, safety is becoming an is...
Purpose – This paper aims to present the design of a stability augmentation system (SAS) in the long...
Helicopters are complex, coupled dynamic systems with unstable behavior. Countless studies have show...
The main characteristic attribute of the rotorcraft is the use of rotary wings to produce the thrust...
In this paper, we compare three different control methodologies for helicopter autopilot design: lin...