Rotorcraft system identification involves the derivation of the model structure and parameters, such as aerodynamic stability and control derivatives, from flight-test results. Accurate rotorcraft system identification often requires higher order mathematical models. However, system identification becomes difficult and complicated as the number of modeling degrees of freedom are increased. In the present work, a new method for rotorcraft parameter estimation based on the application of a radial basis function network is proposed. The radial basis function networkbased technique does not require a mathematical model of the helicopter, and the rotorcraft parameters can be directly computed from the flight data. The radial basis function netwo...
The problem of rotorcraft system identification is considered and a novel, two-step technique is pro...
In this paper, identification of lateral and longitudinal dynamics of a helicopter using flight data...
There is considerable need for the application of system identification techniques to helicopters. T...
Rotorcraft system identification involves the derivation of the model structure and parameters, such...
The present work focuses on the system identification method of aerodynamic parameter estimation whi...
Increased emphasis on rotorcraft performance and perational capabilities has resulted in accurate c...
AbstractA comprehensive method based on system identification theory for helicopter flight dynamics ...
A comprehensive method based on system identification theory for helicopter flight dynamics modeling...
Modelling of innovative aircraft such as UAVs, X-wing, tilt body and delta-wing is not easy. This pa...
This paper is concerned with the development of methods for the validation of complex non-linear mod...
The availability of accurate models for helicopter aeromechanics is becoming more and more important...
Current frequency-domain system identification methods require an open-loop experiment design for da...
Modelling of innovative aircraft such as unmanned air vehicles (UAVs), X-wing, tilt body and delta-w...
Certification requirements, optimization and minimum project costs, design of flight control laws an...
Modelling of innovative aircraft such as unmanned air vehicles (UAVs), X-wing, tilt body and delta-w...
The problem of rotorcraft system identification is considered and a novel, two-step technique is pro...
In this paper, identification of lateral and longitudinal dynamics of a helicopter using flight data...
There is considerable need for the application of system identification techniques to helicopters. T...
Rotorcraft system identification involves the derivation of the model structure and parameters, such...
The present work focuses on the system identification method of aerodynamic parameter estimation whi...
Increased emphasis on rotorcraft performance and perational capabilities has resulted in accurate c...
AbstractA comprehensive method based on system identification theory for helicopter flight dynamics ...
A comprehensive method based on system identification theory for helicopter flight dynamics modeling...
Modelling of innovative aircraft such as UAVs, X-wing, tilt body and delta-wing is not easy. This pa...
This paper is concerned with the development of methods for the validation of complex non-linear mod...
The availability of accurate models for helicopter aeromechanics is becoming more and more important...
Current frequency-domain system identification methods require an open-loop experiment design for da...
Modelling of innovative aircraft such as unmanned air vehicles (UAVs), X-wing, tilt body and delta-w...
Certification requirements, optimization and minimum project costs, design of flight control laws an...
Modelling of innovative aircraft such as unmanned air vehicles (UAVs), X-wing, tilt body and delta-w...
The problem of rotorcraft system identification is considered and a novel, two-step technique is pro...
In this paper, identification of lateral and longitudinal dynamics of a helicopter using flight data...
There is considerable need for the application of system identification techniques to helicopters. T...