The development of computational algorithms that permit efficient calculation of aircraft trim states and of the associated small disturbance equations of motion for a systematic investigation of the statics and dynamics of aircraft in coordinated and uncoordinated, steady, steep turning flight is reported. The efficiency in the trim computation is realized by decoupling the governing equations. The small disturbance equations of motion, which are given in a general body axis system, include aerodynamic acceleration derivatives; they are cast in a familiar first order, vector matrix format of modern system theory. These algorithms were applied to a variety of rotorcraft simulation models. Results pertaining to a simulated hingeless rotor he...
The development of a new transonic code to predict unsteady flows about realistic aircraft configura...
Mathematical modeling and computer mechanization for real time simulation of rotary wing aircraft is...
This Paper presents an efficient algorithm for the nonlinear aeroelastic trim analysis of very flexi...
This paper outlines the development of a mathematical model that is expected to be useful for rotorc...
In the analysis of aircraft dynamics far up and13; away flight, the general practice consists of tri...
Trim defines conditions for both design and analysis based on aircraft models. In fact, we often def...
AbstractA key problem in helicopter aeroelastic analysis is the enormous computational time required...
A set of linearized equations of motion to predict the linearized dynamic response of a single rotor...
We propose a methodology for extending the applicability of comprehensive analysis rotorcraft codes ...
Graphs and formulas are given with the aid of which all the aerodynamic coefficients required for co...
Helicopter trim settings of periodic initial state and control inputs are investigated for convergen...
A transonic unsteady aerodynamic and aeroelasticity code CAP-TSD (Computational Aeroelasticity Progr...
Dynamical systems theory has been used to study the nonlinear dynamics of the F-14. An eight degre...
Theoretically derived charts and equations are presented by which tail-rotor design studies of direc...
A simulation study was conducted to investigate the piloting problems associated with failure of an ...
The development of a new transonic code to predict unsteady flows about realistic aircraft configura...
Mathematical modeling and computer mechanization for real time simulation of rotary wing aircraft is...
This Paper presents an efficient algorithm for the nonlinear aeroelastic trim analysis of very flexi...
This paper outlines the development of a mathematical model that is expected to be useful for rotorc...
In the analysis of aircraft dynamics far up and13; away flight, the general practice consists of tri...
Trim defines conditions for both design and analysis based on aircraft models. In fact, we often def...
AbstractA key problem in helicopter aeroelastic analysis is the enormous computational time required...
A set of linearized equations of motion to predict the linearized dynamic response of a single rotor...
We propose a methodology for extending the applicability of comprehensive analysis rotorcraft codes ...
Graphs and formulas are given with the aid of which all the aerodynamic coefficients required for co...
Helicopter trim settings of periodic initial state and control inputs are investigated for convergen...
A transonic unsteady aerodynamic and aeroelasticity code CAP-TSD (Computational Aeroelasticity Progr...
Dynamical systems theory has been used to study the nonlinear dynamics of the F-14. An eight degre...
Theoretically derived charts and equations are presented by which tail-rotor design studies of direc...
A simulation study was conducted to investigate the piloting problems associated with failure of an ...
The development of a new transonic code to predict unsteady flows about realistic aircraft configura...
Mathematical modeling and computer mechanization for real time simulation of rotary wing aircraft is...
This Paper presents an efficient algorithm for the nonlinear aeroelastic trim analysis of very flexi...