This paper describes the numerical analysis of light aircraft stability derivatives in a wide range of angles of attack, important for recovery from spin. Stability derivatives versus angle of attack and sideslip were calculated using a CFD software, based on Euler equation combined with boundary layer equations. The analysis was performed up to the 40 deg of angle of attack and up to 25 deg of sideslip
Efficient and accurate prediction of derivatives from aerodynamic forces and moments of aircrafts ar...
The paper presents a method for the preliminary stability analysis of box-wing aircraft, called Pran...
Experimentally determined lateral-stability derivatives of a swept-wing airplane are presented to sh...
This paper describes the numerical analysis of light aircraft stability derivatives in a wide range ...
The variation in stability derivatives with airspeed and angles of attack and sideslip is determined...
A low-speed investigation was conducted to determine the dynamic stability derivatives in pitch, rol...
Several new systematic methods for high fidelity and reliability calculation of static and single dy...
An analysis of the effects of wing interference on the tail contributions to the rolling stability d...
Aircrafts and missiles for efficient nanoeuverability should have adequate stability and control cha...
Dynamic stability derivatives are essential to predicting the open and closed loop performance, stab...
The goal of this paper was to determine the feasibility to accurately model stability and control de...
Aerodynamic shape optimization of aircraft configurations often ignores stability considerations. To...
The present paper addresses the problem of spin recovery of an aircraft as a nonlinear inverse dynam...
A theoretical investigation has been made to determine the effect of nonlinear stability derivatives...
The present paper addresses the problem of spin recovery of an aircraft as a nonlinear inverse dynam...
Efficient and accurate prediction of derivatives from aerodynamic forces and moments of aircrafts ar...
The paper presents a method for the preliminary stability analysis of box-wing aircraft, called Pran...
Experimentally determined lateral-stability derivatives of a swept-wing airplane are presented to sh...
This paper describes the numerical analysis of light aircraft stability derivatives in a wide range ...
The variation in stability derivatives with airspeed and angles of attack and sideslip is determined...
A low-speed investigation was conducted to determine the dynamic stability derivatives in pitch, rol...
Several new systematic methods for high fidelity and reliability calculation of static and single dy...
An analysis of the effects of wing interference on the tail contributions to the rolling stability d...
Aircrafts and missiles for efficient nanoeuverability should have adequate stability and control cha...
Dynamic stability derivatives are essential to predicting the open and closed loop performance, stab...
The goal of this paper was to determine the feasibility to accurately model stability and control de...
Aerodynamic shape optimization of aircraft configurations often ignores stability considerations. To...
The present paper addresses the problem of spin recovery of an aircraft as a nonlinear inverse dynam...
A theoretical investigation has been made to determine the effect of nonlinear stability derivatives...
The present paper addresses the problem of spin recovery of an aircraft as a nonlinear inverse dynam...
Efficient and accurate prediction of derivatives from aerodynamic forces and moments of aircrafts ar...
The paper presents a method for the preliminary stability analysis of box-wing aircraft, called Pran...
Experimentally determined lateral-stability derivatives of a swept-wing airplane are presented to sh...