The paper discusses an extension of μ (or structured singular value), a well-established technique from robust control for the study of linear systems subject to structured uncertainty, to nonlinear polynomial problems. Robustness is a multifaceted concept in the nonlinear context, and in this work the point of view of bifurcation theory is assumed. The latter is concerned with the study of qualitative changes of the steady-state solutions of a nonlinear system, so-called bifurcations. The practical goal motivating the work is to assess the effect of modeling uncertainties on flutter, a dynamic instability prompted by an adverse coupling between aerodynamic, elastic, and inertial forces, when considering the system as nonlinear. Specificall...
In this work, a successive robust flutter prediction technique is developed by coupling nominal anal...
Recent computational studies based on numerical solutions of the unsteady Euler equations have revea...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
The paper discusses an extension of μ (or structured singular value), a well-established technique f...
This paper investigates the effect of model uncertainty on the nonlinear dynamics of a generic aeroe...
This article presents a new paradigm for robust flutter modeling and analysis of high-order uncertai...
This article proposes a framework which allows the study of stability robustness of equilibria of a ...
This article proposes a framework which allows the study of stability robustness of equilibria of a ...
Flutter and other aeroelastic instability phenomena have had a significant influence on airplane dev...
This work presents the robust stability analysis of 2DoF airfoil by including various uncertainties....
In this paper, a general approach to address modeling of aeroelastic systems, with the final goal to...
AbstractLimit cycle oscillations (LCOs) as well as nonlinear aeroelastic analysis of a 3-DOF aeroela...
The avoidance of flutter still remains a key constraint in the design of all aircraft. In this endea...
The present work deals with the robust flutter analysis of a sweptback wing in frequency domain in t...
Two approaches to tackle the nonlinear robust stability problem of an aerospace system are compared....
In this work, a successive robust flutter prediction technique is developed by coupling nominal anal...
Recent computational studies based on numerical solutions of the unsteady Euler equations have revea...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
The paper discusses an extension of μ (or structured singular value), a well-established technique f...
This paper investigates the effect of model uncertainty on the nonlinear dynamics of a generic aeroe...
This article presents a new paradigm for robust flutter modeling and analysis of high-order uncertai...
This article proposes a framework which allows the study of stability robustness of equilibria of a ...
This article proposes a framework which allows the study of stability robustness of equilibria of a ...
Flutter and other aeroelastic instability phenomena have had a significant influence on airplane dev...
This work presents the robust stability analysis of 2DoF airfoil by including various uncertainties....
In this paper, a general approach to address modeling of aeroelastic systems, with the final goal to...
AbstractLimit cycle oscillations (LCOs) as well as nonlinear aeroelastic analysis of a 3-DOF aeroela...
The avoidance of flutter still remains a key constraint in the design of all aircraft. In this endea...
The present work deals with the robust flutter analysis of a sweptback wing in frequency domain in t...
Two approaches to tackle the nonlinear robust stability problem of an aerospace system are compared....
In this work, a successive robust flutter prediction technique is developed by coupling nominal anal...
Recent computational studies based on numerical solutions of the unsteady Euler equations have revea...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...