A hybrid approach to robustness analyses of flight control laws in re-entry applications

Abstract: The present paper aims at improving the efficiency of the robustness analyses of flight control laws with respect to conventional techniques, especially when applied to vehicles following time-varying reference trajectories, such as in an atmospheric re-entry. A nonlinear robustness criterion is proposed, stemming from the practical stability framework, which allows dealing effectively with such cases. A novel approach is presented, which exploits the convexity of linear time varying systems, coupled to an app… Show more

“…By employing the well-known one sided Chebyshev inequality, the uncertain parameters π in our case. We fictitiously assume π to be uniformly distributed in Πk, and set up the SUT following the common practice in nonlinear Kalman Filtering applications (see [20] for more details).…”

Robustness Analysis for Terminal Phases of Reentry Flight

“…By employing the well-known one sided Chebyshev inequality, the uncertain parameters π in our case. We fictitiously assume π to be uniformly distributed in Πk, and set up the SUT following the common practice in nonlinear Kalman Filtering applications (see [20] for more details).…”

Robustness Analysis for Terminal Phases of Reentry Flight

An approach to estimate the closed-loop poles distribution area of uncertain system

Clearance of flight control law based on structural singular value theory