Ares I Flight Control System Design

The Ares I launch vehicle represents a challenging flex-body structural environment for flight control system design. This paper presents a design methodology for employing numerical optimization to develop the Ares I flight control system. The design objectives include attitude tracking accuracy and robust stability with respect to rigid body dynamics, propellant slosh, and flex. Under the assumption that the Ares I time-varying dynamics and control system can be frozen over a short period of time, the flight controllers are designed to stabilize all selected frozen-time launch control systems in the presence of parametric uncertainty. Flex filters in the flight control system are designed to minimize the flex components in the error signals before they are sent to the attitude controller. To ensure adequate response to guidance command, step response specifications are introduced as constraints in the optimization problem. Imposing these constraints minimizes performance degradation caused by the addition of the flex filters. The first stage bending filter design achieves stability by adding lag to the first structural frequency to phase stabilize the first flex mode while gain stabilizing the higher modes. The upper stage bending filter design gain stabilizes all the flex bending modes. The flight control system designs provided here have been demonstrated to provide stable first and second stage control systems in both Draper Ares Stability Analysis Tool (ASAT) and the MSFC 6DOF nonlinear time domain simulation.

[1]  Arthur Gelb,et al.  Multiple-Input Describing Functions and Nonlinear System Design , 1968 .

[2]  Jay Brandon,et al.  Ares I Flight Control System Overview , 2008 .

[3]  Arthur L. Greensite,et al.  Analysis and design of space vehicle flight control systems , 1970 .

[4]  Singiresu S. Rao Game theory approach for multiobjective structural optimization , 1987 .

[5]  Ju-liang Zhang Jian Chen A CONSTRAINED OPTIMIZATION APPROACH FOR LCP , 2006 .

[6]  Robert Hall,et al.  Initial Ares I Bending Filter Design , 2007 .

[7]  Pol D. Spanos,et al.  Absolute Stability Analysis of a Phase Plane Controlled Spacecraft , 2010 .

[8]  James Frosch,et al.  Saturn AS-501/S-IC flight control system design. , 1967 .

[9]  Robert Hall,et al.  Ares-I Bending Filter Design Using A Constrained Optimization Approach , 2008 .

[10]  B. Friedlander,et al.  The Modified Yule-Walker Method of ARMA Spectral Estimation , 1984, IEEE Transactions on Aerospace and Electronic Systems.

[11]  Max Donath,et al.  American Control Conference , 1993 .

[12]  Michael Johnson,et al.  International Space Station US GN&C Attitude Hold Controller Design for Orbiter Repair Maneuver , 2005 .

[13]  Pol D. Spanos,et al.  Design of robust Nash game theoretic controllers with time domain constraints , 2003, Proceedings of the 2003 American Control Conference, 2003..

[14]  Pol D. Spanos,et al.  A CONSTRAINED OPTIMIZATION APPROACH FOR CMG ROBUST FLEX FILTER DESIGN , 2002 .

[15]  E. T. Kubiak,et al.  A frequency domain stability analysis of a phase plane control system. [for Space Shuttle on-orbit flight] , 1984 .

[16]  Greg A. Dukeman,et al.  Atmospheric Ascent Guidance for Rocket-Powered Launch Vehicles , 2005 .