Title :
Finite element model-based robust controllers for the middeck active control experiment (MACE)
Author :
How, Jonathan ; Glaese, Roger ; Grocott, Simon ; Miller, David
Author_Institution :
Dept. of Aeronaut. & Astronaut., Stanford Univ., CA, USA
fDate :
1/1/1996 12:00:00 AM
Abstract :
The middeck active control experiment (MACE) is a space shuttle flight experiment intended to demonstrate high authority active structural control in zero gravity (0-g) conditions based on analysis and ground testing. Finite element structural models are very important for the MACE program because they can be used to predict the on-orbit dynamics of the test article. However, finite element models tend to be inaccurate, requiring the use of parametric robust control techniques to achieve good performance. Several such control techniques and an overall design methodology are discussed in this paper. Experimental results from several tests are used to illustrate the feasibility of achieving good H2 performance on the test article with robust controllers based on the finite element model. This demonstration improves confidence in the eventual on-orbit performance of this experiment and other future spacecraft
Keywords :
aerospace control; dynamics; finite element analysis; flexible structures; identification; maximum entropy methods; optimal control; robust control; space vehicles; vibration control; H2 control; MACE; active structural control; finite element models; flexible structures; flight experiment; identification; maximum entropy methods; middeck active control experiment; model-based robust control; on-orbit dynamics; parametric uncertainty; space shuttle; spacecraft; vibration control; Extraterrestrial measurements; Finite element methods; Gravity; NASA; Predictive models; Robust control; Space shuttles; Space technology; Space vehicles; Testing;
Journal_Title :
Control Systems Technology, IEEE Transactions on
