Comparison of H∞ and GIPC control methods for attitude control of rigid spacecrafts

Author

Mousaviyanfard Dehkordi, S.K. ; Kashaninia, A. ; Nasirian, M.

Author_Institution

Malek Ashtar Univ. of Technol., Tehran, Iran

fYear

2013

fDate

28-30 Dec. 2013

Firstpage

101

Lastpage

106

Abstract

In this paper, two methods of H_∞ robust control and generalized incremental predictive control (GIPC) are designed and compared for three axis attitude control of a rigid spacecraft. These designs are performed with consideration of environmental disturbances, limitations of available torques and moments of inertia uncertainties. Three reaction wheels are used to produce required torques. Benefits of using generalized incremental predictive control (GIPC) comparing to H_∞ robust control is shown by simulation. These advantages are such as considering input constraints, improving some dynamic performance features, and obtaining more applicable controller.

Keywords

H^∞ control; aircraft control; attitude control; control system synthesis; predictive control; torque control; uncertain systems; GIPC control method design; H_∞ robust control method design; attitude control; dynamic performance feature improvement; environmental disturbances; generalized incremental predictive control; input constraints; moment-of-inertia uncertainties; reaction wheels; rigid spacecrafts; torque uncertainties; Attitude control; Equations; Mathematical model; Predictive control; Space vehicles; Vectors; Wheels; Attitude Control of Spacecraft; Generalized incremental predictive control (GIPC); H∞ Robust Control; constraints;

fLanguage

English

Publisher

ieee

Conference_Titel

Control, Instrumentation, and Automation (ICCIA), 2013 3rd International Conference on

Conference_Location

Tehran

Type

conf

DOI

10.1109/ICCIAutom.2013.6912816

Filename

6912816