Design Method for Fully Augmented Systems for Variable Flight Conditions

Item

Title
Design Method for Fully Augmented Systems for Variable Flight Conditions
Date
1972
Identifier
AD0744491
AD0744491
Abstract
A practical controller design procedure for aircraft for their entire flight envelope is developed based on quadratic optimal control technology. The resulting design is an optimal gain schedule with some gains fixed and some gains variable. The procedure is applied to two example aircraft, the F4 Lateral-Direction Axes and the YF-12 Pitch Axis. Good handling qualities are a criteria for both examples. An additional criterion of minimizing accelerations due to flexure is included in the YF-12 design. The handling-quality criteria are expressed as model-following errors while the ride qualities are expressed as mean square accelerations. A computer algorithm is developed to solve this fixed-plus-variable-gain optimization problem with measurement realizability constraints. The algorithm successfully handled 11th-order dynamics over 11 flight conditions and 22nd-order dynamics over four flight conditions. A pole-placement algorithm is also extended to multiple flight conditions but is not applied.
Extent
298
Corporate Author
Honeywell, Inc.
Laboratory
Air Force Flight Dynamics Laboratory
Corporate Report Number
F0042-FR
Report Number
AFFDL-TR-71-152
Contract
F33615-71-C-1058
DoD Project
8219
Distribution Conflict
No
Access Rights
This document has been approved for public release and sale; its distribution is unlimited.
Photo Quality
Not Needed
Distribution Classification
1
DTIC Record Exists
Yes
Report Availability
Full text available by request
Creator
VanDierendonck, Albert J.
Date Issued
1972-01
Provenance
University of Colorado Colorado Springs, Kraemer Family Library
Type
report