Enhancement of the Aeroservoelastic Capability in Astros.

Abstract

This report documents the results of an STTR Phase I feasability study to investigate potential aerodynamic and aeroservoelastic enhancements to the 'Automated Structural Optimization System (ASTROS).' This study included the development of the Unified S-Domain Aerodynamics package which provides capability for aerodynamic modeling of arbitrary and complex aircraft geometries, including stores, throughout the entire flight regime, including transonic and hypersonic flight. The aerodynamics module utilizes four existing aerodynamic codes to accomplish this airload prediction capability. Additionally, a new aerodynamic geometry module was created to simplify the aerodynamic modeling of an aircraft regardless of the particular analysis code being employed. This research effort also included the development of a software design blueprint for an aeroservoelastic analysis and design module. Through a state-space formulation of the problem, this module allows the inclusion of control system design variables such as gain and phase margins, vibration frequencies, and damping ratios in the design and optimization of flexible aircraft structures.

Open PDF

Document Details

Document Type
Technical Report
Publication Date
Sep 01, 1996
Accession Number
ADA315241

Entities

People

  • A. G. Striz
  • D. D. Liu
  • D. J. Neill
  • D. Sarhaddi
  • P. C. Chen

Tags

Communities of Interest

  • Air Platforms

DTIC Thesaurus Topics

  • Aerodynamics
  • Aircrafts
  • Control Systems
  • Flight
  • Frequency
  • Frequency Shift
  • Geometry
  • Hypersonic Flight
  • Inclusions
  • Mathematics
  • Mechanical Structure
  • Optimization
  • Software Design
  • Topology
  • Vibration

Fields of Study

  • Engineering
  • Physics

Readers

  • Aerodynamics/Aeronautics.
  • Computational Fluid Dynamics (CFD)
  • Control Systems Engineering.

Technology Areas

  • Hypersonics
  • Space
  • Space - Spacecraft Maneuvers