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A multidisciplinary approach to optimization of controlled space structures (1990)

Padula, Sharon L. ; Woodard, Stanley E. ; Graves, Philip C. ; [et al.]

In: CASI

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Publication Date: 2004-12-04

Description: A fundamental problem facing controls-structures analysts is a means of determining the trade-offs between structural design parameters and control design parameters in meeting some particular performance criteria. Developing a general optimization-based design methodology integrating the disciplines of structural dynamics and controls is a logical approach. The objective of this study is to develop such a method. Classical design methodology involves three phases. The first is structural optimization, wherein structural member sizes are varied to minimize structural mass, subject to open-loop frequency constraints. The next phase integrates control and structure design with control gains as additional design variables. The final phase is analysis of the 'optimal' integrated design phase considering 'real' actuators and 'standard' member sizes. The control gains could be further optimized for fixed structure, and actuator saturation constraints could be imposed. However, such an approach does not take full advantage of opportunities to tailor the structure and control system design as one system.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: The Third Air Force(NASA Symposium on Recent Advances in Multidisciplinary Analysis and Optimization; p 501-506

Format: text

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Multidisciplinary optimization of controlled space structures with global sensitivity equations (1991)

Graves, Philip C. ; Padula, Sharon L. ; Woodard, Stanley E. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A new method for the preliminary design of controlled space structures is presented. The method coordinates standard finite element structural analysis, multivariable controls, and nonlinear programming codes and allows simultaneous optimization of the structures and control systems of a spacecraft. Global sensitivity equations are a key feature of this method. The preliminary design of a generic geostationary platform is used to demonstrate the multidisciplinary optimization method. Fifteen design variables are used to optimize truss member sizes and feedback gain values. The goal is to reduce the total mass of the structure and the vibration control system while satisfying constraints on vibration decay rate. Incorporating the nonnegligible mass of actuators causes an essential coupling between structural design variables and control design variables. The solution of the demonstration problem is an important step toward a comprehensive preliminary design capability for structures and control systems. Use of global sensitivity equations helps solve optimization problems that have a large number of design variables and a high degree of coupling between disciplines.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-TP-3130 , NAS 1.60:3130

Format: application/pdf

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