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  • 1
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    Modeling and Identification of a Large Gap Magnetic Suspension System (1996)
    In:  CASI
    Details
    Publication Date: 2013-08-31
    Description: This paper presents the results of modeling and system identification efforts on the NASA Large-Angle Magnetic Suspension Test Fixture (LAMSTF). The LAMSTF consists of a cylindrical permanent magnet which is levitated above a planar array of five electromagnets mounted in a circular configuration. The analytical model is first developed and open-loop characteristics are described. The system is shown to be highly unstable and requires feedback control in order to apply system identification. Limitations on modeling accuracy due to the effect of eddy-currents on the system are discussed. An algorithm is derived to identify a state-space model for the system from input/output data acquired during closed-loop operation. The algorithm is tested on both the baseline system and a perturbed system which has an increased presence of eddy currents. It is found that for the baseline system the analytic model adequately captures the dynamics, although the identified model improves the simulation accuracy. For the system perturbed by additional unmodeled eddy-currents the analytic model is no longer adequate and a higher-order model, determined through system identification, is required to accurately predict the system's time response.
    Keywords: Mechanical Engineering
    Type: Third International Symposium on Magnetic Suspension Technology; Part 2; 403-419; NASA-CP-3336-Pt-2
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 2
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    Control of the SCOLE configuration using distributed parameter models (1994)
    In:  CASI
    Details
    Publication Date: 2013-08-31
    Description: A continuum model for the SCOLE configuration has been derived using transfer matrices. Controller designs for distributed parameter systems have been analyzed. Pole-assignment controller design is considered easy to implement but stability is not guaranteed. An explicit transfer function of dynamic controllers has been obtained and no model reduction is required before the controller is realized. One specific LQG controller for continuum models had been derived, but other optimal controllers for more general performances need to be studied.
    Keywords: STRUCTURAL MECHANICS
    Type: NASA. Langley Research Center, NASA Workshop on Distributed Parameter Modeling and Control of Flexible Aerospace Systems; p 351-363
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 3
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    Iterative LQG Controller Design Through Closed-Loop Identification (1996)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: This paper presents an iterative Linear Quadratic Gaussian (LQG) controller design approach for a linear stochastic system with an uncertain open-loop model and unknown noise statistics. This approach consists of closed-loop identification and controller redesign cycles. In each cycle, the closed-loop identification method is used to identify an open-loop model and a steady-state Kalman filter gain from closed-loop input/output test data obtained by using a feedback LQG controller designed from the previous cycle. Then the identified open-loop model is used to redesign the state feedback. The state feedback and the identified Kalman filter gain are used to form an updated LQC controller for the next cycle. This iterative process continues until the updated controller converges. The proposed controller design is demonstrated by numerical simulations and experiments on a highly unstable large-gap magnetic suspension system.
    Keywords: Cybernetics
    Type: NASA-CR-203238 , NAS 1.26:203238 , Journal of Dynamic Systems, Measurement and Control; 118; 366-372
    Format: application/pdf
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  • 4
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    Indirect Identification of Linear Stochastic Systems with Known Feedback Dynamics (1996)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: An algorithm is presented for identifying a state-space model of linear stochastic systems operating under known feedback controller. In this algorithm, only the reference input and output of closed-loop data are required. No feedback signal needs to be recorded. The overall closed-loop system dynamics is first identified. Then a recursive formulation is derived to compute the open-loop plant dynamics from the identified closed-loop system dynamics and known feedback controller dynamics. The controller can be a dynamic or constant-gain full-state feedback controller. Numerical simulations and test data of a highly unstable large-gap magnetic suspension system are presented to demonstrate the feasibility of this indirect identification method.
    Keywords: Cybernetics
    Type: NASA-CR-203237 , NAS 1.26:203237 , Journal of Guidance, Control, and Dynamics; 19; 4; 836-841
    Format: application/pdf
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