Journal of Structural Dynamics

A Diamond Open Access Journal for High-quality Papers in the Field of Structural Dynamics

2684-6500

 

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Keaton Coletti, R. Benjamin Davis & Ryan Schultz

Automated shaker placement and regularized input estimation for MIMO testing.

(Issue 3)
DOI: 10.25518/2684-6500.273
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Open Access

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Abstract

Multi-input, multi-output (MIMO) testing is used in component qualification to reproduce operational responses in the laboratory. It is often preferred to single-input and base-shake testing because of the potential for equivalent or better tests using smaller actuators and shorter test suites. Given a target response, two key steps in MIMO test design are selecting actuator locations and solving for input loads. Actuator locations are often manually selected using expert judgment. If an automatic method is used, locations are usually determined by simulating the vibration control problem and minimizing a combination of the input energy and control residuals. To select a configuration, the relative importance of input energy and residuals must be specified. Specifying relative weights is, in general, a manual and subjective process. This paper develops an objective function that compares actuator configurations based on control accuracy and required input energy without any manual parameter tuning. The objective function uses an optimally selected tradeoff parameter for each candidate configuration. To choose actuator locations using the new objective function, a pivoting algorithm for integer programming problems is developed. Starting with an initial configuration (such as the one generated by a greedy algorithm), the pivoting algorithm guarantees an objective function decrease in each iteration until convergence is reached. In a simulation featuring a structure excited by a diffuse acoustic field, electrodynamic shaker locations and regularized inputs are solved for without any analyst-specified parameters. Simulations are performed in MIMO configurations where the number of target responses is less than, equal to, and greater than the number of actuators.

Index by keyword : Multi-input multi-output, shaker placement, Tikhonov regularization, greedy algorithm, integer programming

To cite this article

Keaton Coletti, R. Benjamin Davis & Ryan Schultz, «Automated shaker placement and regularized input estimation for MIMO testing.», Journal of Structural Dynamics [En ligne], Issue 3, URL : https://popups.uliege.be/2684-6500/index.php?id=273.

About: Keaton Coletti

College of Engineering, University of Georgia, 30602, Athens, Georgia, United States,

Sandia National Laboratories, Albuquerque, 87123, New Mexico, United States

About: R. Benjamin Davis

College of Engineering, University of Georgia, 30602, Athens, Georgia, United States

About: Ryan Schultz

Sandia National Laboratories, Albuquerque, 87123, New Mexico, United States