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Performance of Optimized Actuator and Sensor Arrays in an Active Noise Control System (1996)

Palumbo, D. L. ; Cabell, R. H. ; Lyle, K. H. ; [et al.]

In: CASI

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Publication Date: 2018-06-02

Description: Experiments have been conducted in NASA Langley s Acoustics and Dynamics Laboratory to determine the effectiveness of optimized actuator/sensor architectures and controller algorithms for active control of harmonic interior noise. Tests were conducted in a large scale fuselage model - a composite cylinder which simulates a commuter class aircraft fuselage with three sections of trim panel and a floor. Using an optimization technique based on the component transfer functions, combinations of 4 out of 8 piezoceramic actuators and 8 out of 462 microphone locations were evaluated against predicted performance. A combinatorial optimization technique call tabu search was employed to select the optimum transducer arrays. Three test frequencies represent the cases of a strong acoustic and strong structural response, a weak acoustic and strong structural response and a strong acoustic and weak structural response. Noise reduction was obtained using a Time Averaged/Gradient Descent (TAGD) controller. Results indicate that the optimization technique successfully predicted best and worst case performance. An enhancement of the TAGD control algorithm was also evaluated. The principal components of the actuator/sensor transfer functions were used in the PC-TAGD controller. The principal components are shown to be independent of each other while providing control as effective as the standard TAGD.

Keywords: Aircraft Design, Testing and Performance

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2

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The prediction of nonlinear dynamic loads on helicopters from flight variables using artificial neural networks (1992)

O'Brien, W. F. ; Cook, A. B. ; Cabell, R. H. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: A method of indirectly monitoring component loads through common flight variables is proposed which requires an accurate model of the underlying nonlinear relationships. An artificial neural network (ANN) model learns relationships through exposure to a database of flight variable records and corresponding load histories from an instrumented military helicopter undergoing standard maneuvers. The ANN model, utilizing eight standard flight variables as inputs, is trained to predict normalized time-varying mean and oscillatory loads on two critical components over a range of seven maneuvers. Both interpolative and extrapolative capabilities are demonstrated with agreement between predicted and measured loads on the order of 90 percent to 95 percent. This work justifies pursuing the ANN method of predicting loads from flight variables.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: In: DGLR(AIAA Aeroacoustics Conference, 14th, Aachen, Germany, May 11-14, 1992, Proceedings. Vol. 2 (A93-19126 05-71); p. 971-979.

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3

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A smart pattern recognition system for the automatic identification of aerospace acoustic sources (1989)

Fuller, C. R. ; Cabell, R. H.

In: Other Sources

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Publication Date: 2019-06-28

Description: An intelligent air-noise recognition system is described that uses pattern recognition techniques to distinguish noise signatures of five different types of acoustic sources, including jet planes, propeller planes, a helicopter, train, and wind turbine. Information for classification is calculated using the power spectral density and autocorrelation taken from the output of a single microphone. Using this system, as many as 90 percent of test recordings were correctly identified, indicating that the linear discriminant functions developed can be used for aerospace source identification.

Keywords: CYBERNETICS

Type: AIAA PAPER 89-1114

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4

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Optimization of actuator arrays for aircraft interior noise control (1993)

Lester, H. C. ; Tran, B. N. ; Cabell, R. H. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: A numerical procedure for grouping actuators in order to reduce the number of degrees of freedom in an active noise control system is evaluated using experimental data. Piezoceramic actuators for reducing aircraft interior noise are arranged into groups using a nonlinear optimization routine and clustering algorithm. An actuator group is created when two or more actuators are driven with the same control input. This procedure is suitable for active control applications where actuators are already mounted on a structure. The feasibility of this technique is demonstrated using measured data from the aft cabin of a Douglas DC-9 fuselage. The measured data include transfer functions between 34 piezoceramic actuators and 29 interior microphones and microphone responses due to the primary noise produced by external speakers. Control inputs for the grouped actuators were calculated so that a cost function, defined as a quadratic pressure term and a penalty term, was a minimum. The measured transfer functions and microphone responses are checked by comparing calculated noise reductions with measured noise reductions for four frequencies. The grouping procedure is then used to determine actuator groups that improve overall interior noise reductions by 5.3 to 15 dB, compared to the baseline experimental configuration.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: AIAA PAPER 93-4447 , ; 11 p.|AIAA, Aeroacoustics Conference; Oct 25, 1993 - Oct 27, 1993; Long Beach, CA; United States

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Real-Time Feedback Control of Flow-Induced Cavity Tones (2006)

Cabell, R. H. ; Kegerise, M. A. ; Cattafesta, L. N., III

In: CASI

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Publication Date: 2019-07-12

Description: A generalized predictive control (GPC) algorithm was formulated and applied to the cavity flow-tone problem. The control algorithm demonstrated multiple Rossiter-mode suppression at fixed Mach numbers ranging from 0.275 to 0.38. Controller performance was evaluated with a measure of output disturbance rejection and an input sensitivity transfer function. The results suggest that disturbances entering the cavity flow are collocated with the control input at the cavity leading edge. In that case, only tonal components of the cavity wall-pressure fluctuations can be suppressed and arbitrary broadband pressure reduction is not possible with the present sensor/actuator arrangement. In the control-algorithm development, the cavity dynamics were treated as linear and time invariant (LTI) for a fixed Mach number. The experimental results lend support to that treatment.

Keywords: Acoustics

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6

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A High-Authority/Low-Authority Control Strategy for Coupled Aircraft-Style Bays (2006)

Fuller, C. R. ; Schiller, N. H. ; Cabell, R. H.

In: CASI

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Publication Date: 2019-07-13

Description: This paper presents a numerical investigation of an active structural acoustic control strategy for coupled aircraft-style bays. While structural coupling can destabilize or limit the performance of some model-based decentralized control systems, fullycoupled centralized control strategies are impractical for typical aircraft containing several hundred bays. An alternative is to use classical rate feedback with matched, collocated transducer pairs to achieve active damping. Unfortunately, due to the conservative nature of this strategy, stability is guaranteed at the expense of achievable noise reduction. Therefore, this paper describes the development of a combined control strategy using robust active damping in addition to a high-authority controller based on linear quadratic Gaussian (LQG) theory. The combined control system is evaluated on a tensioned, two-bay model using piezoceramic actuators and ideal point velocity sensors. Transducer placement on the two-bay structure is discussed, and the advantages of a combined control strategy are presented.

Keywords: Aircraft Design, Testing and Performance

Type: AIAA Paper a06_032 , ACTIVE 2006: 6th International Symposium on Active Noise and Vibration Control; Sep 18, 2006 - Sep 20, 2006; Adelaide; Australia

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7

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A neural network for the identification of measured helicopter noise (1991)

Cabell, R. H. ; O'Brien, W. F. ; Fuller, C. R.

In: Other Sources

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Publication Date: 2019-07-13

Description: The results of a preliminary study of the components of a novel acoustic helicopter identification system are described. The identification system uses the relationship between the amplitudes of the first eight harmonics in the main rotor noise spectrum to distinguish between helicopter types. Two classification algorithms are tested; a statistically optimal Bayes classifier, and a neural network adaptive classifier. The performance of these classifiers is tested using measured noise of three helicopters. The statistical classifier can correctly identify the helicopter an average of 67 percent of the time, while the neural network is correct an average of 65 percent of the time. These results indicate the need for additional study of the envelope of harmonic amplitudes as a component of a helicopter identification system. Issues concerning the implementation of the neural network classifier, such as training time and structure of the network, are discussed.

Keywords: CYBERNETICS

Type: AHS Annual Forum; May 06, 1991 - May 08, 1991; Phoenix, AZ; United States

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8

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The optimization of force inputs for active structural acoustic control using a neural network (1992)

Silcox, R. J. ; Lester, H. C. ; Cabell, R. H.

In: CASI

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Publication Date: 2019-07-13

Description: This paper investigates the use of a neural network to determine which force actuators, of a multi-actuator array, are best activated in order to achieve structural-acoustic control. The concept is demonstrated using a cylinder/cavity model on which the control forces, produced by piezoelectric actuators, are applied with the objective of reducing the interior noise. A two-layer neural network is employed and the back propagation solution is compared with the results calculated by a conventional, least-squares optimization analysis. The ability of the neural network to accurately and efficiently control actuator activation for interior noise reduction is demonstrated.

Keywords: ACOUSTICS

Type: NASA-TM-107627 , NAS 1.15:107627 , 1992 International Congress on Noise Control Engineering (INTER-NOISE 92); Jul 20, 1992 - Jul 22, 1992; Toronto, Ontario; Canada

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9

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Real-Time Feedback Control of Flow-Induced Cavity Tones (2006)

Cattafesta, L. N., III ; Kegerise, M. A. ; Cabell, R. H.

In: CASI

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Publication Date: 2019-07-12

Description: An adaptive generalized predictive control (GPC) algorithm was formulated and applied to the cavity flow-tone problem. The algorithm employs gradient descent to update the GPC coefficients at each time step. Past input-output data and an estimate of the open-loop pulse response sequence are all that is needed to implement the algorithm for application at fixed Mach numbers. Transient measurements made during controller adaptation revealed that the controller coefficients converged to a steady state in the mean, and this implies that adaptation can be turned off at some point with no degradation in control performance. When converged, the control algorithm demonstrated multiple Rossiter mode suppression at fixed Mach numbers ranging from 0.275 to 0.38. However, as in the case of fixed-gain GPC, the adaptive GPC performance was limited by spillover in sidebands around the suppressed Rossiter modes. The algorithm was also able to maintain suppression of multiple cavity tones as the freestream Mach number was varied over a modest range (0.275 to 0.29). Beyond this range, stable operation of the control algorithm was not possible due to the fixed plant model in the algorithm.

Keywords: Acoustics

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10

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Pattern recognition system for automatic identification of acoustic sources (1991)

Cabell, R. H. ; Fuller, C. R.

In: Other Sources

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Publication Date: 2019-07-12

Keywords: CYBERNETICS

Type: AIAA Journal (ISSN 0001-1452); 29; 180-186

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