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Effect of errors in the plant model on the performance of algorithms for adaptive feedforward control

Effect of errors in the plant model on the performance of algorithms for adaptive feedforward control

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© The Institution of Electrical Engineers
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The paper presents an investigation into the effects of errors in the assumed plant model on the performance of both single and multichannel adaptive algorithms for the active control of sound and vibration. In the single-channel case the effects of phase errors on the maximum update coefficient and convergence time of the filtered-x LMS algorithm are considered. This involves both analytic results and computer simulations. For the multichannel case a statistical analysis is presented examining the effects of a Gaussian distribution of errors in the assumed plant response on the convergence of the multichannel LMS algorithm. The work includes experimental results from a 32 microphone, 16 loudspeaker active noise control system.

Inspec keywords: loudspeakers; least squares approximations; adaptive control; noise abatement; control systems; error statistics

Other keywords: multichannel LMS algorithm; filtered-x LMS algorithm; phase errors; experimental results; plant model; vibration control; active noise control system; sound control; computer simulations; loudspeaker; microphone; Gaussian distribution; multichannel adaptive algorithms; maximum update coefficient; single channel adaptive algorithms; adaptive feedforward control; statistical analysis; convergence time

Subjects: Other topics in statistics; Audio equipment and systems; Interpolation and function approximation (numerical analysis); Interpolation and function approximation (numerical analysis); Self-adjusting control systems; Transduction; devices for the generation and reproduction of sound; Acoustic noise, its effects and control; Numerical approximation and analysis

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