A general model-matching formulation of feedforward control systems for active noise cancellation in ducts

Active noise cancellation in ducts using multiple feedforward sensors have been investigated by many researchers. Both adaptive and non-adaptive algorithms were proposed. However, from control system viewpoint, a general control framework based on 1-D linear wave equation for a duct still remains un...

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Hauptverfasser:	HU, Jwusheng, HSIAO, Te-Sheng
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Acoustic sensors Acoustic waves Acoustics Applied sciences Computer science control theory systems Control system synthesis Control systems Control theory. Systems Ducts Exact sciences and technology Feedback Fundamental areas of phenomenology (including applications) Noise cancellation Noise: its effects and control Partial differential equations Physics Sensor systems Stability
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creator	HU, Jwusheng HSIAO, Te-Sheng
description	Active noise cancellation in ducts using multiple feedforward sensors have been investigated by many researchers. Both adaptive and non-adaptive algorithms were proposed. However, from control system viewpoint, a general control framework based on 1-D linear wave equation for a duct still remains unexplored. In addition to the lumped parameter settings, the wave equation contains all the details of the plant behavior. This work presents a model-matching framework using the close-form solution of the wave equation in ducts. Simple and concise results regarding stability and performance are developed. Several design ideas are also discussed.
doi_str_mv	10.1109/CCA.2004.1387495
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subjects	Acoustic sensors Acoustic waves Acoustics Applied sciences Computer science control theory systems Control system synthesis Control systems Control theory. Systems Ducts Exact sciences and technology Feedback Fundamental areas of phenomenology (including applications) Noise cancellation Noise: its effects and control Partial differential equations Physics Sensor systems Stability
title	A general model-matching formulation of feedforward control systems for active noise cancellation in ducts
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