ACTIVE INTENSITY CONTROL FOR THE REDUCTION OF RADIATED DUCT NOISE

If one wants to control the noise from a duct, then one must have a sufficient number of sensors and actuators so that the control system is observable and controllable. The number of sensors and actuators for controlling radiating noise from a duct has to be incorporated with the number of modes th

Active noise control of an acoustic duct system is studied by a real state-space model in this paper. The linear quadratic Gaussian (LQG) method is chosen to design an active noise controller in order to reject noise in a collocated duct system subject to a disturbance source at one end. Robustness

A control design method is proposed to design controllers to achieve global sound pressure attenuation for noise of narrow-band frequencies in a one-dimensional acoustic duct system. This method combines a linear-quadratic-gaussian (LQG) theory with an internal model principle to design internal mod

The objective of this work is to assemble and test a non-application-specific active controller for the reduction of noise and vibration and discuss its potential for practical applications. The power absorbed by the controller is taken as a cost function to be maximized. The background theory and e

This paper presents a coherent method of design of active noise control systems for compact and distributed sources of noise in a three-dimensional non-dispersive propagation medium. An analysis of single-input single-output, single-input multi-output and multi-input multi-output control structures