Title :
Adaptive Feedforward Active Noise Cancellation in Ducts Using the Model Matching of Wave Propagation Dynamics
Author :
Hu, Jwusheng ; Hsiao, Tesheng
Author_Institution :
Dept. of Electr. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
Active noise cancellation in ducts using multiple feedforward sensors have been investigated by many researchers. When adaptive algorithms were applied, usually a lumped parameter model was assumed and the model includes the dynamics of the duct, sensors and actuators (e.g., microphone and loudspeaker). The distributed nature of the duct usually leads to a large parameter space and is difficult to implement direct adaptive control. This brief presents a control architecture which separates the duct´s dynamics from those of sensors and actuators. An adaptive control algorithm is proposed to cope with the unknown dynamics of sensors and actuators. Experiments were conducted to show the effectiveness of the control law.
Keywords :
active noise control; actuators; adaptive control; distributed parameter systems; ducts; feedforward; pattern matching; sensors; wave propagation; actuator dynamics; adaptive feedforward active noise cancellation; control architecture; control law; direct adaptive control algorithm; duct dynamics; feedforward sensors; lumped parameter model; model matching; sensor dynamics; wave propagation dynamics; Actuators; Ducts; Equations; Feedforward neural networks; Microphones; Noise; Sensors; Acoustic control; active noise control; adaptive control; digital signal processor; distributed parameter system;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2011.2162628
