Application of wave-number sensing technique for the prediction of radiated sound in the structural acoustic system

In this paper, two types of techniques for the prediction of radiated sound pressure due to vibration of a structure and the optimal design of sensor configuration is studied. The prediction performance of wave-number sensing technique in far-field area is compared with traditional Rayleigh's integr al method. For a coupled plate, the prediction performance of far-field sou nd is verified using wave-number components, which are predicted by the vib ration response of plate. In addition, distributed sensor that can not be a llowed in Rayleigh's integral method is proposed to replace point sensor. E xperimental implementation verified the prediction accuracy of far-field so und radiation by the wave-number sensing technique. Prediction results from the new technique are as good as those from Rayleigh's integral method, an d with the distributed sensors, more reduced computation time is expected. The organization of the optimal sensor is newly designed for the accurate a nd efficient estimation of the sound radiation. To predict the radiated sou nd using the efficient configuration of structural sensors, composed vibrat ion response is determined considering acoustic power contribution, and siz e and location of sensors are chosen. Four types of sensor configuration ar e suggested, simulated and compared.