Intermodulation-based audible masker generation by band-limited white-noise-based carrier wave for audible area control with parametric array loudspeakers

A parametric array loudspeaker (PAL) can achieve sharp directivity by using ultrasonic waves. When an intense amplitude-modulated wave that has a different frequency corresponding to the target signal is emitted from a PAL, the target signal is demodulated on the propagation axis of the amplitude-modulated wave due to the nonlinearity of the air. However, the non-target listeners on this axis can hear the demodulated target signal. To address this issue, we propose an audible area control method using an intermodulation-based audible masker generated by two PALs. One PAL emits an amplitude-modulated wave, while the other emits a band-limited white-noise-based carrier wave. While the target signal is demodulated on the propagation axis of the amplitude modulated wave, an intermodulation-based audible masker is generated by the interaction of the amplitude-modulated wave and the band-limited white-noise-based carrier wave where the two ultrasonic beams overlap. This allows the target signal to be masked for non-target listeners on that axis. The effectiveness of the proposed method is confirmed through objective experiments on the sound pressure level of the masker and subjective experiments on speech intelligibility.