Personal audio systems are designed to deliver spatially separated regions of audio to individual listeners. This paper demonstrates a method of personal audio system design which provides a level of contrast in the perceived speech intelligibility between bright and dark audio zones. Limitations in array directivity which would lead to a loss of privacy are overcome by reproducing a synthetic masking signal in the dark zone. This signal is optimised to provide effective masking whilst remaining subjectively pleasant to listeners. Results of this optimisation from a simulated personal audio system are presented
The generation of personal listening zones in a car cabin would allow the different occupants to lis...
A novel design method that generates causal pre-compensation filters is formulated. The resulting fi...
With an increasing interest in personal audio systems, the car cabin is an important environment in ...
Personal audio systems are designed to deliver spatially separated regions of audio to individual li...
Personal Audio systems can be used to provide information and entertainment content in public spaces...
Personal Audio refers to the generation of spatially distinct sound zones that allow individuals wit...
This paper proposes two methods for providing speech privacy between spatial zones in anechoic and r...
Initial monopole simulations suggest that a single secondary source placed close to the primary sour...
A private sound zone can be created by focusing a spoken message towards a target listener using a l...
As well as being able to reproduce sound in one region of space, it would be useful in many applicat...
Sound eld control methods can be used to create multiple zones of audio in the same room. Separation...
When one person is listening to audio reproduced using loudspeakers mounted in a headrest, the leaka...
Sound field control methods can be used to create multiple zones of audio in the same room. Separati...
With an increasing interest in personal audio systems, the car cabin is regarded as an interesting e...
Pressure matching (PM) is an advanced digital signal processing technique aimed at designing loudspe...
The generation of personal listening zones in a car cabin would allow the different occupants to lis...
A novel design method that generates causal pre-compensation filters is formulated. The resulting fi...
With an increasing interest in personal audio systems, the car cabin is an important environment in ...
Personal audio systems are designed to deliver spatially separated regions of audio to individual li...
Personal Audio systems can be used to provide information and entertainment content in public spaces...
Personal Audio refers to the generation of spatially distinct sound zones that allow individuals wit...
This paper proposes two methods for providing speech privacy between spatial zones in anechoic and r...
Initial monopole simulations suggest that a single secondary source placed close to the primary sour...
A private sound zone can be created by focusing a spoken message towards a target listener using a l...
As well as being able to reproduce sound in one region of space, it would be useful in many applicat...
Sound eld control methods can be used to create multiple zones of audio in the same room. Separation...
When one person is listening to audio reproduced using loudspeakers mounted in a headrest, the leaka...
Sound field control methods can be used to create multiple zones of audio in the same room. Separati...
With an increasing interest in personal audio systems, the car cabin is regarded as an interesting e...
Pressure matching (PM) is an advanced digital signal processing technique aimed at designing loudspe...
The generation of personal listening zones in a car cabin would allow the different occupants to lis...
A novel design method that generates causal pre-compensation filters is formulated. The resulting fi...
With an increasing interest in personal audio systems, the car cabin is an important environment in ...