Virtual sound using loudspeakers: robust acoustic crosstalk cancellation
Acoustic signal processing for telecommunication
Speech Enhancement (Signal Processing and Communications)
Speech Enhancement (Signal Processing and Communications)
Psychoacoustics: Facts and Models
Psychoacoustics: Facts and Models
A perceptual model for sinusoidal audio coding based on spectral integration
EURASIP Journal on Applied Signal Processing
Room impulse response shortening/reshaping with infinity- and p-norm optimization
IEEE Transactions on Audio, Speech, and Language Processing
A Minimax Approach for the Joint Design of Acoustic Crosstalk Cancellation Filters
IEEE Transactions on Audio, Speech, and Language Processing
An Algorithm for Intelligibility Prediction of Time–Frequency Weighted Noisy Speech
IEEE Transactions on Audio, Speech, and Language Processing
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In this article, we address speech reinforcement (near-end listening enhancement) for a scenario where there are several playback zones. In such a framework, signals from one zone can leak into other zones (crosstalk), causing intelligibility and/or quality degradation. An optimization framework is built by exploring a signal model where effects of noise, reverberation and zone crosstalk are taken into account simultaneously. Through the symbolic usage of a general smooth distortion measure, necessary optimality conditions are derived in terms of distortion measure gradients and the signal model. Subsequently, as an illustrative example of the framework, the conditions are applied for the mean-square error (MSE) expected distortion under a hybrid stochastic-deterministic model for the corruptions. A crosstalk cancellation algorithm follows, which depends on diffuse reverberation and across zone direct path components. Simulations validate the optimality of the algorithm and show a clear benefit in multizone processing, as opposed to the iterated application of a single-zone algorithm. Also, comparisons with least-squares crosstalk cancellers in literature show the profit of using a hybrid model.