Patent ID: 8195246
Filing Date: 2012-06-05
Classification: G10L,H04R

Abstract:
1. A method of de-noising a noisy sound signal picked up by two microphones of a multi-microphone audio device operating in noisy surroundings, in particular a “hands-free” telephone device for a motor vehicle, the noisy sound signal comprising a useful speech component coming from a directional speech source and an unwanted noise component, the noise component itself including a non-steady lateral noise component that is directional, comprising, in the frequency domain for a plurality of frequency bands defined for successive time frames of the signal, the following signal processing steps: a) calculating a first noise reference by analyzing spatial coherence of signals picked up by the two microphones, this calculation comprising predictive linear filtering applied to the signals picked up by the two microphones and comprising subtraction with compensation for the phase shift between the picked-up signal and the signal output by the predictive filter; b) calculating a second noise reference by analyzing the directions of incidence of the signals picked up by the two microphones, this calculation comprising spatial blocking of the components of picked-up signals for which the direction of incidence lies within a defined reference cone on either side of a predetermined direction of incidence of the useful signal; c) estimating a main direction of incidence of the signals picked up by the two microphones; d) selecting as the referent noise signal one or the other of the noise references calculated in steps a) to b), as a function of the main direction estimated in step c); e) combining the signals picked up by the two microphones to make a noisy combined signal; f) calculating a probability that speech is absent from the noisy combined signal on the basis of respective spectral energy levels of the noisy combined signal and of the referent noise signal; and g) on the basis of the probability that speech is absent as calculated in step f) and on the basis of the noisy combined signal, selectively reducing noise by applying variable gain that is specific to each frequency band and to each time frame.