Partner microphone unit and a hearing system comprising a partner microphone unit

The invention claimed is: 1. A partner microphone unit configured to pick up target sound from a target sound source, the target sound s comprising a voice of a person, the partner microphone unit comprising: a multitude of input units IU i , i=1, 2, . . . , M, M being larger than or equal to two, each input unit comprising a microphone for picking up a sound from the environment of the partner microphone unit and configured to provide corresponding electric input signals, each electric input signal comprising a target signal component and a noise signal component; a multi-input unit noise reduction system for providing an estimate Ŝ of the target sound s comprising the person's voice, the multi-input unit noise reduction system comprising a multi-input beamformer filtering unit operationally coupled to said multitude of input units IU i , i=1, . . . , M, and configured to determine filter weights for providing a beamformed signal, wherein signal components from other directions than a direction of the target signal source are attenuated, whereas signal components from the direction of the target signal source are left un-attenuated or are attenuated less relative to signal components from said other directions, wherein the multi-input unit noise reduction system is configured to adaptively estimate a current look vector d(k,m) of the beamformer filtering unit for a target signal originating from a target signal source located at a specific location relative to the person wearing the partner microphone unit, wherein the specific location relative to the person is the location of the person's mouth; and antenna and transceiver circuitry for establishing an audio link to another device, wherein the multi-input beamformer filtering unit comprises an adaptive beamformer. 2. A partner microphone unit according to claim 1 wherein the multi-input beamformer filtering unit comprises an MVDR beamformer. 3. A partner microphone unit according to claim 1 comprising a voice activity detector for estimating whether or not or with which probability a voice of the person is present in the current sound from the environment and providing a voice activity control signal indicative thereof, or is configured to receive such voice activity control signal from another device. 4. A partner microphone unit according to claim 3 wherein at least two of the input units comprise a level detector for detecting an input level of the sound picked up by the microphones of the input units in question, and wherein the voice activity detector is configured to base the voice activity control signal on the difference between the input levels of the respective electric input signals of the microphones. 5. A partner microphone unit according to claim 1 adapted to be worn by a person. 6. A partner microphone unit according to claim 1 wherein the multi-input unit noise reduction system is configured to estimate a noise power spectral density of disturbing background noise when the voice of the person is not present, or is present with probability below a predefined level, or to receive such estimate from another device. 7. A partner microphone unit according to claim 1 comprising a memory comprising a predefined reference look vector defining a reference spatial direction from the partner microphone unit to the target sound source. 8. A partner microphone unit according to claim 1 wherein the multi-input unit noise reduction system is configured to update a look vector when the target sound is present or present with a probability larger than a predefined value. 9. A partner microphone unit according to claim 8 configured to limit said update of the look vector by comparing currently determined beamformer weights corresponding to a current look vector with default weights corresponding to the reference look vector, and to constrain or neglect the currently determined beamformer weights if these differ from the default weights more than a predefined absolute ort relative amount. 10. A partner microphone unit according to claim 1 comprising a memory comprising predefined reference inter-microphone noise covariance matrices of the partner microphone unit. 11. A partner microphone unit according to claim 10 configured to control the update of the noise power spectral density of disturbing background noise by comparing currently determined inter-microphone noise covariance matrices with the reference inter-microphone noise covariance matrices, and to constrain or neglect the update of the noise power spectral density of disturbing background noise if the currently determined inter-microphone noise covariance matrices differ from the reference inter-microphone noise covariance matrices by more than a predefined absolute or relative amount. 12. A partner microphone unit according to claim 1 comprising an attachment element for attaching said microphone unit to the user. 13. A partner microphone unit according to claim 1 configured to transmit the estimate Ŝ of the target sound s comprising the person's voice to the other device, e.g. a hearing device. 14. A hearing system comprising a partner microphone unit according to claim 1 and a hearing device, e.g. a hearing aid, wherein the hearing device comprises antenna and transceiver circuitry for establishing a communication link to and receiving an audio signal comprising an estimate of the target sound s comprising a voice of the person from said partner microphone unit. 15. A hearing system according to claim 14 wherein the hearing device comprises an input transducer for picking up sound from the environment of the hearing device and providing an electric hearing device input signal, a signal processing unit for applying one or more processing algorithms to the electric hearing device input signal, or a signal originating therefrom, and providing a processed hearing device signal, and an output unit for providing stimuli perceived by a user as sound based on the processed hearing device signal or a signal originating therefrom, and an analysis unit configured to analyse the audio signal received from the partner microphone unit, and to generate one or more control signals for controlling said one or more processing algorithms. 16. A hearing system according to claim 14 wherein a forward path is defined in the hearing device from an input transducer to an output unit and wherein the forward path comprises a selection or mixing unit allowing the audio signal received from the partner microphone unit to be combined with a signal of the forward path or to be switched into the forward path instead of a signal picked up by the input transducer. 17. A hearing system according to claim 14 wherein the hearing device comprises a delay unit configured to delay the audio signal received from the partner microphone unit with a predefined or dynamically determined delay time. 18. A hearing system according to claim 14 wherein the hearing device comprises a control unit for receiving said estimate Ŝ of the target sound s comprising the person's voice from the partner microphone and configured to dynamically control transient reduction or maximum gain of the electric hearing device input signal or a signal originating therefrom. 19. A hearing system according to claim 14 comprising a multitude of partner microphone units. 20. Use of a partner microphone unit as claimed in claim 1 in a hearing aid system to pick up and reduce noise in a voice of a speaker or communication partner and to transmit the noise reduced signal to a he