Binaural hearing system

The invention claimed is: 1. A binaural hearing system comprising left and right hearing devices adapted for being located at or in left and right ears of a user, or adapted for being fully or partially implanted in the head of the user, each of the left and right hearing devices comprising an input unit for providing an electric input signal representing a sound in the environment of the hearing device; a noise reduction system for estimating and reducing a noise component of the electric input signal; antenna and transceiver circuitry allowing an interaural wireless communication link between the left and right hearing devices to be established to allow exchange of data between them, wherein the binaural hearing system is configured to, in a specific near-field mode of operation that is manually or automatically activated in a situation where a near-field sound source is present at a first one of the left and right hearing devices, transmit the estimate of the noise component, or a measure thereof, determined in a second one of the hearing devices of the binaural hearing system to the first hearing device, and use said transmitted estimate to reduce the noise component in the electric signal of the first hearing device and to provide a noise reduced signal in the first hearing device. 2. A binaural hearing system according to claim 1 wherein each of the left and right hearing devices—at least when in said specific near-field mode of operation—is configured to generate or provide a noise-reduced signal based fully or partially on one or both of the respective noise estimates from the left and right hearing devices. 3. A binaural hearing system according to claim 1 wherein at least one of the left and right hearing devices comprises an output unit for presenting a processed signal as stimuli perceived by the user as sound. 4. A binaural hearing system according to claim 1 configured to allow the user to control a mode of operation of the binaural hearing system via a user interface. 5. A binaural hearing system according to claim 4 comprising an auxiliary device configured to fully or partially implement the user interface. 6. A binaural hearing system according to claim 1 configured to provide that the specific near-field mode of operation of the binaural hearing system is automatically entered based on inputs from one or more detectors. 7. A binaural hearing system according to claim 1 configured to—when in said specific near-field mode of operation—limit the noise estimate that is determined in the second hearing device and used in the first hearing device to frequencies below a low-frequency threshold f LF,th . 8. A binaural hearing system according to claim 1 wherein the first hearing device—when in said specific near-field mode of operation—is configured to combine the received noise estimate from the second hearing device with the noise estimate of its own noise reduction system. 9. A binaural hearing system according to claim 3 configured to present the noise-reduced signal or a signal derived therefrom in each of the left and right hearing devices via the respective output units. 10. A binaural hearing system according to claim 3 configured to provide that the electric input signal of the first hearing device—when in said specific near-field mode of operation—comprising a mixture of the near-field signal and a background noise is transmitted to the second hearing device. 11. A binaural hearing system according to claim 1 wherein each of the hearing devices comprises a multitude of input transducers, each input transducer providing an electric input signal, and the binaural hearing system being configured to exchange one or more of said electric input signals representing a sound in the environment of the respective hearing devices, or signals derived therefrom, between the left and right hearing devices. 12. A binaural hearing system according to claim 1 wherein each the left and right hearing devices comprises a hearing aid, a headset, an earphone, an ear protection device or a combination thereof. 13. A binaural hearing system according to claim 1 comprising an acoustic environment detector configured to detect whether or not a sound source is a near-field sound source relative to one of the left and right hearing devices. 14. A binaural hearing system according to claim 1 wherein the noise reduction systems of the respective hearing devices are configured to provide the estimate of the noise component as a magnitude response of the noise signal measured in different frequency channels. 15. A method for using a binaural hearing system as claimed in claim 1 with a telephone in order to improve the intelligibility of speech received via said telephone. 16. A method of operating a binaural hearing system comprising left and right hearing devices adapted for being located at or in left and right ears of a user, or adapted for being fully or partially implanted in the head of the user, the method comprising providing an electric input signal representing a sound in the environment of the hearing device; estimating and reducing a noise component of the electric input signal; providing an interaural wireless communication link between the left and right hearing devices to be established to allow exchange of data between them; and when in a specific near-field mode of operation that is manually or automatically activated in a situation where a near-field sound source is present at a first one of the left and right hearing devices, transmitting the estimate of the noise component, or a measure thereof, determined in a second one of the hearing devices of the binaural hearing system to the first hearing device; and using said transmitted estimate to reduce the noise component in the electric signal of the first hearing device; and providing a noise reduced signal in the first hearing device. 17. A method according to claim 16 comprising using the estimate of the noise component, or a measure thereof, from the second hearing device to improve the signal to noise ratio in the first side hearing device that is exposed to the near field sound source. 18. A data processing system comprising a processor and program code stored on a non-transitory computer readable medium which, when executed, causes the processor to perform the steps of the method of claim 16 .