Method, device, and system for suppressing feedback in hearing aid devices with adaptive split-band frequency

The invention claimed is: 1. A method for suppressing acoustic feedback in a hearing aid device, wherein the hearing aid device has an acoustoelectric input transducer, a signal processing device, and an electroacoustic output transducer, the method comprising: dividing an acoustic frequency range transmitted by the hearing aid device into a first frequency range above a first split-band frequency and a second frequency range below the first split-band frequency; estimating a first transfer function mapping a real transfer function of a feedback loop via the electroacoustic output transducer, an acoustic feedback path, the acoustoelectric input transducer and the signal processing device in the first frequency range; assessing the first transfer function to determine whether to expect the real transfer function to exceed a limit value from a behavior of the first transfer function in an environment of the first split-band frequency; if the real transfer function is not expected to exceed the limit value in the environment of the first split-band frequency, increasing the first split-band frequency to a second split-band frequency, so that all values of a gain of the first transfer function for frequencies less than the increased second split-band frequency are less than the predetermined limit value; or if the real transfer function is expected to exceed the limit value in the environment of the first split-band frequency, reducing the first split-band frequency to a second split-band frequency; and applying a phase or frequency change for feedback suppression in the signal processing only above an inception frequency in dependence on the second split-band frequency. 2. The method according to claim 1 , wherein the assessing step comprises determining to expect the real transfer function to exceed the limit value if the first transfer function rises toward the first split-band frequency. 3. The method according to claim 1 , wherein the assessing step further comprises determining a second transfer function of the closed feedback loop in a third frequency range below the first split-band frequency in dependence on the first transfer function of the closed feedback loop and assessing whether the second transfer function exceeds the predetermined limit value in the third frequency range. 4. The method according to claim 1 , wherein the reducing step comprises setting the second split-band frequency equal to the first split-band frequency minus a predetermined frequency spacing. 5. The method according to claim 1 , wherein the predetermined limit value of a gain of the first or second transfer function is 0 dB minus a stability margin. 6. The method according to claim 1 , which comprises, following the step of increasing the first split-band frequency or the step of reducing the split-band frequency, continuing with the step of estimating the first transfer function of the feedback loop. 7. The method according to claim 1 , wherein the first split-band frequency is greater than 1 kHz and the second split-band frequency is greater than 700 Hz. 8. A device for suppressing acoustic feedback in a hearing aid device, the hearing aid device having an acoustoelectric input transducer, a signal processing device, and an electroacoustic output transducer, the device for suppressing acoustic feedback comprising: a signal connection to the hearing aid device; a processing device configured to: divide an acoustic frequency range to be transmitted by the hearing aid device into a first frequency range above a first split-band frequency and a second frequency range below the first split-band frequency; estimate a first transfer function as mapping of a real transfer function of a feedback loop via the electroacoustic output transducer, an acoustic feedback path, the acoustoelectric input transducer, and the signal processing device in the first frequency range; assess the first transfer function to determine whether to expect the real transfer function to exceed a limit value from a behavior of the first transfer function in an environment of the first split-band frequency; if the real transfer function is not expected to exceed the limit value in the environment of the first split-band frequency, increase the first split-band frequency to a second split-band frequency by such an amount that all the values of a gain of the first transfer function for frequencies less than the second split-band frequency are less than the predetermined limit value; or if the real transfer function is expected to exceed the limit value in the environment of the first split-band frequency, reduce the first split-band frequency to a second split-band frequency; and adjust in the hearing aid device a phase or frequency change for feedback suppression in the signal processing device only above an inception frequency in dependence on the second split-band frequency. 9. The device according to claim 8 , wherein said processing device is configured, for assessment, to check the first transfer function to see whether the first transfer function rises toward the split-band frequency and, if so, to expect the real transfer function to exceed the predetermined limit value. 10. The device according to claim 8 , wherein, for assessing the first transfer function, said processing device is configured to determine a second transfer function of the closed feedback loop in a third frequency range below the first split-band frequency in dependence on the first transfer function of the feedback loop and to assess whether the second transfer function exceeds the predetermined limit value in the third frequency range. 11. The device according to claim 8 , wherein the processing device is configured to determine the second split-band frequency from the first split-band frequency minus a predetermined frequency spacing. 12. The device according to claim 8 , wherein the predetermined limit value of a gain of the first or second transfer function is 0 dB minus a stability margin. 13. The device according to claim 8 , wherein the processing device is configured to estimate a changed first transfer function to a changed split-band frequency and to determine a changed second transfer function to the changed split-band frequency. 14. The device according to claim 8 , wherein the first split-band frequency is greater than 1 kHz and the second split-band frequency is greater than 700 Hz. 15. A hearing aid device with acoustic feedback suppression, comprising: an acoustoelectric input transducer, a signal processing device connected to said input transducer, and an electroacoustic output transducer connected to said signal processing device; a device for suppressing acoustic feedback connected, by way of a signal connection, to said signal processing device, and being configured to carry the following method steps: dividing an acoustic frequency range transmitted by the hearing aid device into a first frequency range above a first split-band frequency and a second frequency range below the first split-band frequency; estimating a first transfer function mapping a real transfer function of a feedback loop via the electroacoustic output transducer, an acoustic feedback path, the acoustoelectric input transducer and the signal processing device in the first frequency range; assessing the first transfer function to determine whether to expect the real transfer function to exceed a limit value from a behavior of the first transfer function in an environment of the first split-band frequency; if the real transfer function is not expected to exceed the limit value in the environment of the first spl