Hearing device comprising a feedback control system

The invention claimed is: 1. A hearing aid adapted for being worn by a user at or in an ear of the user, the hearing aid comprising at least one input transducer for converting sound in an environment around the user to at least one electric input signal representing said sound; an output transducer for converting a processed output signal provided in dependence of said at least one electric input signal to stimuli perceivable to the user as sound; a feedback control system comprising an adaptive filer, the feedback control system being configured to provide an adaptively determined estimate ( h *(n)) of a current feedback path ( h (n)) from said output transducer to said at least one input transducer in dependence of said at least one electric input signal, said processed output signal, and an adaptive algorithm; and a database comprising a multitude (M) of previously determined candidate feedback paths ( h m ); and a controller configured to identify a change in the current feedback path ( h (n)) based on the adaptively determined estimate ( h *(n)) of the current feedback path and at least one of said multitude of previously determined candidate feedback paths ( h m ). 2. A hearing aid according to claim 1 wherein the controller is configured to—if a change in the current feedback path ( h (n)) has been identified—determine whether the adaptively determined estimate ( h *(n)) of the current feedback path converges towards at least one of said multitude of previously determined candidate feedback paths ( h m ). 3. A hearing aid according to claim 2 wherein said controller is configured to provide an updated estimate of said current feedback path ( h upd (n)) if said change in the current feedback path ( h (n)) has been identified and if said adaptively determined estimate ( h *(n)) of the current feedback path converges towards at least one of said multitude of previously determined candidate feedback paths ( h m ). 4. A hearing aid according to claim 3 wherein the controller is configured to provide said updated estimate of said current feedback path ( h upd (n)) in dependence of said adaptively determined estimate of said current feedback path ( h *(n)) and at least one of said multitude of previously determined candidate feedback paths ( h m ). 5. A hearing aid according to claim 3 wherein the controller is configured to provide said updated estimate of said current feedback path ( h upd (n)) as a linear combination of said adaptively determined estimate of a current feedback path ( h *(n)) and said at least one of said multitude of previously determined candidate feedback paths ( h m ). 6. A hearing aid according claim 5 wherein the feedback control system is configured to provide a current feedback corrected version of said at least one electric input signal, termed the current feedback corrected signal (e(n)), the controller is configured to provide a candidate current feedback corrected signal (e m (n)) for said at least one of said previously determined candidate feedback paths ( h m ), and weights of said linear combination are determined in dependence of a comparison of said candidate current feedback corrected signal (e m (n)) to the current feedback corrected signal (e(n)). 7. A hearing aid according to claim 6 configured to band-pass, low-pass, and/or high-pass filter said feedback corrected input signals (e(n), e m (n)) before said comparison of said candidate current feedback corrected signal (e m (n)) to the current feedback corrected signal (e(n)) is performed. 8. A hearing aid according to claim 5 wherein weights of said linear combination are determined in dependence a direct comparison of h *(n) and h m . 9. A hearing aid according to claim 3 wherein the feedback control system is configured to provide a current feedback corrected version of said at least one electric input signal, termed the current feedback corrected signal (e(n)), and the feedback control system, at least in a specific feedback control mode of operation, is configured to provide said current feedback corrected version (e(n)) of the at least one electric input signal in dependence of said updated estimate of said current feedback path ( h upd (n)). 10. A hearing aid according to claim 1 comprising an audio signal processor configured to apply one or more processing algorithms to said feedback corrected version of said at least one electric input signal, and to provide said processed signal in dependence thereof. 11. A hearing aid according to claim 1 wherein the feedback control system is configured to provide a current feedback corrected version of said at least one electric input signal, termed the current feedback corrected signal (e(n)). 12. A hearing aid according to claim 1 wherein the controller is configured to provide a candidate current feedback corrected signal (e m (n)) for said at least one of said previously determined candidate feedback paths ( h m ). 13. A hearing aid according to claim 1 wherein the controller is configured to control an adaptation rate of the adaptively determined estimate ( h *(n)). 14. A hearing aid according to claim 1 wherein one of the candidate feedback paths ( h m ) of the database is estimated to be the most likely feedback path during normal hearing aid operation. 15. A hearing aid according to claim 1 wherein said candidate feedback paths of the database comprise or are constituted by pre-determined feedback paths. 16. A hearing aid according to claim 1 configured to update said candidate feedback paths of the database during operation of the hearing aid. 17. A hearing aid according to claim 16 configured to provide that said candidate feedback paths of the database are automatically learned and updated over time. 18. A hearing aid according to claim 17 wherein the learning and update of the candidate feedback paths of the database is configured to follow the variations of the current feedback path h (n) and its previous values over time. 19. A hearing aid according to claim 1 wherein a length of an impulse response of a candidate feedback path of the database are different, e.g. longer or shorter, from a length of the adaptive filter of the hearing aid used for adaptively determining the estimate ( h *(n)) of the current feedback path. 20. A hearing aid according to claim 1 being constituted by or comprising an air-conduction type hearing aid, a bone-conduction type hearing aid, a cochlear implant type hearing aid, or a combination thereof.