Method for adapting a hearing instrument and hearing system therefor

The invention claimed is: 1. A method for fitting a hearing instrument wherein an audio signal of an ambient sound, recorded by way of an input transducer, is modified in accordance with a multiplicity of signal processing parameters, the method comprising: causing a first classifier to offer a user of the hearing instrument a plurality of problem descriptions for selection; and determining with a second classifier a proposed solution for modified values of the signal processing parameters based on a selection by the user of one of the problem descriptions offered for the selection. 2. The method according to claim 1 , which comprises preselecting with the first classifier the offered problem descriptions and/or a sequential order of the offered problem descriptions based on one or both of environment data that characterizes an acoustic environment of the hearing instrument and/or based on user data that characterizes the user. 3. The method according to claim 2 , which comprises determining the proposed solution with the second classifier based on one or both of environment data that characterizes an acoustic environment of the hearing instrument or user data that characterizes the user. 4. The method according to claim 3 , wherein the environment data used by the first classifier and/or by the second classifier are selected from the group consisting of: an average level of the recorded audio signal; an average signal-to-noise ratio of the recorded audio signal; a noise class associated with the audio signal; and data on wind activity. 5. The method according to claim 3 , wherein the user data used by the first classifier and/or by the second classifier are selected from the group consisting of: data that characterizes a hearing ability of the user; data that characterizes an acoustic coupling of the hearing instrument with the user; data concerning a type of the hearing instrument; an age of the user; a gender of the user; a degree of activity of the user; a location of the user; the user's language; and a measure of the user's need for advice. 6. The method according to claim 1 , which comprises, with the first classifier: detecting selection frequencies representing how often the user selects the offered problem descriptions; and pre-selecting the offered problem descriptions and/or the sequence thereof, based on the detected selection frequencies. 7. The method according to claim 1 , which comprises: setting the modified values of the signal processing parameters that correspond to the proposed solution in the hearing instrument; asking the user to evaluate the proposed solution; and depending on a result of an evaluation of the proposed solution, selectively retaining or discarding the modified values of the signal processing parameters in the hearing instrument. 8. The method according to claim 7 , which comprises: determining an alternative proposed solution for modified values of the signal processing parameters using the second classifier; and in the event of a negative evaluation of a previous proposed solution, setting the modified values of the signal processing parameters corresponding to the alternative proposed solution in the hearing instrument. 9. The method according to claim 7 , which comprises determining with the second classifier the proposed solution for modified values of the signal processing parameters based on the selection by the user and, in addition, based on previous evaluations. 10. The method according to claim 1 , which comprises feeding the user's selection of one of the offered problem descriptions and the proposed solution and, if appropriate, an associated evaluation as a data set to a knowledge base which contains corresponding data sets of a multiplicity of users, and obtaining the presets of the first classifier and/or second classifier based on the data sets contained in the knowledge base. 11. A hearing system, comprising: a hearing instrument having an input transducer for receiving an audio signal of an ambient sound and a signal processing unit for modifying the audio signal in accordance with a multiplicity of signal processing parameters; and a fitting unit for fitting the hearing instrument, said fitting unit including a first classifier and a second classifier, and wherein: said first classifier is configured to offer a user of the hearing instrument a plurality of problem descriptions for selection; and said second classifier is configured to determine a proposed solution for modified values of the signal processing parameters based on a selection made by the user of one of the problem descriptions offered. 12. The hearing system according to claim 11 , wherein said first classifier is configured to preselect the offered problem descriptions and/or a sequence thereof based on one or both of environment data that characterizes the acoustic environment of the hearing instrument or user data that characterizes the user. 13. The hearing system according to claim 12 , wherein said second classifier is configured to determine the proposed solution additionally based on at least one of environment data that characterizes the acoustic environment of the hearing instrument or user data that characterizes the user. 14. The hearing system according to claim 13 , wherein said first classifier and/or said second classifier are configured to utilize user data selected from the group consisting of: data that characterizes a hearing ability of the user; data that characterizes an acoustic linkage of the hearing instrument with the user; data concerning a type of the hearing instrument; an age of the user; a gender of the user; a degree of activity of the user; a location of the user; the user's language; and a measure of the user's need for advice. 15. The hearing system according to claim 13 , wherein said first classifier and/or said second classifier are configured to utilize environment data selected from the group consisting of: an average level of the recorded audio signal; an average signal-to-noise ratio of a recorded audio signal; a noise class associated with the audio signal; and data on wind activity. 16. The hearing system according to claim 11 , wherein said first classifier is configured to detect selection frequencies with which the user selects the offered problem descriptions, and to pre-select the offered problem descriptions and/or a sequence thereof based additionally on the detected selection frequencies. 17. The hearing system according to claim 11 , wherein said fitting unit comprises an evaluation module configured to: set the modified values of the signal processing parameters in said hearing instrument that correspond to the proposed solution; request the user to evaluate the proposed solution; and depending on a result of the evaluation, retain or discard the modified values of the signal processing parameters in the hearing instrument that correspond to the proposed solution. 18. The hearing system according to claim 17 , wherein: said second classifier is configured to determine an alternative proposed solution for modified values of the signal processing parameters; and said evaluation module is configured, on occasion of a negative evaluation of a previous proposed solution, to set the modified values of the signal processing parameters in the hearing instrument that correspond to the alternative proposed solution. 19. The hearing system according to claim 17 , wherein said second classifier is config