Method of manufacturing hearing devices

The invention claimed is: 1. A method of adjusting a transfer function of a hearing device comprising an otoplastic individually shaped for a user intended to be using the hearing device to the needs of the user, said method comprising the steps of a) providing input data for each of a set of input parameters, an algorithm, and a set of target parameters, wherein at least a portion of said input data are individual to said user, and wherein said target parameters are parameters related to acoustical properties of the hearing device; b) determining target data for each of the set of target parameters by applying said algorithm to said input data; c) designing a suitable three-dimensional shape of said otoplastic in dependence of said target data by means of an otoplastic modelling software; d) manufacturing said otoplastic according to said suitable three-dimensional shape; and e) obtaining property data using said otoplastic, wherein said property data are descriptive of properties related to said manufactured otoplastic, and at least a portion of said property data is descriptive of properties related to said otoplastic inserted in an ear of said user, said property data being at least one of: a rest volume between an otoplastic and the ear drum of the user, a feedback threshold of the hearing device, an active insertion gain, a passive insertion gain, and an acoustic mass of a vent; and g) adjusting a transfer function of the hearing device dependent on the property data, wherein steps b)-e) are repeated at least once using the adjusted transfer function. 2. The method of claim 1 , wherein at least some of the input data relates to one of an audiogram of said user, geometry of the shape of said user's ear canal, a type of hearing device to be manufactured, a description of listening situations, said user's history, or said user's acoustic preferences; wherein at least some of the target parameters relate to one of acoustic impedance, acoustic mass, a vent type, a receiver to be used, a microphone to be used, insertion gain characteristics, or feedback threshold; and wherein at least some of the target data is one of a target active insertion gain, a target passive insertion gain, a target feedback threshold, a target acoustical vent mass, a target shape of said otoplastic, a target data of loudspeaker to be used, or a target data of a microphone or microphones to be used. 3. A method of manufacturing a hearing device comprising an otoplastic individually shaped for a user intended to be using the hearing device, said method comprising the steps of a) providing input data for each of a set of input parameters, an algorithm, and a set of target parameters, wherein at least a portion of said input data are individual to said user, and wherein said target parameters are parameters related to acoustical properties of the hearing device; b) determining target data for each of the set of target parameters by applying said algorithm to said input data; c) iteratively designing a three-dimensional shape of said otoplastic in dependence of said target data, wherein a final iteration of the three-dimensional shape fulfills a pre-determined criterion indicative of the three-dimensional shape achieving said target data; d) manufacturing said otoplastic according to the final iteration of the three-dimensional shape; e) obtaining property data using said otoplastic, wherein said property data are descriptive of properties related to said manufactured otoplastic, and at least a portion of said property data is descriptive of properties related to said otoplastic inserted in an ear of said user; and g) adjusting a transfer function of the hearing device dependent on the property data, wherein steps b)-e) are repeated at least once using the adjusted transfer function. 4. A method of manufacturing a hearing device comprising an otoplastic individually shaped for a user intended to be using the hearing device, said method comprising the steps of a) providing input data for each of a set of input parameters, an algorithm, and a set of target parameters, wherein at least a portion of said input data are individual to said user, and wherein said target parameters are parameters related to acoustical properties of the hearing device; b) determining target data for each of the set of target parameters by applying said algorithm to said input data; c) designing a suitable three-dimensional shape of said otoplastic in dependence of said target data by means of an otoplastic modelling software; d) manufacturing said otoplastic according to said suitable three-dimensional shape, wherein said designing of step c) comprises: k1) designing a preliminary three-dimensional shape of said otoplastic; k2) determining, for said preliminary three-dimensional shape, achieved data for said target parameters; k3) repeating steps k1) and k2) until a desired preliminary three-dimensional shape is identified, the desired preliminary three-dimensional shape fulfilling a pre-determined criterion indicative of an agreement between said achieved data and said target data; and k4) selecting the desired preliminary three-dimensional shape identified in step k3) as the suitable three-dimensional shape designed in step c) and manufactured in step d). 5. The method of claim 4 , further comprising the steps of: e) obtaining property data using said otoplastic, wherein said property data are descriptive of properties related to said manufactured otoplastic, and at least a portion of said property data is descriptive of properties related to said otoplastic inserted in an ear of said user, said property data being at least one of: a rest volume between an otoplastic and the ear drum of the user, a feedback threshold of the hearing device, an active insertion gain, a passive insertion gain, and an acoustic mass of a vent; and f) amending said algorithm in dependence of said property data, wherein said amending occurs between an iterative determination of target data and comprises at least one of: i) defining an amended set of input parameters, and ii) defining an amended set of target parameters,  wherein, as a result of amending said algorithm, a functional dependency of the target data on the input data is changed. 6. The method according to claim 5 , wherein said amending mentioned in step f) is carried out also in dependence of said target data. 7. The method according to claim 5 , wherein said amending mentioned in step f) is carried out also in dependence of said input data. 8. The method according to claim 5 , wherein said amending mentioned in step f) is carried out also in dependence of said achieved data. 9. The method according to claim 5 , wherein said amending mentioned in step f) comprises evaluating those data in dependence of which said amending of said algorithm is carried out. 10. The method according to claim 5 , comprising the step of storing in a common storage unit at least a portion of those data in dependence of which said amending of said algorithm is carried out. 11. The method according to claim 5 , wherein said amending mentioned in step f) is carried out also in dependence on said input data. 12. The method according to claim 4 , wherein step k2) is carried out by said otoplastic modelling software. 13. The method according to claim 12 , wherein said amending mentioned in step f) is carried out also in dependence on said achieved data. 14. The method according to claim 4 , wherein step c) comprises the step of designing a shape and size of an opening in said otoplastic, wherein said opening is one of: a ve