Method for operating a hearing device and a hearing device

What is claimed is: 1 . A method for operating a hearing device comprising an ambient microphone ( 1 ), a signal processing unit ( 2 ), a receiver ( 3 ) and an ear canal microphone ( 4 ), the method comprising the steps of: picking up an ambient sound at an input of the ambient microphone ( 1 ) which provides a first audio signal at an output of the at least one ambient microphone ( 1 ) representing the ambient sound; processing the first audio signal in the signal processing unit ( 2 ) which provides a processed audio signal; applying the processed audio signal to an input of the receiver ( 3 ) which outputs at an output of the receiver ( 3 ) sound into an ear canal of a user of the hearing device; picking up an ear canal internal sound at an input of the ear canal microphone ( 4 ) which provides a second audio signal at an output of the ear canal microphone ( 4 ) representing the ear canal internal sound; characterised by filtering the processed audio signal with a first filter ( 7 ) having a transfer function at least comprising a transfer function from the output of the receiver ( 3 ) to the input of the ear canal microphone ( 4 ) when the hearing device is turned on and being worn in an ear canal of the user, the first filter ( 7 ) providing a filtered second audio signal; computing a difference between the second audio signal and the filtered processed audio signal resulting in a third audio signal; and detecting a presence of own-voice of the user based on the third audio signal. 2 . The method of claim 1 , wherein the step of detecting is further based on the first audio signal. 3 . The method of claim 2 , further comprising the step of filtering the first audio signal with a second filter ( 10 ) having a transfer function representative of a real-ear occluded gain transfer function, specifically a transfer function from the output of the ambient microphone ( 1 ) to the output of the ear canal microphone ( 4 ) when the hearing device is turned off and being worn by the user in the ear canal, the second filter ( 10 ) providing a filtered first audio signal. 4 . The method of claim 3 , wherein filtering the first audio signal is carried out in the log/dB domain, for instance by means of a subtraction. 5 . The method of claim 3 , wherein the second filter ( 10 ) is adapted online during operation of the hearing device, for instance by means of a least mean squares algorithm. 6 . The method of claim 3 , wherein the transfer function of the second filter ( 10 ) is determined based on a first measurement of the real-ear occluded gain transfer function, the first measurement for instance made when the hearing device is fitted to the needs of the user. 7 . The method of claim 6 , wherein the transfer function of the second filter ( 10 ) is determined based on at least one further measurement of the real-ear occluded gain transfer function, the at least one further measurement for instance made when the hearing device and/or the jaw of the user is positioned differently compared to that when the first measurement was made. 8 . The method of claim 1 , wherein the first filter ( 7 ) is adapted online during operation of the hearing device, for instance by means of a further least mean squares algorithm. 9 . The method of claim 1 , wherein the transfer function of the first filter ( 7 ) is determined based on an initial measurement of the transfer function from the output of the receiver ( 3 ) to the input of the ear canal microphone ( 4 ) when the hearing device is turned on and being worn in the ear canal of the user, the initial measurement for instance made when the hearing device is fitted to the needs of the user. 10 . The method of claim 9 , wherein the transfer function of the first filter ( 7 ) is determined based on at least one additional measurement of the transfer function from the output of the receiver ( 3 ) to the input of the ear canal microphone ( 4 ) when the hearing device is turned on and being worn in the ear canal of the user, the at least one additional measurement for instance made when the hearing device and/or the jaw of the user is positioned differently compared to that when the initial measurement was made. 11 . The method of claim 1 , wherein the step of detecting comprises determining a first power estimate of the third audio signal. 12 . The method of claim 1 , wherein the step of detecting comprises determining a second power estimate of the first audio signal or of the filtered first audio signal. 13 . The method of claim 11 , wherein determining the first and/or the second power estimate comprises at least one of squaring, determining an absolute value, conversion into decibels, and low-pass filtering. 14 . The method of claim 12 , wherein the step of detecting the presence of own-voice comprises one of: comparing the first power estimate with the second power estimate; computing a difference between the first power estimate and the second power estimate. 15 . The method of claim 1 , wherein the step of detecting the presence of own-voice is dependent on a “discriminator function”, such as for instance a step function, a ramp function, a sigmoid function, or a hysteresis function. 16 . The method of claim 1 , wherein the hearing device further comprises at least one of an active occlusion control unit ( 6 ), a classifier, a gain model, a noise canceller, a beamformer, a reverberation canceller, and a wind noise canceller, and wherein the method further comprises the step of controlling at least one of the active occlusion control unit ( 6 ), the classifier, the gain model, the noise canceller, the beamformer, the reverberation canceller, and the wind noise canceller dependent on the presence of own-voice. 17 . The method of claim 16 , wherein controlling the active occlusion control unit ( 6 ) comprises turning off the active occlusion control unit ( 6 ) when the presence of own-voice is not detected. 18 . A hearing device comprising: an ambient microphone ( 1 ) directed away from an ear canal of a person wearing the hearing device, a signal processing unit ( 2 ), a receiver ( 3 ), an ear canal microphone ( 4 ) directed toward the ear canal of the person wearing the hearing device, and an own-voice detection unit ( 5 ) characterised in comprising: a first filter ( 7 ) having a transfer function at least comprising a transfer function from an output of the receiver ( 3 ) to an input of the ear canal microphone ( 4 ) when the hearing device is turned on and being worn in an ear canal of the user, a subtractor ( 8 ), and detector ( 9 ), wherein an output of the ambient microphone ( 1 ) is connected to an input of the signal processing unit ( 2 ), an output of the signal processing unit ( 2 ) is connected to an input of the receiver ( 3 ) as well as to an input of the first filter ( 7 ), an output of the first filter ( 7 ) and an output of the ear canal microphone ( 4 ) are connected to inputs of the subtractor ( 8 ), which is adapted to provide at an output of the subtractor ( 8 ) a difference between an output signal of the ear canal microphone ( 4 ) and an output signal of the first filter ( 7 ), the output of the subtractor ( 8 ) being connected to an input of the detector ( 9 ), the detector ( 9 ) being adapted to detect a presence of own-voice of the user based on a signal provided at the input of the detector ( 9 ). 19 . The hearing device of claim 18 , wherein the output of the ambient microphone ( 1 ) is further connected to a further input of