JP4114392B2 - Inspection center device, terminal device, hearing compensation method, hearing compensation method program recording medium, hearing compensation method program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a communication device that performs frequency compensation and dynamic range compression characteristics in accordance with individual hearing in a communication device such as a mobile phone, and that makes it possible to select a good call even for the elderly or hearing impaired, And the method.
[0002]
[Prior art]
A person with hearing impairment such as an elderly person or a hearing-impaired person can perform hearing compensation by using a hearing aid corresponding to the degree of hearing impairment. In general, a hearing aid user visits a specialized medical institution to measure and examine hearing ability, and based on the measurement and examination results, the hearing compensation characteristic is incorporated into the hearing aid. Matching the hearing compensation characteristics of the hearing aid to the hearing impairment of the user is called hearing aid fitting. When using a communication device such as a mobile phone, it is common to use it while performing hearing compensation using a hearing aid.
[0003]
[Problems to be solved by the invention]
The degree of hearing impairment may progress gradually in older people. In addition, the degree of disability may not be stable every day. In such a case, since the hearing aid fitting once performed is not suitable, the hearing compensation performance is deteriorated and it is necessary to redo the hearing aid fitting. Also, if the degree of disability is not stable every day, it is better to perform hearing aid fitting frequently, but it is difficult to go to a specialist frequently and difficult to realize. In addition, when using a communication device such as a mobile phone, the transmission characteristics from the speaker of the mobile phone to the microphone of the hearing aid may not be stable, and optimal hearing compensation may not be possible.
[0004]
The present invention provides a hearing compensation system, apparatus, and method that can solve such problems.
[0005]
[Means for Solving the Problems]
As means for solving the above problems, the hearing compensation system, apparatus and method thereof according to the present invention employ the following system, apparatus, method, recording medium and program.
[0006]
A test center device including a sound source unit for hearing test, a hearing test program unit, a hearing compensation characteristic calculation unit, an audio signal processing program unit, and a transmission / reception unit, communicates with a terminal device via a transmission path, According to the hearing test program, the sound source signal for hearing test is transmitted, the test result that the user listened to and responded to the sound source signal is received from the terminal device, the test result is stored, the audio test data is obtained, and the audio test data From the above, the hearing compensation characteristic calculation unit calculates the hearing compensation characteristic, incorporates the hearing compensation characteristic into the audio signal processing program, transmits it to the terminal device, and the terminal device performs the audio compensation using the received audio signal processing program. It is an inspection center apparatus characterized by being able to perform.
[0007]
A test center device comprising a sound source unit for hearing test, a hearing test program unit, a hearing compensation characteristic calculation unit, and a transmission / reception unit, communicates with a terminal device via a transmission line, and transmits the hearing to the terminal device according to the hearing test program Transmits the sound source signal for inspection, receives the test result that the user listened to and responded to the sound source signal from the terminal device, stores the test result, obtains the audio test data, and calculates the hearing compensation characteristic from the audio test data The hearing compensation characteristic is calculated in the unit, the hearing compensation parameter is transmitted to the terminal device, and the terminal device can perform hearing compensation by incorporating the received hearing compensation parameter into the audio signal processing program. It is the inspection center apparatus characterized by having performed.
[0008]
A hearing compensation terminal device that communicates with a test center device via a transmission line, comprising an audio signal processing unit, a transmission / reception unit, and an operation unit, and transmitted from the test center device according to a hearing test program The sound source signal is received, the voice signal is presented to the user, and the inspection result that the user listens to and responds to the sound source signal is received by the transmission / reception unit from the operation unit and transmitted to the inspection center device. The hearing compensation characteristic is calculated from the collected hearing test data, the hearing compensation characteristic is incorporated into the audio signal processing program, the audio signal processing program is transmitted to the terminal device, and the terminal device receives the audio signal processing program at the transmission / reception unit Then, the terminal device is characterized in that it is stored in an audio signal processing section and performs hearing compensation using the stored audio signal processing program.
[0009]
A terminal device for hearing compensation that communicates with a test center device via a transmission line, comprising a sound signal processing unit storing a sound signal processing program, a transmission / reception unit, and an operation unit, from the test center device to a hearing test program Therefore, the transmitted sound source signal for hearing test is received, the audio signal is presented to the user, and the test result that the user listened to and answered the sound source signal is received from the operation unit by the transmission / reception unit. The parameters for hearing compensation obtained by calculating the hearing compensation characteristics from the collected hearing test data in the test center device are transmitted from the test center device to the terminal device. The compensation parameters are received, and the received hearing compensation parameters are incorporated into the audio signal processing program to perform hearing compensation. A terminal device.
[0010]
An inspection center device having a hearing compensation characteristic storage unit for storing a plurality of hearing compensation characteristics, an audio signal processing program unit, and a transmission / reception unit, and communicates with a terminal device via a transmission line to select the hearing compensation characteristic. An inspection center apparatus characterized in that hearing compensation characteristics are incorporated into an audio signal processing program and transmitted to a terminal device so that the terminal device can perform audio compensation using the received audio signal processing program. is there.
[0011]
A test center device having a hearing compensation characteristic storage unit and a transmission / reception unit for storing a plurality of hearing compensation characteristics, communicating with a terminal device via a transmission line, selecting a hearing compensation characteristic, and a parameter for hearing compensation Is transmitted to the terminal device, and the terminal device is capable of performing the hearing compensation by incorporating the received hearing compensation parameter into the audio signal processing program.
[0012]
A terminal device for hearing compensation that communicates with a test center device via a transmission line, comprising a sound signal processing unit, a transmission / reception unit, and an operation unit, and the test center device incorporates a selected hearing compensation characteristic. The program is transmitted to the terminal device, and the terminal device receives the audio signal processing program in the transmission / reception unit, stores the program in the audio signal processing unit, and performs hearing compensation using the stored audio signal processing program. It is a terminal device.
[0013]
A terminal device for hearing compensation that communicates with a test center device via a transmission line, comprising a sound signal processing unit storing a sound signal processing program, a transmission / reception unit, and an operation unit. The test center device has a hearing compensation characteristic. Select and transmit the hearing compensation parameters to the terminal device. The terminal device receives the hearing compensation parameters in the transmitter / receiver, and incorporates the received hearing compensation parameters into the audio signal processing program to compensate for hearing compensation. It is a terminal device characterized by performing.
[0014]
In the terminal device, the audio signal processing program performs hearing compensation on the audio signal from the microphone.
[0015]
In the terminal device, the audio signal processing program performs hearing compensation on the reception signal of the mobile phone.
[0016]
The hearing test program unit is an inspection center device that stores at least one test program among a minimum audible threshold test, a dynamic range test, a speech tracking speed test, and a noise masking test.
[0017]
The hearing test program is a terminal device that is at least one test program among a minimum audible threshold test, a dynamic range test, a speech tracking speed test, and a noise masking test.
[0018]
At least one of the test center and the terminal device stores the hearing test data or the hearing compensation characteristic calculated from the currently used hearing compensation characteristic data, and if there is a test error compared with the current hearing test data or the hearing compensation characteristic. If it is determined, the test center apparatus is characterized by using a hearing test program in which the hearing test is performed again.
[0019]
Hearing improvement test is performed in a state where hearing compensation is performed using the audio signal processing program received by the terminal device. Hearing test data before hearing compensation or hearing compensation characteristics and hearing test data or hearing ability by the improvement test The test center apparatus is characterized by using a hearing test program in which a hearing test is performed again when it is determined that there is a test error by comparing with the compensation characteristic.
[0020]
In a state where the terminal device performs the hearing test using the audio signal processing program received, and the terminal device performs the audio compensation using the old audio signal processing program used so far, When hearing test is performed and hearing compensation is performed using the old audio signal processing program, compared with the case where the audio signal processing program received this time is used. An inspection center apparatus characterized by using a hearing test program for performing a test again.
[0021]
An inspection center apparatus characterized by executing a hearing test program a plurality of times.
[0022]
At least one of the test center and the terminal device stores the hearing test data or the hearing compensation characteristic calculated from the currently used hearing compensation characteristic data, and the test error is compared with the current hearing test data or the hearing compensation characteristic. If it is determined that there is a terminal device, the terminal device is characterized in that the hearing test is performed according to the hearing test program in which the hearing test is performed again.
[0023]
Hearing improvement test is performed in a state where hearing compensation is performed using the audio signal processing program received by the terminal device. Hearing test data before hearing compensation or hearing compensation characteristics and hearing test data or hearing ability by the improvement test The terminal device is characterized in that when the comparison is made with the compensation characteristic and it is determined that there is a test error, the hearing test is performed in accordance with the hearing test program in which the hearing test is performed again.
[0024]
In a state where the terminal device performs the hearing test using the audio signal processing program received, and the terminal device performs the audio compensation using the old audio signal processing program used so far, When a hearing test is performed and hearing compensation is performed using the old speech signal processing program, and when the hearing compensation is performed using the speech signal processing program received this time, and it is determined that there is a test error Is a terminal device that performs a hearing test in accordance with a hearing test program that performs a hearing test again.
[0025]
The terminal device is characterized in that a hearing test is performed in accordance with a hearing test program in which the hearing test is executed a plurality of times.
[0026]
A terminal device characterized by storing an old audio signal processing program currently in use, an audio signal processing program received this time, or an audio signal processing program incorporating a hearing compensation parameter received this time, and selecting and using the program It is.
[0027]
It consists of hearing test program procedure, sound source signal transmission process, test result reception storage, sound source signal switching process, compensation characteristic calculation process, signal processing program incorporation process, signal processing program transmission process. Via a sound source signal transmission process and a sound source signal switching process to transmit a sound source signal for hearing test to the terminal apparatus and receive a test result that the user listens to and answers to the sound source signal. The storage process receives and stores the test result from the terminal device to obtain the hearing test data, the compensation characteristic calculation process calculates the hearing compensation characteristic from the hearing test data, and the signal processing program incorporation process performs the hearing compensation characteristic. Is incorporated into the audio signal processing program, and the audio signal processing program is transmitted to the terminal device by the signal processing program transmission process. Device is a hearing compensation method characterized by using the audio signal processing program received was so performed hearing compensation.
[0028]
It consists of hearing test program procedure, sound source signal transmission process, test result reception storage, sound source signal switching process, compensation characteristic calculation process, compensation characteristic transmission process, and communicates with the terminal device via the transmission line according to the hearing test program procedure, The sound source signal for hearing test is transmitted to the terminal device by sound source signal transmission processing and sound source signal switching processing, and the test result that the user listened to and answered the sound source signal is received from the terminal device by test result reception storage processing. Receive and store the test results to obtain the hearing test data, calculate the compensation parameters from the hearing test data by the compensation characteristic calculation process, and transmit the hearing compensation parameters to the terminal device by the compensation characteristic transmission process The terminal device is capable of performing hearing compensation by incorporating the received hearing compensation parameter into an audio signal processing program. A compensation method.
[0029]
It consists of sound source signal reception presentation processing, listening result transmission processing, and signal processing program reception storage processing. By the sound source signal reception presentation processing, a sound source signal for hearing test transmitted from the test center device according to the hearing test program procedure is received. , By presenting the audio signal to the user and listening to the transmission result, the test result that the user listened to and responded to the sound source signal is transmitted to the test center device, and the hearing compensation characteristics from the hearing test data collected by the test center device A sound signal processing program incorporating the calculated hearing compensation characteristic is received and stored from the examination center device by a signal processing program receiving and storing process, and hearing compensation is performed using the stored sound signal processing program. This is a hearing compensation method.
[0030]
A sound source signal reception presentation process, a listening result transmission process, a compensation characteristic reception storage process, and a sound source signal reception presentation process to receive a sound source signal for hearing test transmitted from an examination center device according to a hearing test program procedure, Audio signal is presented to the user, and the hearing result transmission process sends the test result that the user listened to and responded to the sound source signal to the test center device, and calculated hearing compensation characteristics from the audio test data collected by the test center device Hearing compensation, wherein the hearing compensation parameter calculated by the step is received and stored from the examination center device by compensation characteristic reception storage processing, and the hearing compensation parameter is incorporated into the audio signal processing program and used to perform hearing compensation. This is a compensation method.
[0031]
Compensation characteristics selection processing, signal processing program incorporation processing, signal processing program transmission processing, audio compensation characteristics are selected by compensation characteristic selection processing, and audio compensation characteristics are converted into an audio signal processing program by signal processing program incorporation processing. Audio signal processing program characterized in that the audio signal processing program is transmitted to the terminal device by the signal processing program transmission process, and the terminal device can perform the audio compensation using the received audio signal processing program. Is the method.
[0032]
Compensation characteristic selection process and compensation characteristic transmission process. Compensation characteristic selection process selects hearing compensation parameters. Compensation characteristic transmission process transmits hearing compensation parameters to the terminal device. The hearing compensation method is characterized in that the hearing compensation parameters are incorporated into the audio signal processing program so that the hearing compensation can be performed.
[0033]
An audio signal processing program comprising a signal processing program receiving and storing process, and receiving and storing an audio signal processing program incorporating the hearing compensation characteristic selected in the inspection center apparatus from the inspection center apparatus by the signal processing program receiving and storing process. Is a hearing compensation method, characterized in that the hearing compensation is performed by using.
[0034]
Compensation characteristics reception storage processing, hearing compensation parameters selected in the test center device are received and stored from the inspection center device by compensation characteristics reception storage processing, and the hearing compensation parameters are incorporated into the audio signal processing program and used. The hearing compensation method is characterized by performing hearing compensation.
[0035]
The audio signal processing program is an audio compensation method characterized by performing audio compensation on an audio signal from a microphone.
[0036]
The audio signal processing program is a hearing compensation method characterized by performing hearing compensation on a received signal of a mobile phone.
[0037]
The hearing test program procedure is a hearing compensation method characterized in that it is at least one test program among a minimum audible threshold test, a dynamic range test, a speech tracking speed test, and a noise masking test.
[0038]
The hearing test program procedure is a hearing compensation method characterized in that it is at least one test program among a minimum audible threshold test, a dynamic range test, a speech tracking speed test, and a noise masking test.
[0039]
At least one of the test center and the terminal device stores the hearing test data or the hearing compensation characteristic calculated from the currently used hearing compensation characteristic data, and if there is a test error compared with the current hearing test data or the hearing compensation characteristic. If determined, the hearing compensation method is characterized by using a hearing test program in which the hearing test is performed again.
[0040]
Hearing improvement test is performed in a state where hearing compensation is performed using the audio signal processing program received by the terminal device. Hearing test data before hearing compensation or hearing compensation characteristics and hearing test data or hearing ability by the improvement test The hearing compensation method is characterized by using a hearing test program in which a hearing test is performed again when it is determined that there is a test error by comparing with the compensation characteristic.
[0041]
In a state where the terminal device performs the hearing test using the audio signal processing program received, and the terminal device performs the audio compensation using the old audio signal processing program used so far, When hearing test is performed and hearing compensation is performed using the old audio signal processing program, compared with the case where the audio signal processing program received this time is used. A hearing compensation method characterized by using a hearing test program in which a test is performed again.
[0042]
A hearing compensation method, wherein the hearing test program is executed a plurality of times.
[0043]
At least one of the test center and the terminal device stores the hearing test data or the hearing compensation characteristic calculated from the currently used hearing compensation characteristic data, and the test error is compared with the current hearing test data or the hearing compensation characteristic. If it is determined that there is, the hearing compensation method is characterized in that the hearing test is performed according to the hearing test program in which the hearing test is performed again.
[0044]
Hearing improvement test is performed in a state where hearing compensation is performed using the audio signal processing program received by the terminal device. Hearing test data before hearing compensation or hearing compensation characteristics and hearing test data or hearing ability by the improvement test The hearing compensation method is characterized in that the hearing test is performed according to the hearing test program in which the hearing test is performed again when it is determined that there is a test error by comparing with the compensation characteristic.
[0045]
In a state where the terminal device performs the hearing test using the audio signal processing program received, and the terminal device performs the audio compensation using the old audio signal processing program used so far, When a hearing test is performed and hearing compensation is performed using the old speech signal processing program, and when the hearing compensation is performed using the speech signal processing program received this time, and it is determined that there is a test error The hearing compensation method is characterized in that the hearing test is performed in accordance with a hearing test program in which the hearing test is performed again.
[0046]
The hearing compensation method is characterized in that the hearing test is performed in accordance with a hearing test program in which the hearing test is executed a plurality of times.
[0047]
Hearing compensation characterized by storing and selecting and using the old speech signal processing program currently used and the speech signal processing program received this time or the speech signal processing program incorporating the hearing compensation parameter received this time Is the method.
[0048]
A hearing compensation method program recording medium in which a program for causing a computer to function is recorded.
[0049]
The program of the hearing compensation method is a program for causing a computer to function.
[0050]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
FIG. 1 is a block diagram of the hearing compensation system and apparatus of the first embodiment. In FIG. 1, the test center 10 includes a control unit 1, an audio test sound source unit 2, an audio test program unit 3, an audio compensation characteristic calculation unit 4, an audio signal processing program unit 5, and a transmission / reception unit 6. The hearing aid 20 as a terminal device includes a microphone 11, an earphone 12, an audio signal processing unit 13, a transmission / reception unit 14, an operation unit 15, a display unit 16, SW1, SW2, and SW3. The examination center 10 and the hearing aid 20 can communicate with each other via a transmission line 30.
[0051]
In the examination center 10, the hearing test program unit 3 stores a hearing test procedure to be described later, and performs the hearing test while receiving instructions from the control unit 1. The sound source unit for hearing test 2 generates various sound source signals used for the hearing test, stores a sound source signal waveform, selects a predetermined sound source signal according to instructions from the hearing test program unit 3, and transmits and receives It is sent from the part 6 to the hearing aid 20. The hearing compensation characteristic calculation unit 4 calculates the hearing compensation characteristic suitable for the user 40 based on the hearing test data collected from the hearing aid 20 by the hearing test program unit 3. The sound signal processing program unit 5 incorporates the compensation characteristic calculated by the hearing compensation characteristic calculation unit 4 in the built-in audio signal processing program for hearing compensation, and sends it from the transmission / reception unit 6 to the transmission / reception unit 14 of the hearing aid 20.
[0052]
In normal use, the hearing aid 20 has SW1 connected to the microphone 11 side and SW2 and SW3 connected to the audio signal processing unit 13 side. The audio signal processing unit 13 compensates the hearing of the sound of the microphone 11, and the earphone. 12 to the user 40.
[0053]
When the user 40 of the hearing aid 20 operates the hearing aid 20 and applies for a hearing test via the transmission line 30, the testing center 10 performs a hearing test procedure. The transmission / reception unit 14 of the hearing aid 20 receives the description of the test procedure and displays it on the display unit 16, receives the test sound source signal and reproduces the sound source signal waveform, receives the signal processing program for hearing compensation, and the audio signal processing unit. 13 is stored, and the operation content of the operation unit 15 is transmitted.
[0054]
When the user 40 applies the hearing test by operating the operation unit 15, the transmission / reception unit 14 sends the hearing test request message including the identification code of the hearing aid 20 and the user 40 to the transmission / reception unit 6 via the transmission path 30. Send. The transmission / reception unit 6 of the inspection center 10 sends a hearing test request message to the control unit 1. Upon receiving the hearing test request message, the control unit 1 checks the identification code of the hearing aid 20 and the user 40 and confirms that the user is a user of this system. When the hearing test can be performed, the control unit 1 sends a hearing test acceptance message to the transmission / reception unit 14 via the transmission / reception unit 6 and the transmission path 30. The transmission / reception unit 14 switches SW1 to the transmission / reception unit 14 side and switches SW2 and SW3 to the bypass side of the audio signal processing unit 13. The transmission / reception unit 14 sends a preparation completion message to the transmission / reception unit 6. When the transmission / reception unit 6 sends a preparation completion message to the control unit 1, the control unit 1 instructs the hearing test program unit 3 to start the hearing test program.
[0055]
The hearing test program unit 3 sends a description of the test procedure to the transmission / reception unit 14 via the transmission / reception unit 6 and the transmission path 30.
[0056]
The transmission / reception unit 14 displays the received explanatory text on the display unit 16 and notifies the user 40 of the examination procedure.
[0057]
Next, the hearing test program unit 3 selects a sound source signal from the sound source unit for hearing test 2 in accordance with the test procedure, and the sound source unit for hearing test 2 transmits the instructed sound source signal to the transmission / reception unit 6 and the transmission path 30. To the transmitter / receiver 14.
[0058]
The transceiver 14 outputs the received sound source signal to the earphone 12 via SW1 and SW3. The user 40 listens to the sound source signal and operates the operation unit 15 when the user 40 hears the sound source signal. The operation unit 15 sends the confirmation result from the transmission / reception unit 14 to the transmission / reception unit 6 via the transmission path 30.
[0059]
The transmission / reception unit 6 sends the confirmation result to the hearing test program unit 3. The hearing test program unit 3 stores the confirmation result and proceeds to the next test procedure. The next sound source signal is instructed to the sound source unit 2 for hearing test. The sound source unit 2 for hearing test sends the instructed sound source signal to the transmission / reception unit 14 via the transmission / reception unit 6 and the transmission path 30.
[0060]
Such a procedure is repeated, the reaction of the user 40 to a series of sound source signals is examined, and the hearing test data is stored in the hearing test program unit 3. When the test procedure is completed, the hearing test program unit 3 sends the test result to the hearing compensation characteristic calculation unit 4 to notify the control unit 1 of the end of the test. The control unit 1 instructs the hearing compensation characteristic calculation unit 4 to calculate the hearing compensation characteristic. When the calculation is completed, the hearing compensation characteristic calculation unit 4 sends the calculation result to the audio signal processing program unit 5 to notify the control unit 1 of the end of the calculation. The control unit 1 instructs the audio signal processing program unit 5 to incorporate the calculation result into the audio signal processing program and to transmit it to the hearing aid 20. The audio signal processing program unit 5 incorporates the hearing compensation characteristic into the audio signal processing program based on an instruction from the control unit 1, and sends it to the transmission / reception unit 14 via the transmission / reception unit 6 and the transmission path 30.
[0061]
The transmission / reception unit 14 stores the received audio signal processing program in the audio signal processing unit 13, displays a test end message on the display unit 16, SW1 is on the microphone 11 side, and SW2 and SW3 are the audio signal processing unit 13. Switch to the side.
[0062]
With the above operation, the hearing aid 20 is updated to the hearing compensation characteristic corresponding to the current hearing ability of the user 40.
[0063]
There are several types of hearing impairments, such as an overall decrease in hearing sensitivity, a decrease in high and low frequencies, difficulty in hearing not only small sounds but also large sounds, a decrease in dynamic range, and a decrease in ability to follow speech speed. There is a phenomenon, and these may be combined. Hearing compensation performs compensation suitable for each of them, so that a plurality of types of hearing tests can be performed.
[0064]
The hearing test described above is preferably performed by the user 40 in a room with low noise. However, due to sudden noises from outside the room or incorrect answering operations, errors may be mixed in the hearing test data, and appropriate hearing compensation characteristics may not be obtained. A countermeasure against such a case will be described next.
[0065]
In the first measure, the previous hearing correction characteristic and the new hearing correction characteristic calculated this time are compared at the examination center, the validity is checked, and if not, the hearing examination is repeated.
[0066]
For this purpose, a diagnostic data storage unit is provided in the examination center 10, and history data such as the hearing compensation characteristics of the user 40 so far and the hearing compensation characteristics currently in use are stored as diagnostic records. The control unit 1 calls the hearing correction characteristic currently in use from the diagnostic data storage unit, and compares it with the new hearing compensation characteristic calculated this time. If the difference exceeds a predetermined range, it is determined that there is a test error, a message for performing a retest is transmitted to the hearing aid 20, and the hearing test described above is performed again.
[0067]
In the second measure, the improvement test is performed to check whether the expected improvement is obtained by using the new hearing compensation characteristic.
[0068]
For this purpose, the test center 10 transmits an improvement test start message after transmitting the test end message, and the hearing aid 20 switches SW2 and SW3 to the audio signal processing unit 13 side while keeping SW1 on the transmission / reception unit 14 side. Repeat the hearing test. For the various hearing tests described later, the first hearing test data and the confirmation test data are compared to determine the degree of improvement. In general, the confirmation test data approaches a normal hearing person. If the confirmation inspection data is deteriorated or the improvement degree is insufficient, re-inspection is performed by the same operation as in the case of the second countermeasure.
[0069]
In the third countermeasure, an improvement test is performed using the old hearing compensation characteristic that is currently in use, and an improvement degree based on the old hearing compensation characteristic with respect to the current degree of disability of the user 40 is checked. This test result data is compared with the improvement test data based on the new hearing compensation characteristics, and the improvement is obtained from the difference. If the test results are worse, the test is reexamined as an error. To do. For this purpose, the audio signal processing unit 13 stores an audio signal processing program based on the hearing compensation characteristic currently in use and an audio signal processing program based on the new hearing compensation characteristic. The processing program can be switched.
[0070]
In the fourth measure, the above-mentioned initial test and improvement test are performed twice or more, and when there is no significant difference in the test results, it is determined that the normal test has been performed, and the hearing compensation characteristic is calculated. And make a comparison decision.
[0071]
In the fifth countermeasure, the audio signal processing unit 13 stores both the audio signal processing program based on the currently used hearing compensation characteristic and the audio signal processing program based on the new hearing compensation characteristic. An audio signal processing program can be selected from the operation unit 15. The user 40 can use the audio signal processing program with the higher degree of improvement. For this purpose, twice as many storage areas for the audio signal processing program are prepared.
[0072]
(Embodiment 2)
FIG. 2 is a block diagram of the hearing compensation system and apparatus according to Embodiment 2 of the present invention, in which the present invention is applied to a mobile phone.
[0073]
In FIG. 2, the inspection center 10 has the same configuration as that in FIG. A mobile phone 50 that is a terminal device includes a microphone 11, a speaker 17, an audio signal processing unit 13, a transmission / reception unit 14, an operation unit 15, and a display unit 16.
[0074]
During normal use, SW1 and SW2 are on the audio signal processing unit 13 side. When making a call, the other party's telephone number is input from the operation unit 15, and the transmission / reception unit 14 sends the telephone number to the telephone station to connect the telephone line, and the voice signal input from the microphone 11 is transmitted from the transmission / reception unit 14 to the other party. The audio signal processing unit 13 performs hearing compensation on the audio signal received from the other party, and operates so as to be given to the user 40 from the speaker 17.
[0075]
When performing a hearing test, the user 40 operates the operation unit 15 to apply for a hearing test. SW1 and SW2 are switched to the side that bypasses the audio signal processing unit 13. The transmission / reception unit 14 transmits the hearing test request message to the transmission / reception unit 6 via the transmission path 30. Thereafter, the same procedure as in the case of the hearing aid 20 of FIG. 1 is executed, a hearing test is performed, and an audio signal processing program based on the test result is sent to the transmission / reception unit 14. The latest audio signal processing program is stored in the audio signal processing unit 13, and SW1 and SW2 are switched to the audio signal processing unit 13 side.
[0076]
With the above operation, the cellular phone device 50 can perform hearing compensation corresponding to the current hearing ability of the user 40.
[0077]
The first to fifth measures described in the first embodiment can be applied to sudden external noises and errors in hearing test data due to incorrect answering operations. In the improvement level inspection, SW1 and SW2 may be switched to the audio signal processing unit 13 side.
[0078]
Next, the hearing test will be described. Hearing ability is represented by an audiogram as shown in FIG. The vertical axis is the hearing level, in steps of 20 dB. The horizontal axis is frequency, which is double octave steps. The value of the hearing level for the sound source signal presented for each frequency is recorded on the audiogram.
[0079]
The pure tone hearing test is a test for obtaining a minimum audible threshold by presenting a sine wave signal as a sound source signal. "Basic pure tone hearing test method" established in 1986 by ISO and "Hearing test method (1990) 1. Pure tone hearing level measurement method using standard audiometer" established by the Japan Audiological Society It has been.
[0080]
An ascending method is generally used in which a sine wave signal having a predetermined frequency is presented from a weak level and gradually raised until a response “YES” is obtained. The level at which the response “YES” of hearing is obtained becomes the minimum audible threshold. If you get an audible response, lower the level and move to the next frequency. The frequencies are usually 125 Hz, 250 Hz, 500 Hz, 1 kHz, 2 kHz, 4 kHz, 8 kHz, and are presented in the order of 1 kHz, 2 kHz, 4 kHz, 8 kHz, and then in the order of 1 kHz, 500 Hz, 250 Hz, 125 Hz. Present. In this way, the minimum level that can be heard for each frequency is measured.
[0081]
If there is a response “YES” that you can hear at a certain sound level, repeat the presentation method to lower it by 10 dB and raise it by 5 dB if you can't hear it. May be taken.
[0082]
Instead of a sine wave, band noise or wobble tone may be used. Further, as a method for measuring the threshold value, a psychophysical measurement method such as a limit method, an adjustment method, or a constant method may be used.
[0083]
As shown in FIG. 3, in the case of a hearing impaired person, the minimum audible threshold is generally higher than that of a normal hearing person, and hearing compensation is required. When the minimum audible threshold rises and it is difficult to hear small sounds, hearing compensation is performed to set the frequency characteristics of the filter so that the sound of that frequency is increased by a predetermined level with respect to the increase in the minimum audible threshold. .
[0084]
Next, dynamic range measurement will be described. In the case of having a hearing impairment, the minimum audible threshold value increases, and not only it is difficult to hear a small sound, but also “comfort level” (MCL) and “discomfort level” (UCL) may change from normal values. The “comfort level” is a level at which the loudness is just right, easy to listen to, and feels tired. The “discomfort level” is a level at which the sound is loud, reverberates, and feels tired, and is a small value when compared to a healthy ear and using the minimum audible threshold as a reference. Therefore, the dynamic range, which is the width between the “discomfort level” and the minimum audible threshold, tends to be narrow compared to a healthy ear.
[0085]
In order to measure the dynamic range, sine signals such as 2 kHz, 4 kHz, etc., meaningless words and syllables are spoken to the subject at multiple volume levels, and seven levels of subjective evaluation (very noisy) , Noisy, slightly noisy, normal, slightly small, small, quite small). From this evaluation result, the “uncomfortable level”, “comfort level” and its range are obtained.
[0086]
4A shows an example of the dynamic range of a normal hearing person, and FIG. 4B shows an example of the dynamic range of a hearing impaired person. For the hearing impaired, the range of “comfort level” is narrow. If the frequency characteristic is compensated only for an increase in the minimum audible threshold, a slightly loud sound reaches the “uncomfortable level” and feels painful. Therefore, when the dynamic range is reduced, the variable gain amplifier compensates to limit the level change of the input audio signal to an easily hearable range. FIG. 5 shows an example of input / output gain characteristics. The dynamic range is adjusted by setting a variable gain characteristic for each frequency region in accordance with the narrowing of the “comfort level” range of each frequency.
[0087]
Next, the speech sound hearing test will be described. Rather than a sine wave signal that cannot be heard normally, let the subject hear a meaningless word sound with several single syllables arranged, measure the minimum level at which each syllable can be heard as the minimum audible threshold, or answer the syllable sound for clarity In some cases, the same correct answer rate as in the test is obtained, and a test with the correct answer rate level of 50% as a speech listening threshold is used. If the result of the speech sound hearing test is used in combination, it may be possible to perform hearing compensation more suitable for actual conversation.
[0088]
Next, the measurement of the adaptive speed for speech discrimination will be described. If you don't speak more slowly than usual, there are hearing impairments that make it difficult to understand the language. Such persons with disabilities can improve the word recognition by letting the playback speed of speech slow down by using the speech speed conversion technology.
[0089]
The adaptability (adaptation speed or follow-up speed) with respect to the speech speed can be measured as follows. Ask the subject to listen to meaningless words that combine the above syllables, and ask them to answer the words they hear. Presentation of meaningless words starts quickly, that is, from the one with the fastest speaking speed, and gradually continues until the correct answer is obtained to obtain the speed at which it can be heard correctly.
[0090]
As a hearing compensation method, the playback speed of the input voice is slowed down according to the measured adaptive speed value. Various methods have been proposed for speaking speed conversion technology for changing the playback speed of speech, and detailed explanations are omitted. For example, when the input signal from the microphone is temporarily stored and played back, the vowel part It is possible to adopt a method of repeatedly reproducing the waveform of the word so that the words are reproduced slowly, a method of taking out a short-time waveform and inserting it before the next waveform to extend the waveform of the word.
[0091]
Next, measurement of hearing ability under noise will be described. Under noise, due to the masking effect, the minimum audible threshold value rises somewhat even in healthy individuals, but in hearing impaired people, the effect is significant and may not be heard. In order to measure hearing under noisy conditions, cafeteria noise, street noise, speech noise that is noise in the same band as speech, pseudo-sound noise, etc. are presented in addition to the sound source signal at the time of the above measurement, and the minimum audible Hearing ability under noise is measured from changes in threshold and correct answer rate. Various levels of noise may be added.
[0092]
As a compensation method for preventing the influence of noise, there is a case in which a dead zone region is provided in a low level region of the input / output characteristics of the amplifier to suppress noise. The width of the dead zone is determined according to the strength of masking due to the added noise.
[0093]
In the present invention, the procedures of the various hearing test methods described above are prepared in the hearing test program unit 3, the user is asked to hear the sound source signal, and the hearing result is input from the operation unit 15. The test data is collected and used as the user's hearing test data. A program for calculating the hearing compensation characteristic corresponding to the degree of the disorder is prepared in the hearing compensation characteristic calculation unit 4 in accordance with the hearing test data. This program is a program of knowledge performed by a hearing aid fitting specialist.
[0094]
The user's answering method differs depending on the type of the hearing test. In pure tone hearing test and dynamic range measurement, push buttons for inputting “YES” and “NO” may be used as the operation unit 15. If the user does not need to respond when the sound source signal is not heard, only the “YES” push button for answering that it has been heard may be used.
[0095]
In the measurement and inspection of the dynamic range, it is necessary to input one of seven levels. You can use numeric buttons on your mobile phone. In the case of a hearing aid, a switch may be provided, but such an input device is preferably an external type.
[0096]
It is necessary to answer the recognized words in the speech listening test. In this case, the Japanese input function can be used on the mobile phone. For hearing aids, use a keyboard for Japanese input and a handwritten character recognition tool.
[0097]
The user may answer by voice through the microphone 11. The inspection center 10 identifies the user's answer content by voice recognition. “YES”, “NO” input to the operation unit 15, character data input by the Japanese input function, or a voice signal of the answer of the user 40 is sent to the inspection center 10 through the transmission / reception unit 14.
[0098]
(Embodiment 3)
FIG. 6 is a flowchart showing the procedure of the hearing compensation method according to Embodiment 3 of the present invention. In the flowchart, (Sxx) indicates processing performed by the inspection center 10, and (Ay) indicates processing performed by the hearing aid or the mobile phone. A dotted arrow represents a standby state until the next procedure is started. A one-dot chain line arrow indicates communication via the transmission line 30.
[0099]
The examination center 10 stores the above-described hearing examination program procedure and executes the hearing examination. That is, various sound source signals used for the hearing test are stored, a predetermined sound source signal is selected according to the hearing test program procedure, and is sent to the hearing aid 20 and the mobile phone device 50. The hearing test program calculates hearing compensation characteristics suitable for the user 40 based on the hearing test data collected from the hearing aid 20 and the mobile phone device 50. The calculated compensation characteristics are incorporated into the built-in audio signal processing program for hearing compensation and sent to the hearing aid 20 and the mobile phone 50.
[0100]
When the hearing aid 20 is in normal use, SW1 shown in FIG. 1 is connected to the microphone 11 side, and SW2 and SW3 are connected to the audio signal processing unit 13 side. In the case of the cellular phone 50, SW1 and SW2 in FIG. 2 are on the audio signal processing unit 13 side during normal use.
[0101]
A user 40 of the hearing aid 20 or the mobile phone device 50 operates the hearing aid 20 or the mobile phone device 50 to activate the hearing test application process (A1), and the hearing aid 20 or the mobile phone device 50 is transmitted via the transmission path 30. Then, an identification code of the user 40 is sent and a hearing test is requested.
[0102]
Upon receiving the hearing test application via the transmission path 30, the test center 10 performs an acceptance process (S1). In the acceptance process (S1), the identification codes of the hearing aid 20, the mobile phone 50, and the user 40 are checked, and historical data such as the previous hearing compensation characteristics is called to confirm that the user is a user of this system. To do. If confirmed, in the examination explanation transmission process (S2), the hearing aid 20 or the mobile phone 50 is informed that the hearing examination application has been accepted, and an instruction for the examination procedure is sent.
[0103]
The hearing aid 20 or the cellular phone device 50 displays a test manual in the test end reception display process (A7) to inform the user 40 of the contents of the hearing test to be performed and the operation method of the answer. Also, SW1, SW2, SW3 in FIG. 1 and SW1, SW2 in FIG. 2 are switched to the hearing test side to establish a test system. Next, an inspection start request message is transmitted to the inspection center 10 in the inspection start request process (A3).
[0104]
Upon receiving the inspection start request message, the inspection center 10 activates the stored inspection procedure program in the inspection procedure start process (S3). First, in the sound source signal transmission process (S4), the first sound source signal is transmitted at a predetermined level.
[0105]
The hearing aid 20 or the mobile phone 50 receives the sound source signal in the sound source signal reception presentation process (A4), and reproduces and presents the sound source signal from the earphone 12 or the speaker 17 to the user 40. When the user 40 inputs the reaction of listening to the sound source signal from the operation unit 15, the input content is transmitted to the inspection center 10 in the listening result transmission process (A5).
[0106]
The test center 10 receives a response from the user 40 in the test result reception storage process (S5), and stores and stores the test result in the audiometry data area of the memory. In the inspection procedure end determination (S6), it is determined whether or not the inspection is finished. If not, the process branches to “No”. In the sound source signal switching process (S7), the sound source signal is switched to the next sound source signal and the process returns to the sound source signal transmission process (S4).
[0107]
The next sound source signal is determined by the type of hearing test and the progress of the test. A signal having a different level at the same frequency, a signal having a different frequency, a signal of a predetermined word sound, a signal of a word sound generated at a predetermined speed, a signal added with a predetermined noise, and the like.
[0108]
When one of the hearing tests described in the second embodiment is completed, the next hearing test is performed, and a sound source signal transmission process (S4), a sound source signal reception presentation process (A4), and a listening result are obtained by a new sound source signal group. Transmission processing (A5), inspection result reception storage processing (S5), inspection procedure end determination (S6), and sound source signal switching processing (S7) are repeated.
[0109]
When all the required hearing tests are completed, the test procedure end determination (S6) becomes “Yes”, and the process proceeds to the compensation characteristic calculation process (S8).
[0110]
Since the hearing test data is accumulated in the hearing test data area, the compensation characteristic calculation process (S8) calculates the hearing compensation characteristic based on the hearing test data. The hearing compensation characteristic calculation program is obtained by programming knowledge of fitting performed by a hearing aid fitting specialist. When the calculation is completed, an audio signal processing program to be used is selected in the signal processing program incorporation process (S9), and the calculation result is incorporated into the audio signal processing program. In the signal processing program transmission process (S10), an audio signal processing program adapted to the user 40 is transmitted to the hearing aid 20 or the mobile phone 50.
[0111]
The hearing aid 20 or the cellular phone device 50 stores the received audio signal processing program in the signal processing program reception storage processing (A6).
[0112]
Next, the inspection center 10 notifies the hearing aid 20 or the mobile phone device 50 of the end of the inspection in the inspection end notification process (S11).
[0113]
When the hearing aid 20 or the cellular phone device 50 receives a test end notification from the test center 10 in the test end reception display process (A7), the test end message is displayed on the display unit 16, and SW1 in FIG. SW2 and SW3 are switched to the audio signal processing unit 13 side, and SW1 and SW2 in FIG. 2 are switched to the audio signal processing unit 13 side. When the audio signal processing is performed by a program, the function of each SW is switched to the audio signal processing program side.
[0114]
By the above operation, the hearing aid 20 or the mobile phone 50 is updated to the hearing compensation characteristic corresponding to the current hearing ability of the user 40.
[0115]
As already explained, hearing impairment includes (1) overall decrease in hearing sensitivity, decrease in high and low ranges, and (2) decrease in dynamic range, which makes it difficult to hear not only small sounds but also loud sounds. (3) There are several phenomena such as a decrease in ability to follow the speech speed, and these may be combined. Hearing compensation performs appropriate compensation for each of them, so that a plurality of types of hearing tests can be performed.
[0116]
The hearing test program procedure is a series of programs that can perform these hearing tests. The sound source signal transmission process (S4), the test result reception storage process (S5), the test end notification process (S11), and the sound source signal switching are performed. It can be executed by repeating the process (S7).
[0117]
In the case of the pure tone hearing test described in the second embodiment, the user 40 does not react when the presented sound source signal cannot be heard. In the sound source signal reception presentation process (A4), if there is no response “YES” that the user 40 can hear the sound source signal within a certain time after the sound source signal is presented, it is assumed that the user has not heard, and the listening result transmission process In (A5), the result of “NO” may be transmitted to the inspection center 10.
[0118]
The hearing test procedure described above is preferably performed by the user 40 in a room with low noise. However, due to sudden noises from outside the room or incorrect answering operations, errors may be mixed in the hearing test data, and appropriate hearing compensation characteristics may not be obtained. A countermeasure for such a case will be described next.
[0119]
The first countermeasure is to check the validity of the previous hearing correction characteristic and the new hearing correction characteristic calculated this time at the examination center and check the validity. FIG. 7 shows a flowchart of the procedure. Steps (S8) and (A5) in FIG. 6 and subsequent steps are shown.
[0120]
The examination center 10 is provided with a diagnostic data storage unit, and historical data such as the hearing compensation characteristics of the user 40 so far and the hearing compensation characteristics currently in use are stored as diagnostic records. In the old compensation characteristic reading process (S12), the old hearing correction characteristic currently in use is called from the diagnosis data storage unit, and in the compensation characteristic comparison process (S13), the new hearing compensation characteristic calculated this time is compared. If the difference exceeds a predetermined range and is determined to be abnormal, in the error determination process (S14), a test error message is transmitted to the hearing aid 20 as a test error, and a hearing test is performed. Re-inspection is performed in the process (SA10). The hearing test process (SA10) is the same procedure as (S3) to (S6), (A4), and (A5) described above. The hearing compensation characteristic is calculated in the compensation characteristic calculation process (S15) from the test data of the retest, and the comparison is performed again in step (S13). If it is determined in the inspection error determination process (S14) that there is no inspection error, the process proceeds to step (S9) as in the case of FIG.
[0121]
In the second countermeasure, an improvement level test is performed to determine whether or not the expected level of improvement has been obtained using the new hearing compensation characteristic calculated by the current test. FIG. 8 shows a flowchart of the procedure. The procedure after step (S10) of FIG. 6, (A6) is shown.
[0122]
The inspection center 10 transmits an improvement degree inspection start message to the terminal device in the improvement degree inspection start process (S20). In the SW switching process (A20), in the case of the hearing aid 20, the terminal device switches SW1 to the transmission / reception unit 14 side, SW2 and SW3 to the audio signal processing unit 13 side, and in the case of the mobile phone 50, SW1 and SW2 are switched. Switch to the audio signal processing unit 13 side. Then, in the hearing test process (SA20), the hearing test is performed again. In the improvement degree calculation process (S21), the data obtained in the above hearing test, that is, the data indicating the degree of hearing impairment of the user, and the hearing ability when the audio signal processing program is used to perform the hearing compensation are shown. Compare the verification test data and determine the improvement. If it is determined that a sufficient degree of improvement has been obtained, the process proceeds to step (S11) in the inspection error determination process (S22).
[0123]
In general, confirmation test data is approaching a normal hearing person. If the confirmation inspection data is worse or the improvement degree is insufficient, it is determined that there is an inspection error in the inspection error determination process (S22), and the process returns to step (S3) in FIG. To do.
[0124]
In the third countermeasure, an improvement test is performed using the old hearing compensation characteristic that is currently in use, and an improvement degree based on the old hearing compensation characteristic with respect to the current degree of disability of the user 40 is checked. Compare this test result data with the improvement test data based on the new hearing compensation characteristics, find the improvement from the difference, and if it is worse, recheck the test as if there was an error in the test. Make it run. FIG. 9 shows a flowchart of the procedure. Steps (S10) and (A6) and subsequent steps in FIG. 6 are shown.
[0125]
For this purpose, the audio signal processing unit 13 stores an audio signal processing program based on the hearing compensation characteristic currently in use and an audio signal processing program based on the new hearing compensation characteristic. The processing program can be switched. The improvement test start process (S30), SW switching process (A30), and hearing test process (SA30) are the improvement test start process (S20), SW switching process (A20), and hearing test process (SA20) in FIG. It is the same.
[0126]
When the improvement test of the new hearing compensation characteristic is finished in step (SA30), the inspection center 10 next starts the test of the hearing improvement degree based on the old hearing compensation characteristic in the old compensation characteristic test start process (S31). Preparations are made and the terminal device is notified of the start. The terminal device switches to the old audio signal processing program used so far in the old program selection process (A31).
[0127]
Next, in the hearing test process (SA31), a hearing test is performed. Since the old audio signal processing program is used, hearing data improved by the old audio signal processing program can be obtained. In the improvement degree calculation process (S32), the hearing ability when using the old and new audio signal processing programs is compared. Usually, the new audio signal processing program provides better hearing. In this case, it is determined in the inspection error determination process (S33) that a sufficient degree of improvement has been obtained, and the process proceeds to step (S11). If the new audio signal processing program is worse or the improvement level is insufficient, it is determined that there is an inspection error in the inspection error determination processing (S33), and the process returns to step (S3) in FIG. Do.
[0128]
In the fourth measure, the above-mentioned initial test and improvement test are performed twice or more, and when there is no significant difference in the test results, it is determined that the normal test has been performed, and the hearing compensation characteristic is Calculation and comparison judgment are performed. When using the terminal device for the first time, it is preferable to adopt this method because the inspection center 10 does not have the old hearing compensation characteristic.
[0129]
In the fifth countermeasure, the audio signal processing unit 13 stores both the audio signal processing program based on the currently used hearing compensation characteristic and the audio signal processing program based on the new hearing compensation characteristic. An audio signal processing program can be selected from the operation unit 15. The user 40 can use the audio signal processing program with the higher degree of improvement. For this purpose, twice as many storage areas for the audio signal processing program are prepared. When any abnormality occurs in the hearing test, it is possible to prevent the hearing compensation function from being lost at all.
[0130]
FIG. 10 is a configuration diagram of a computer system that executes the hearing compensation method, and shows an examination center 10 side and a hearing aid or mobile phone side that is a terminal device.
[0131]
The inspection center 10 side includes a CPU 60, a ROM 61, a RAM 62, a display unit 63, an operation unit 64, an audio interface 65, a transmission / reception unit 6, and a hard disk 70, which are connected to a bus line. The hard disk 70 stores the hearing test program 72, the hearing compensation characteristic calculation program 73, the audio signal processing program 74, and the overall control program 71 already described. A hearing test data area is provided in the RAM 62. The ROM 61 stores a startup program. The CPU 60 first reads the startup program and enters a state of waiting for reception of a communication from a hearing aid or a mobile phone. Communication with the hearing aid or mobile phone is performed by the transmission / reception unit 6. When the hearing test request is received by the hearing test application process (A1), the transmission / reception unit 6 transmits the request to the CPU 60, and the CPU 60 calls the control program 71 to execute a series of procedures described in the flowchart of FIG. . The display unit 63, the operation unit 64, and the audio interface 65 are used for system operation monitoring and management of the inspection center 10.
[0132]
The hearing aid or mobile phone side includes a CPU 80, a ROM 81, a RAM 82, a display unit 16, an operation unit 15, an audio interface 85, and a transmission / reception unit 14, which are connected to a bus line. In the ROM 81, the hearing test application process (A1), the test description display process (A2), the test start request process (A3), the sound source signal reception presentation process (A4), the listening result transmission process (A5), which have already been described, Stored are a program and a startup program for signal processing program reception storage processing (A6) and examination end reception display processing (A7). The RAM 82 stores an audio signal processing program. A storage area for received contents and a work storage area are also provided in the RAM 82. The audio interface 85 includes an AD converter, a DA converter, a microphone amplifier, an earphone or a speaker amplifier, and amplifies the signal from the microphone 11 and performs AD conversion, DA conversion for reproduction by the earphone 12 and the speaker 17, and so on. Perform power amplification. The operation of each SW in FIGS. 1 and 2 is also stored in the ROM 81 as a signal processing program. The ROM 81 also stores an operation program as a hearing aid and various operation programs as a mobile phone.
[0133]
The CPU 80 first reads the activation program and enters a standby state. When a hearing test request is received from the operation unit 15 operated by the user, the hearing test application process (A1) is entered, and thereafter, the processing procedures already described are sequentially executed.
[0134]
The transmission / reception unit 6 and the transmission / reception unit 14 may be a wired communication system or a wireless communication system. A line via the Internet network may be used. In the case of a cellular phone, a cellular phone communication line can be used.
[0135]
When the terminal device is a hearing aid, it is required to be small, light, and have low power consumption since it is worn on the ear. In the hearing aid 20 of FIG. 1, the transmission / reception unit 14, the operation unit 15, and the display unit 16 are externally attached, and the other hearing aid main body parts are connected by a cable when the hearing test is performed. preferable. Instead of a cable, a short-distance wireless communication unit may be provided in the hearing aid main body and the externally attached portion so as to be wirelessly coupled and communicated.
[0136]
In the above description, the sound source signal waveform is transmitted as it is. However, the sound source signal waveform may be compressed and transmitted at the inspection center 10, and may be reproduced after being compressed by the transmission / reception unit 14 of the terminal device. Further, the sound source signal for hearing test 2 may be stored as a compressed waveform.
[0137]
When the sound source signal of the sound source unit 2 for hearing test is a pure tone, one waveform of the sine wave and its duration length data and presentation level data are sent to the terminal device, and the transmitter / receiver 14 repeats one waveform for the duration. Thus, the amplitude of the presentation level data may be used as a sound source signal. In this way, the data amount of the sound source signal is reduced and the transmission time can be shortened.
[0138]
In addition, one presentation time of the sound source signal is sent, and then only the presentation level data is sent. The transmission / reception unit 14 stores a waveform for one presentation time of the received sound source signal, and the presentation level. Each time data is sent, the stored waveform may be read out and multiplied by the presentation level data to be reproduced and presented as a sound source signal of the designated presentation level.
[0139]
In the above embodiment, the audio signal processing program unit 5 transmits the audio signal processing program incorporating the hearing correction characteristic, but it may be as follows. Hearing compensation parameters such as frequency characteristics and gain variable characteristics, which are hearing compensation characteristics calculated by the hearing compensation characteristic calculation unit 4, are transmitted from the transmission / reception unit 6 to the transmission / reception unit 14 and stored in the audio signal processing unit 13. Parameters are incorporated into the audio signal processing program. In this case, the audio signal processing program selection unit 5 is not necessary. Since the parameter generally has a smaller data amount than the audio signal processing program, the transmission time is short.
[0140]
Even in the case of the embodiment of the above method, in the signal processing program transmission process (S10), the audio signal processing program incorporating the hearing correction characteristic is transmitted. Hearing compensation parameters such as a frequency characteristic and a gain variable characteristic, which are hearing compensation characteristics calculated in the compensation characteristic calculation process (S8), are transmitted to the terminal device by a compensation characteristic transmission process instead of the signal processing program transmission process (S10). Then, by the compensation characteristic reception / storage process instead of the signal processing program reception / storage process (A6), the hearing compensation parameters are received and stored, and the hearing compensation parameters are incorporated into the audio signal processing program. The signal processing program incorporation process (S9) is performed on the terminal device side. Since the parameters for hearing compensation generally have a smaller data amount than the audio signal processing program, the transmission time can be shortened.
[0141]
The hearing test and the hearing compensation method applied to the present invention are not limited to those described above. Even if a new hearing test method to be developed in the future is applied as a hearing test program, and a new and advanced hearing compensation method based on the result is applied and incorporated as an audio signal processing program, the object of the present invention is achieved. The effect of the present invention can be realized.
[0142]
In the embodiment of FIG. 2, the case where the user 40 uses the cellular phone device 50 without wearing the hearing aid has been described. As another usage, the user 40 performs a hearing test using the mobile phone 50 of the present invention with the conventional hearing aid attached to the left ear, and the calculated hearing correction characteristic is obtained from the mobile phone 50. You may make it incorporate in. In this case, hearing compensation is performed in the entire system of the mobile phone 50 and the conventional hearing aid. In the mobile phone 50, additional hearing compensation is performed with respect to the conventional hearing aid.
[0143]
In the above description, the user 40 requests a hearing test, but the attending physician may instruct the terminal device to perform a hearing test from the testing center 10.
[0144]
In the above description, the hearing test is performed on-line between the test center and the terminal device. However, the hearing test is performed using a predetermined hearing test device in a hospital or clinic, and the hearing compensation obtained as a result. One or more characteristics are stored and stored in the examination center, and then the hearing compensation characteristic is selected according to a request from the terminal device or determined by the examination center, and the hearing compensation characteristic is selected as an audio signal. It may be incorporated into a processing program and downloaded to a terminal device.
[0145]
Alternatively, the hearing compensation characteristic may be selected, and the hearing compensation parameter may be downloaded to the terminal device and incorporated in the audio signal processing program in the terminal device. The hearing compensation characteristics stored and stored in the examination center may be hearing compensation characteristics for individuals with hearing impairment, but there are several types of typical hearing compensation characteristics that are determined according to the degree of various hearing impairments. The doctor, the examination center, and the owner of the terminal device may make the selection. The request for the download operation may be made from the terminal device or from the inspection center. These mechanisms are determined as operating rules of this system by doctors and examination centers.
[0146]
In order to realize such a method, an hearing compensation characteristic storage unit that stores a plurality of hearing compensation characteristics, an audio signal processing program unit, and a transmission / reception unit are provided in the inspection center device, and the terminal device is connected via a transmission path. Communicating, selecting hearing compensation characteristics, incorporating the hearing compensation characteristics into the audio signal processing program, and transmitting to the terminal device so that the terminal device can perform hearing compensation using the received audio signal processing program do it.
[0147]
Also, an hearing compensation characteristic storage unit that stores a plurality of hearing compensation characteristics and a transmission / reception unit are provided in the inspection center device, communicate with the terminal device via the transmission path, select the hearing compensation characteristic, and The parameter may be transmitted to the terminal device, and the terminal device may perform the hearing compensation by using the received hearing compensation parameter incorporated in the audio signal processing program in the terminal device.
[0148]
The terminal device includes an audio signal processing unit, a transmission / reception unit, and an operation unit. The transmission / reception unit receives an audio signal processing program, stores the audio signal processing program in the audio signal processing unit, and uses the stored audio signal processing program to listen. Compensation may be performed.
[0149]
Alternatively, an audio signal processing unit, a transmission / reception unit, and an operation unit that store an audio signal processing program are provided, the hearing compensation parameter is received by the transmission / reception unit, and the received hearing compensation parameter is used as the audio signal in the terminal device. It may be incorporated into a processing program to perform hearing compensation.
[0150]
The procedure of the inspection center consists of compensation characteristic selection processing, signal processing program incorporation processing, and signal processing program transmission processing. The compensation characteristics selection processing selects hearing compensation characteristics, and the signal processing program incorporation processing performs hearing. Hearing compensation method in which compensation characteristic is incorporated into audio signal processing program, audio signal processing program is transmitted to terminal device by signal processing program transmission processing, and terminal device performs hearing compensation using received audio signal processing program It is good.
[0151]
Alternatively, the procedure of the inspection center includes a compensation characteristic selection process and a compensation characteristic transmission process. The compensation characteristic selection process selects a parameter for hearing compensation, and the compensation characteristic transmission process transmits the parameter for hearing compensation to the terminal device. The terminal device may transmit the received hearing compensation parameter into the audio signal processing program to perform hearing compensation.
[0152]
The procedure of the terminal device includes a signal processing program reception / storage process, and an audio signal processing program incorporating the hearing compensation characteristic selected in the inspection center apparatus is received and stored from the inspection center apparatus by the signal processing program reception / storage process. Alternatively, the hearing compensation method may perform hearing compensation using a stored audio signal processing program.
[0153]
Alternatively, the compensation characteristic receiving / storing process is performed, and the hearing compensation parameter selected in the examination center apparatus is received and stored from the examination center apparatus by the compensation characteristic receiving / storing process, and the hearing compensation parameter is incorporated into the audio signal processing program. The hearing compensation method may be used to compensate for hearing.
[0154]
In addition, the recording medium which recorded the program of the CM presentation method of this invention means recording media, such as ROM, RAM, a flexible disk, CD-ROM, DVD, a memory card, and a hard disk which recorded the program. It is also a concept including communication media such as a telephone line and a conveyance path.
[0155]
【The invention's effect】
As described above, according to the present invention, the following effects can be expected.
[0156]
The user of the hearing aid can adjust the characteristics of the hearing aid, that is, fitting the so-called hearing aid, without going to a medical institution.
[0157]
The user of the hearing aid can perform fitting of the hearing aid at any time without going to a medical institution, and can always obtain optimal hearing compensation.
[0158]
Even when the user of the hearing aid uses the mobile phone, the hearing compensation characteristic can be adjusted by combining the mobile phone and the hearing aid without going to a medical institution.
[0159]
Even when the user of the hearing aid uses the mobile phone, the mobile phone device can adjust the hearing compensation characteristics of the mobile phone and the hearing aid without going to a medical institution.
[0160]
Even if the method of hearing compensation is improved or changed, it becomes possible to make it compatible with new hearing compensation characteristics without having to replace a hearing aid or a mobile phone with a hearing aid function.
[0161]
Since the user can perform the fitting at the place where he / she lives, the hearing compensation characteristic corresponding to the real life can be obtained.
[0162]
The attending physician can perform a remote examination from the examination center.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a hearing compensation system and apparatus according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a hearing compensation system and apparatus according to an embodiment of the present invention.
FIG. 3 is a diagram for explaining an audiogram representing a result of an audiometry
FIG. 4 is a diagram for explaining the dynamic range of the ear
FIG. 5 is a diagram of a variable gain characteristic that compensates for a decrease in dynamic range.
FIG. 6 is a flowchart showing a procedure of a hearing compensation method according to an embodiment of the present invention.
FIG. 7 is a flowchart showing a procedure of a hearing compensation method according to an embodiment of the present invention.
FIG. 8 is a flowchart showing a procedure of a hearing compensation method according to an embodiment of the present invention.
FIG. 9 is a flowchart showing a procedure of a hearing compensation method according to an embodiment of the present invention.
FIG. 10 is a block diagram of a computer system that executes the procedure of the hearing compensation method of the present invention.
[Explanation of symbols]
1 Control unit
2. Sound source for hearing test
3 hearing test program part
4. Hearing compensation characteristic calculator
5 Audio signal processing program section
6,14 Transceiver
10 Inspection Center
11 Microphone
12 Earphones
13 Audio signal processor
15 Operation unit
16 Display section
17 Speaker
20 Hearing aid
30 transmission line
40 users
50 Mobile phone

Claims (1)

Inspection center equipment,
A reception unit that receives test result data including information indicating a reaction that the user can hear for each frequency transmitted from the terminal device;
Means for obtaining a hearing test data by obtaining a minimum audible threshold value for each frequency based on the received test result data;
Based on the hearing test data, a hearing compensation characteristic calculation unit that calculates a hearing correction characteristic;
Generating means for generating the calculated hearing correction characteristic as a hearing compensation program;
Means for transmitting the generated hearing compensation program to the terminal device;
With
The terminal device is a mobile phone,
The inspection result data further includes:
Including subjective result data indicating the user's hearing comfort with multiple subjective evaluation values,
The plurality of comforts include at least annoying and normal as steps,
The hearing compensation characteristic calculator is
Depending on the type of the subjective result data,
(1) An upper limit value of the discomfort level is calculated from the subjective result data indicated by the annoyance,
(2) Calculate a dynamic range that is a comfort level range in a range narrower than a range between the upper limit value of the unpleasant level and the minimum audible threshold value from the subjective result data indicated by the ordinary,
(3) adjusting the variable gain characteristic based on the narrowing of the dynamic range to calculate the hearing correction characteristic;
The plurality of comforts are input with the numeric buttons of the mobile phone;
Inspection center device characterized by .

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