JP2017069762A - Hearing aid system, hearing aid and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hearing aid which can be adjusted to optimal properties in accordance with auditory sense properties of a user, and a hearing aid system therefor.SOLUTION: Based on input of a user, a profile of the user is acquired and transmitted to a server by an information terminal. The server refers to a database storing standard auditory sense property information indicating standard auditory sense properties of users and transmits standard auditory sense property information matched to the profile to the information terminal. The standard auditory sense property information is received from the server and transmitted to a hearing aid by the information terminal and based on the standard auditory sense property information, the hearing aid reproduces a test sound. When the user listens to the test sound and inputs use feeling information indicating evaluation of the user, the standard auditory sense property information is corrected based on the use feeling information, and individual auditory sense property information indicating the auditory sense properties of the user is generated and transmitted to the hearing aid by the information terminal. Based on the individual auditory sense property information, external sound is corrected and reproduced by the hearing aid.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a method for adjusting a hearing aid.

  Hearing aids that assist the hearing of the elderly are known. The hearing aid needs to be adapted to the hearing characteristics of the user who uses it. Patent Document 1 describes a system for accurately measuring a user's auditory characteristics and selecting an appropriate hearing aid for the user.

JP 2004-236822 A

  However, since human auditory characteristics change with age, the characteristics of hearing aids that were optimal at the time of purchase are not always optimal. In addition, it is considered that human auditory characteristics are also affected by the state of mind and body, for example, the presence or absence of illness, the state of excitement or calmness, and the like.

  A main object of the present invention is to provide a hearing aid that can be adjusted to an optimum characteristic according to a user's auditory characteristic, and a hearing aid system therefor.

  One aspect of the present invention is a hearing aid system including a hearing aid, an information terminal, and a server, wherein the server indicates, for each user profile, a standard indicating a user's standard auditory characteristics corresponding to the profile. A database for storing auditory characteristic information; and standard auditory characteristic information transmitting means for receiving a user's profile from the information terminal and transmitting standard auditory characteristic information matching the profile to the information terminal, the information terminal A profile transmission means for acquiring the user's profile based on user input and transmitting it to the server; and a standard auditory characteristic information transfer means for receiving the standard auditory characteristic information from the server and transmitting it to the hearing aid And a feeling of use indicating the user's evaluation of the test sound reproduced by the hearing aid based on the user's input. A sense of use information acquisition means for acquiring information, and the standard auditory characteristic information is modified based on the sense of use information to generate individual auditory characteristic information indicating the user's auditory characteristic, and transmitted to the hearing aid Characteristic information generating means, and the hearing aid reproduces the test sound based on the standard auditory characteristic information and receiving means for receiving the standard auditory characteristic information and the individual auditory characteristic information from the information terminal. Test audio reproduction means, and reproduction means for correcting and reproducing external audio based on the individual auditory characteristic information.

  In the above hearing aid system, the information terminal acquires the user profile based on the user input and transmits it to the server. The server refers to a database that stores standard auditory characteristic information indicating the standard auditory characteristic of the user, and transmits standard auditory characteristic information that matches the profile to the information terminal. The information terminal receives standard auditory characteristic information from the server and transmits it to the hearing aid, and the hearing aid reproduces the test sound based on the standard auditory characteristic information. When the user listens to the test voice and inputs the usability information indicating the user's evaluation, the information terminal corrects the standard auditory characteristic information based on the usability information, and the individual auditory characteristic indicating the auditory characteristic of the user Generate information and send it to the hearing aid. The hearing aid corrects and reproduces the external sound based on the individual auditory characteristic information. Thereby, the user's ease of hearing can be adjusted appropriately. Preferably, the profile includes at least one of the user's race, nationality, gender, age, or pre-existing condition.

  In one aspect of the above hearing aid system, the hearing aid is based on the storage unit that stores the individual auditory characteristic information of the user, the sensor that detects the biological information of the user, and the biological information detected by the sensor. Correcting means for correcting the individual auditory characteristic information. In this aspect, since the individual auditory characteristics are corrected based on the biological information of the user, the characteristics of the hearing aid can be appropriately adjusted according to the state of mind and body of the user. Preferably, the biological information includes at least one of blood pressure, pulse wave, pulse, heart rate, body temperature, and sweating.

  In another aspect of the hearing aid system, the hearing aid transmits the individual auditory characteristic information and the biological information to the information terminal, and the information terminal includes the individual auditory characteristic information, the biological information, and the feeling of use. Information is transmitted to the server, and the server corrects the standard auditory characteristic information based on the individual auditory characteristic information, the biological information and the usability information received from the information terminal. Is provided. In this aspect, the standard auditory characteristic information can be corrected based on the individual auditory characteristic information, biological information, and feeling of use information transmitted from a large number of information terminals.

  In another aspect of the present invention, the hearing aid is based on a storage unit that stores individual auditory characteristic information indicating a user's auditory characteristic, a sensor that detects the user's biological information, and biological information detected by the sensor. Correcting means for correcting the individual auditory characteristic information; and reproducing means for correcting and reproducing external sound based on the individual auditory characteristic information.

  According to the above-described hearing aid, the individual auditory characteristics are corrected based on the user's biological information, so that the characteristics of the hearing aid can be appropriately adjusted according to the user's mental and physical conditions. Preferably, the biological information includes at least one of blood pressure, pulse wave, pulse, heart rate, body temperature, and sweating.

  In another aspect of the present invention, a program executed by a hearing aid including a storage unit that stores individual auditory characteristic information indicating a user's auditory characteristic, a sensor that detects biological information of the user, and a computer is executed by the sensor. The computer is caused to function as correction means for correcting the individual auditory characteristic information based on the detected biological information, and reproduction means for correcting and reproducing external sound based on the individual auditory characteristic information. By executing this program on a computer, the characteristics of the hearing aid can be appropriately adjusted according to the state of mind and body of the user.

1 shows a schematic configuration of a hearing aid system according to an embodiment of the present invention. It is a block diagram which shows the function structure of a hearing aid. The example of a user's auditory characteristic and a correction characteristic is shown. It is a block diagram which shows the function structure of an information terminal It is a block diagram which shows the function structure of a server. It is a flowchart of the adjustment process of a hearing aid. The example of a display of the question with respect to a user is shown. It is a flowchart of the normal use process of a hearing aid.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[Constitution]
(Hearing aid system)
FIG. 1 shows a schematic configuration of a hearing aid system according to an embodiment of the present invention. As illustrated, the hearing aid system includes a hearing aid 10, an information terminal 20, and a server 30. The hearing aid 10 is attached to at least one of the user's left and right ears.

  The information terminal 20 is typically a smartphone or the like, and transmits / receives information to / from the hearing aid 10 through wireless communication. An example of wireless communication is Bluetooth (registered trademark). The information terminal 20 communicates with the server 30 through the network 5. A typical example of the network 5 is the Internet.

  The server 30 stores biometric master information that is information necessary for appropriately adjusting the hearing aid 10 for a large number of users. The user can adjust his / her hearing aid 10 to an optimal state by using his / her own hearing aid 10 and the information terminal 20 and using the biometric master information stored in the server 30.

(hearing aid)
FIG. 2 is a block diagram showing a functional configuration of the hearing aid 10. The hearing aid 10 includes a microphone 11, a speaker 12, a sensor 13, a power source (battery) 14, a communication unit 15, a storage unit 16, and a control unit 17.

  The microphone 11 is provided so as to be located outside when the user wears the hearing aid 10 on the ear, and collects external sound. The speaker 12 is provided so as to face the inside of the ear when the user wears the hearing aid 10 on the ear, and corrects and amplifies the external sound collected by the microphone 11 (hereinafter simply referred to as “correction”). To the inside of the user's ear (the ear canal). As a result, the user can hear the external sound clearly. The speaker 12 outputs a test sound when adjusting the hearing aid 10.

  The sensor 13 is provided so as to come into contact with a part of the ear when the user wears the hearing aid 10, and detects the biological information of the user. Specifically, the sensor 13 detects blood pressure, a pulse wave, a pulse, a heart rate, a body temperature, sweating, etc. as a user's biometric information.

  The power source (battery) 14 is composed of a small battery, for example, and functions as a power source for the hearing aid 10 as a whole. The communication unit 15 performs wireless communication with the information terminal 20 using Bluetooth or the like.

  The storage unit 16 stores the user's auditory characteristics. The auditory characteristic is a characteristic indicating the ease of listening to the sound by the user, and is specifically shown as a frequency characteristic for the sound of each frequency. The auditory characteristic of a specific user is hereinafter referred to as “individual auditory characteristic”. FIG. 3 shows an example of individual auditory characteristics. A characteristic C1 in FIG. 3 shows an individual auditory characteristic of a certain user (Japanese, male, 65 years old). In general, it is said that the human audible band is about 20 to 20 kHz, and the characteristic C1 indicates a sound level (sensitivity) that the user can hear in the audible band. In this example, the user has low sensitivity in the low sound range and the high sound range.

  The storage unit 16 temporarily stores biological information detected by the sensor 13. Further, the storage unit 16 stores a program for the hearing aid 10 to perform a process of correcting the external sound collected by the microphone 11 and outputting it from the speaker 12 (hereinafter referred to as “reproduction process”). Yes.

  The control unit 17 controls each component of the hearing aid 10. First, as a basic process, the control unit 17 performs a reproduction process in which the external sound collected by the microphone 11 is corrected based on the individual auditory characteristics of the user and output from the speaker 12. Specifically, the control unit 17 determines a correction characteristic based on the individual auditory characteristic of the user, corrects the external sound collected by the microphone 11 according to the correction characteristic, and outputs the corrected sound from the speaker 12. FIG. 3 shows a correction characteristic C2 corresponding to the individual auditory characteristic C1 described above. In this example, the individual auditory characteristic of the user is basically corrected so as to be almost flat in the entire band, and the characteristic of increasing the level of the external sound in the low frequency range and the high frequency range where the sensitivity in the characteristic C1 is low It has become. Thus, by correcting and outputting the external sound based on the individual auditory characteristics, it is possible to improve the ease of hearing for the user.

  Further, the control unit 17 corrects the individual auditory characteristics of the user based on the biological information detected by the sensor 13 and performs processing for reproducing external sound. In addition, the control unit 17 transmits the biological information detected by the sensor 13 and the individual auditory characteristics to the information terminal 20.

  Further, at the time of initial setting, the control unit 17 reproduces the test sound based on the standard auditory characteristic provided from the server 30. The standard auditory characteristic is an auditory characteristic common to a plurality of users having the same profile.

  In the above configuration, the communication unit 15 corresponds to a receiving unit of the present invention, the speaker 12 corresponds to a test sound reproducing unit and a reproducing unit of the present invention, and the control unit 17 corresponds to a correcting unit of the present invention.

(Information terminal)
FIG. 4 is a block diagram illustrating a configuration of the information terminal 20. The information terminal 20 includes a communication unit 21, a storage unit 22, a display unit 23, a control unit 24, and an input unit 25. The communication unit 21 communicates with the hearing aid 10 through wireless communication such as Bluetooth and also communicates with the server 30 through the network 5.

  The storage unit 22 is configured by a memory such as a RAM, and functions as a working memory when performing various processes in the information terminal 20. Specifically, the standard auditory characteristics that the information terminal 20 receives from the server 30 and transmits to the hearing aid 10 are temporarily stored in the storage unit 22. The storage unit 22 stores individual auditory characteristics generated based on the user's feeling of use information. The storage unit 22 temporarily stores individual auditory characteristics and biological information that the information terminal 20 receives from the hearing aid 10 and transmits to the server 30. Further, the storage unit 22 stores programs for various processes executed by the information terminal 20.

  The display unit 23 is typically a liquid crystal display, and includes an input screen for inputting information necessary for adjusting the hearing aid 10, specifically, user feeling information that is a user's evaluation on the test sound. Is displayed.

The control unit 24 performs various controls of the information terminal 20 by executing a program stored in the storage unit 22. The input unit 25 is typically a touch panel arranged on the display unit 23, and acquires input from the user.
In the above configuration, the communication unit 21 corresponds to the profile transmission unit and the standard auditory characteristic information transfer unit of the present invention, the input unit 25 corresponds to the usability information acquisition unit of the present invention, and the control unit 24 corresponds to the individual unit of the present invention. It corresponds to an auditory characteristic information generating means.

(server)
FIG. 5 is a block diagram illustrating a functional configuration of the server 30. The server 30 includes a communication unit 31, a control unit 32, a standard biometric master database (hereinafter “database” is referred to as “DB”) 33, and an individual biometric master DB 34. The communication unit 31 communicates with the information terminal 20 via the network 5. The control unit 32 includes a CPU and the like, and controls the entire server 30.

  The standard biometric master DB 33 stores standard biometric master information. The standard biometric master information includes standard auditory characteristics corresponding to various profiles. The “profile” includes the race (nationality), gender, age, pre-existing disease, etc. of the user. Standard auditory characteristics indicate standard auditory characteristics for a number of users who fall under a particular profile. That is, standard auditory characteristics are prepared for each race (nationality), sex, and age. For example, one standard auditory characteristic is prepared corresponding to the profile “Japanese, 60s, male”, and one standard auditory characteristic is prepared corresponding to the profile “Japanese, 70s, male”. Is done. Furthermore, when the user has a pre-existing condition, standard auditory characteristics are prepared according to the pre-existing condition for the same profile. For example, standard auditory characteristics are separately prepared for a profile of “Japanese, 60s, male, normal (no history)” and a profile of “Japanese, 60s, male, high blood pressure”.

  On the other hand, the individual biometric master DB 34 stores individual biometric master information for a plurality of users. The “individual biometric master information” includes individual auditory characteristics, biometric information, and usability information for each user. The individual auditory characteristic is an auditory characteristic unique to a certain user, and the biological information is biological information unique to the user. “Usage information” is an index indicating how much a user's hearing is deviated from the standard auditory characteristics. Specifically, the usability information may be an evaluation such as “easy to hear” or “difficult to hear” for the entire test sound, or an evaluation for a specific sound range such as “difficult to hear bass”. Good. The usability information is acquired by the information terminal 20 as a user's evaluation of the test sound reproduced from the hearing aid 10 and transmitted to the server 30.

  In the above configuration, the standard biometric master DB 33 corresponds to the database of the present invention, and the communication unit 31 corresponds to the standard auditory characteristic information transmitting means of the present invention.

[How to adjust the hearing aid]
Next, a method for adjusting the hearing aid 10 will be described.
(Process during adjustment)
FIG. 6 is a flowchart of the adjustment process of the hearing aid 10. This adjustment process is first performed when the user first uses the hearing aid 10. After that, the adjustment process may be performed periodically every predetermined period, or may be performed when the user feels difficult to hear.

  First, when the user turns on the power of the hearing aid 10, the hearing aid 10 detects this (step S11) and performs mutual authentication with the information terminal 20 (step S12). Next, when the user inputs his / her profile to the information terminal 20, the information terminal 20 acquires the input profile (step S13) and transmits it to the server 30 (step S14).

  When receiving the profile from the information terminal 20, the server 30 reads the standard auditory characteristic corresponding to the profile with reference to the standard biometric master DB 33 (step S15) and transmits it to the information terminal 20 (step S16). The information terminal 20 receives the standard auditory characteristic from the server 30 and transmits it to the hearing aid 10 (step S17).

  The hearing aid 10 acquires the user's biological information by the sensor 13 (step S18). The hearing aid 10 reproduces the test sound based on the standard auditory characteristic received in step S17 (step S19).

  Next, the information terminal 20 asks the user about the ease of hearing the test voice (step S20). Specifically, the information terminal 20 displays a question for the user on the display unit 23. FIG. 7 shows a display example of questions to the user. In this example, in addition to whether or not the test voice is easy to hear as a whole, the ease of hearing of the bass or treble is also included in the question.

  When a user operates the information terminal 20 and inputs an answer to such a question, the information terminal 20 modifies the standard auditory characteristic based on the input answer and generates an individual auditory characteristic for the user. And it memorize | stores in the memory | storage part 22 (step S21). For example, when the user's answer is “hard to hear as a whole”, the information terminal 20 generates an individual auditory characteristic having an increased level of the entire standard auditory characteristic band. Further, when the user's answer is “difficult to hear bass”, the information terminal 20 generates an individual auditory characteristic that is obtained by increasing the low level of the standard auditory characteristic. Note that the user's answer acquired in step S21 corresponds to user's usability information for the test voice. Then, the information terminal 20 transmits the generated individual auditory characteristic to the hearing aid 10 (step S22).

  The hearing aid 10 stores the individual auditory characteristics received from the information terminal 20 in the storage unit 16 (step S23). This individual auditory characteristic is used when the hearing aid 10 is subsequently used.

  Next, the hearing aid 10 transmits the user's biological information detected by the sensor 13 in step S18 to the information terminal 20 (step S24). The information terminal 20 obtains the usability information (the user's answer to the question) acquired in step S21, the individual auditory characteristics generated in step S21, and the biometric information transmitted from the hearing aid 10 in step S24, as individual biometric master information. To the server 30 (step S25). The server 30 stores the received individual biometric master information in the individual biometric master DB 34 in association with the user (step S26). Thus, the adjustment process ends.

  According to the above adjustment process, the standard auditory characteristic corresponding to the user's profile is corrected based on the usability information indicating the ease of hearing of the user at that time, and the individual auditory characteristic information of the user is generated. The hearing aid 10 can reproduce sound based on individual auditory characteristics according to the user's situation at that time.

  Note that the hearing aid 10 may generate and reproduce the test sound again based on the individual auditory characteristic after receiving the individual auditory characteristic from the information terminal 20 in step S22. Then, steps S19 to S22 may be repeated until the user's usability information is easily heard in the entire band.

  When the hearing aid 10 used by the user is only one of the left and right ears, the above adjustment process may be performed for only one of them. When the user uses a pair of hearing aids 10 for the left and right ears, the above adjustment process may be performed with the hearing aids 10 attached to the left and right ears. In this case, as the user's feeling information, the feeling information may be acquired for each of the left and right ears such as “the right ear is difficult to hear as a whole” and “the bass sound of the left ear is difficult to hear”. In addition, it is possible to acquire usability information indicating ease of hearing, such as “It is difficult to hear low sounds overall.” When the hearing aids 10 are attached to the left and right ears, the above-mentioned adjustment process makes it easy to hear the left and right individual hearing aids 10 in addition to the ease of hearing (the balance between the right and left hearing aids). Can also be adjusted.

(Normal use processing)
Next, a normal use process when the user uses the hearing aid 10 after the above adjustment process will be described. FIG. 8 is a flowchart of normal use processing. This process is realized by the control unit 17 of the hearing aid 10 executing a program prepared in advance.

  First, the control part 17 will read the separate auditory characteristic memorize | stored in the memory | storage part 16, if a user's power-on is detected (step S31) (step S32). As described above, the individual auditory characteristics stored in the storage unit 16 are characteristics generated based on the user's feeling information in the adjustment process.

  Next, the control unit 17 acquires the biological information of the user detected by the sensor 13 (Step S33), and corrects the individual auditory characteristics based on the biological information (Step S34). For example, when the knowledge that it is difficult to hear a sound having a specific frequency when the blood pressure is high is generally obtained, the control unit 17 determines the sound having the specific frequency based on the blood pressure included in the biological information. Modify individual auditory characteristics to increase the level of. In addition, when the knowledge that it is difficult to hear bass / treble when generally in an excited state is obtained, the control unit 17 performs blood pressure, pulse wave, heart rate, body temperature, sweating, etc. as biological information. Whether or not the user is in an excited state is determined based on the above, and if it is determined that the user is in an excited state, the individual auditory characteristic is corrected so as to increase the level of bass / treble.

  Then, the control unit 17 amplifies the external sound collected by the microphone 11 based on the individual auditory characteristics modified as necessary in step S34, and reproduces it from the speaker 12 (step S35). As a result, it is possible to reproduce sound with characteristics suitable for the state of mind of the user at that time.

  Next, the control part 17 determines whether the power supply of the hearing aid 10 was turned off (step S36). If the power is not turned off (step S36: No), the process returns to step S33. On the other hand, when the power is turned off (step S36: Yes), the normal use process ends.

(Standard biometric master information update process)
Next, the update process of the standard biometric master information in the server 30 will be described. As shown in FIG. 6, when adjustment processing of the hearing aid 10 is performed, individual biometric master information including user biometric information, usability information, and individual auditory characteristics at that time is provided to the server 30. In this way, the individual biometric master information of a large number of users all over the world is collected by the server 30, and the server 30 analyzes this information and corrects the standard biometric master information including standard auditory characteristics as necessary. be able to. For example, the control unit 32 of the server 30 corrects the standard auditory characteristic based on the auditory characteristic obtained by averaging the individual auditory characteristic included in the newly acquired individual biometric master information at regular intervals. be able to. Thereby, the standard auditory characteristic memorize | stored in standard biometric master DB33 can be updated appropriately.

10 Hearing Aid 20 Information Terminal 30 Server 32 Standard Biomaster DB
33 Individual biological master DB

Claims (8)

A hearing aid system comprising a hearing aid, an information terminal, and a server,
The server
For each user profile, a database for storing standard auditory characteristic information indicating the standard auditory characteristic of the user corresponding to the profile;
Standard auditory characteristic information transmitting means for receiving a user's profile from the information terminal and transmitting standard auditory characteristic information matching the profile to the information terminal,
The information terminal
Profile transmission means for acquiring the user profile and transmitting it to the server based on user input;
Standard auditory characteristic information transfer means for receiving the standard auditory characteristic information from the server and transmitting it to the hearing aid;
Based on the user's input, usability information acquisition means for acquiring usability information indicating the user's evaluation of the test sound reproduced by the hearing aid;
An individual auditory characteristic information generating means for correcting the standard auditory characteristic information based on the feeling of use information, generating individual auditory characteristic information indicating the auditory characteristic of the user, and transmitting the information to the hearing aid;
The hearing aid is
Receiving means for receiving the standard auditory characteristic information and the individual auditory characteristic information from the information terminal;
A test sound reproducing means for reproducing a test sound based on the standard auditory characteristic information;
Based on the individual auditory characteristic information, reproduction means for correcting and reproducing external sound;
A hearing aid system comprising: The hearing aid is
A storage unit for storing the individual auditory characteristic information of the user;
A sensor for detecting the biological information of the user;
The hearing aid system according to claim 1, further comprising: a correcting unit that corrects the individual auditory characteristic information based on biological information detected by the sensor. The hearing aid transmits the individual auditory characteristic information and the biological information to the information terminal,
The information terminal transmits the individual auditory characteristic information, the biological information, and the usability information to the server,
The server includes a standard auditory characteristic information correcting unit that corrects the standard auditory characteristic information based on the individual auditory characteristic information, the biological information, and the usability information received from the information terminal. Item 3. The hearing aid system according to item 2.   The hearing aid system according to claim 2 or 3, wherein the biological information includes at least one of blood pressure, pulse wave, pulse, heart rate, body temperature, and sweating.   The hearing aid system according to any one of claims 1 to 4, wherein the profile of the user includes at least one of the race, nationality, gender, age, or pre-existing condition of the user. A storage unit for storing individual auditory characteristic information indicating a user's auditory characteristic;
A sensor for detecting the biological information of the user;
Correction means for correcting the individual auditory characteristic information based on biological information detected by the sensor;
Based on the individual auditory characteristic information, reproduction means for correcting and reproducing external sound;
A hearing aid characterized by comprising:   The hearing aid according to claim 6, wherein the biological information includes at least one of blood pressure, pulse wave, pulse, heart rate, body temperature, and sweating. A program executed by a hearing aid including a storage unit that stores individual auditory characteristic information indicating a user's auditory characteristic, a sensor that detects biological information of the user, and a computer,
Correction means for correcting the individual auditory characteristic information based on biological information detected by the sensor,
Reproducing means for correcting and reproducing external sound based on the individual auditory characteristic information,
A program for causing the computer to function as: