JP4525135B2 - Biological information management system - Google Patents

Description

  The present invention relates to a biological information management apparatus and a biological information management system that acquire biological information from a human body and perform various services based thereon.

  Various devices that detect biological information such as pulse and blood pressure and are useful for health management have been developed. For example, Patent Document 1 describes the following system. First, the appearance of the cared person is photographed with a camera, medical measurement is performed on the cared person using a medical device for measurement, and the information is transmitted to the server site via the Internet. Then, the server site determines whether there is an abnormality based on the information sent, and if it is determined that there is an abnormality, calls a care worker and dispatches it to the care recipient. According to the system described in Patent Document 1, the care recipient is supported for health and safety by a care worker dispatched by the server site.

Moreover, in patent document 2, the performance data transmitted by the server is distributed so that the person who is the subject of the measurement of biological information can perform measurement in a relaxed state, and automatic performance based on the performance data is performed. I collect biological information while I am. More specifically, the user plays a musical instrument in accordance with the automatic performance, and the user is measured during the performance. Then, the server performs a diagnosis from the collected biological information, and transmits a diagnosis result and advice to the user.
JP 2003-44592 A Japanese Patent Laid-Open No. 14-73819

  As described above, in the conventional apparatus, the exchange of information is stopped between the user and a predetermined server. Therefore, it is possible to provide only a service that processes the biometric information of the user in the site and presents the processing result to the user. However, there are various services desired by users, and it has been desired to develop a system that can respond to these services.

  The present invention has been made in view of the above-described circumstances, and provides a biometric information management system capable of expanding the range of use of a user's biometric information and thereby expanding the service provided to the user. With the goal.

In order to solve the above-described problems, the present invention provides: (a) an operation element that outputs an operation signal according to an operation by a human body, music data storage means that stores a plurality of music data, and an operation output by the operation element. According to the signal, according to the performance parameter determining means for determining the performance parameter for performing the musical tone control of the musical sound signal, the music data read from the music data storage means, and the performance parameter determined by the performance parameter determining means An electronic musical instrument body having a musical sound generating unit for generating a musical sound signal and playing a song, (b) a presentation means for presenting instruction information suitable for function recovery of the human body operating the operation element, and the electronic musical instrument The performance parameter is acquired from the body, and the acquired performance parameter is used as biometric information of the human body together with a music ID indicating a music played by the electronic musical instrument body. A user terminal device having output means for outputting via a network, and (c) receiving means for receiving the biometric information and the song ID transmitted from the user terminal device via the network, The standard data storage means for storing standard data, which is standard data for musical tone control, and the received biometric information are compared with the standard data for the song indicated by the received song ID. Diagnosis means for diagnosing the human body corresponding to the information, and generating the guidance information based on the result of the diagnosis performed by the diagnosis means, and transmitting the generated guidance information to the user terminal device And a processing terminal device having instruction information transmitting means to be presented to the device .

The present invention also provides (a) a musical instrument body that generates musical tones according to an operation by a human body and plays a song, and (b) a presentation means that presents instruction information suitable for restoring the function of the human body that operates the musical instrument body. And an output means for acquiring a signal corresponding to an operation on the musical instrument body and outputting the acquired signal as biological information of the human body together with a music ID indicating a music played by the musical instrument body via a network. (C) receiving means for receiving the biometric information and the song ID transmitted from the user terminal device via a network, and standard data for tone control for each song Corresponding to the biometric information by comparing the standard data storage means for storing certain standard data, the received biometric information, and the standard data for the song indicated by the received song ID A diagnostic unit for diagnosing the human body, and generating the guidance information based on a result of the diagnosis performed by the diagnostic unit, transmitting the generated guidance information to the user terminal device and presenting it to the user terminal device And a processing terminal device having instruction information transmission means.

Further, in the above, identification information including a service providing terminal device that communicates with the processing terminal device via a network, and the user terminal device attaches identification information for identifying a user when outputting the biological information The service providing terminal device is based on the frequency at which the processing terminal device receives the biological information from the user terminal device, the regularity of the received date and time, or the result of the diagnosis using the biological information. It is preferable to have service setting means for setting a service for the user indicated by the identification information.

In the above, the processing terminal device includes: a mileage data generating unit that generates mileage data based on a frequency of receiving the biological information from the user terminal device or an amount of the biological information; and the mileage data generating unit It is preferable to have mileage data storage means for storing the generated mileage data in association with the identification information.

In the above, it is preferable that the diagnosis unit compares the received biological information with biological information different from the biological information received in the past, and diagnoses the human body corresponding to the biological information. It is. Further, in the above, the instruction information transmitting means generates, as the instruction information, a score representing a song suitable for restoring the function of the human body or a symbol displayed on the score, and the generated instruction information is transmitted to the user terminal device. And the presenting means may display the instruction information transmitted from the instruction information transmitting means.

  According to the present invention, a measurement subject of biological information can be set to transmit the measurement result or analysis result (diagnosis result) to an arbitrary partner. Therefore, not only a one-to-one service with a specific processing apparatus (such as a server) but also a wider service can be received. For example, it is easy to expand to receive services from an insurance company or a caregiver, and relatives and acquaintances can be easily set as emergency contacts.

[A. First Embodiment]
FIG. 1 is a block diagram showing the configuration of the first embodiment of the present invention. In the figure, reference numeral 1 denotes a biological information collecting apparatus that collects biological information from a user A. In the case of this embodiment, the biological information collection device 1 includes a blood pressure sensor S1, a pulse wave detection sensor S2, and a heart rate detection sensor S3, and these sensors are attached to the user A. The blood pressure data, pulse wave data, and heart rate data detected by the blood pressure sensor S1, the pulse wave detection sensor S2, and the heart rate detection sensor S3 are supplied from the biological information collection device 1 to the user terminal device 2.

  The user terminal device 2 includes a CPU, a ROM that stores programs used by the CPU, a RAM that is a work area of the CPU, an operation unit such as a keyboard, a monitor that performs various displays, and the like. This user terminal device 2 is operated by the user A and communicates with the processing server 3 via the Internet.

The processing server 3 is a server that performs various processes, and has a configuration shown in FIG. In FIG. 2, 5 is a CPU that controls each part of the apparatus, 6 is a ROM that stores programs and the like used by the CPU 5, and 7 is a RAM that is used as a work area of the CPU. Reference numeral 8 denotes a communication interface for processing communication with the Internet. Reference numeral 10 denotes a diagnostic information storage unit that stores data for performing various diagnoses based on biological information and guidance text (for example, text for calling attention or text indicating advice) according to the diagnostic result.
Reference numeral 11 denotes a user information storage unit, in which a user file UF is set for each user. Various files are set in the user file UF as shown in the figure.

  First, the user information file F1 is a file in which information related to the user is stored, and the user name, address, user identifier UID for identifying the user, and the like are stored. The diagnosis result file F2 is a file in which diagnosis results for the user, biometric information of the user, and the like are stored. The transmission destination file F3 is a file in which a diagnosis result about the user and a mail address of a partner to which the biological information is transmitted are stored, and a single address or a plurality of addresses are stored. The transmission condition file F4 is a file in which transmission conditions such as what kind of data is transmitted at what timing for each address stored in the transmission destination file F3 are stored. For example, the transmission timing and the content to be transmitted are stored such that only heart rate data is transmitted once a day at 5 pm, or heart rate data, blood pressure data, and diagnosis results thereof are transmitted at 5 pm every Friday. .

  Next, 20 shown in FIG. 1 is a service providing terminal device used by a trader who mediates various services based on the user's biological information and diagnosis results. The service providing terminal device 20 communicates with the processing server 3 via the Internet. Reference numeral 25 denotes a service enforcement unit that provides a direct service to the user, and performs various services in response to a contact from a trader operating the service providing terminal device 20.

In the case of the present embodiment, the service enforcement unit 25 includes a nursing care company 25a that performs nursing care, a counselor 25b that provides various health advices, a music therapist 25c that performs treatment using music, and an insurance company 25d.
Further, 30 shown in FIG. 1 is a B terminal owned by Mr. B who is a close relative of the user A, and can communicate with the processing server 3 via the Internet.

  Next, the operation of this embodiment configured as described above will be described. First, the user A accesses the processing server 3 using the user terminal device 2 and applies for health care. The processing server 3 transmits a predetermined application screen to the user terminal device 2 and prompts the user A to input items necessary for the application. At this time, the processing server 3 transmits the user identifier UID and prompts the input of a password. When a password is input from the user terminal device 2, the CPU 5 of the processing terminal 3 generates a user file UF for the user A in the user information storage unit 11 shown in FIG. 2, and the user information file F1 contains the user. Write the identifier UID and password. The CPU 5 also writes the name, address, contact information, etc. of the user A input from the user terminal device 2 in the user information file F1.

Next, the CPU 5 inquires of the user terminal device 2 what kind of health management service is desired. The inquiry is made by displaying the course name of the health management service on the user terminal device 2 and selecting it.
When a course name is selected from the user terminal device 2 (for example, stress relieving course, health monitoring course, diet course, insurance management, etc.), the CPU 5 stores course identification data for identifying the selected course in the user information file F1. Write. The selection may be two or more.

Next, the CPU 5 prompts the input of the other party to which the biological information of the user A, the diagnosis result, etc. are transferred. In this example, it is assumed that user A has registered the email address of B who is a close relative. In addition, the CPU 5 automatically registers an e-mail address of a trader of the service providing terminal device 20 that mediates various services.
Further, the CPU 5 transmits detailed items of the service content to the user terminal device 2, generates a transmission condition based on the contents returned from the user terminal device 2, and writes the generated transmission condition in the transmission condition file F4. For example, a condition such as “send a mail to Mr. B when an abnormality is detected from the biological information of user A” is written.
The above processing may be performed by Mr. B using the terminal B instead of the user A, for example.

  After the above initial registration process is completed, health management starts for user A. When the user A wears the blood pressure sensor S1, the pulse wave detection sensor S2, and the heart rate detection sensor S3 on the body and performs measurement, the measurement results from these sensors are collected in the information collection device 1 and are used as biological information. It is supplied to the user terminal device 2. The user terminal device 2 transmits the supplied biological information to the processing server 3. In the processing server 3, when the biological information is received via the communication interface 8, the CPU 5 attaches data indicating the date and time with respect to the biological information and writes it in the diagnosis result file F <b> 2 of the user A. Thereafter, every time biometric information is transmitted from the user terminal device 2, the biometric information of the user A is accumulated in the diagnosis result file F2.

  Further, the CPU 5 diagnoses the biological information by referring to the diagnostic data in the diagnostic information storage unit 10. The diagnosis algorithm is described in a program stored in the ROM 6. As diagnosis, for example, when data indicating a normal value range, a low blood pressure range, and a high blood pressure range of blood pressure values is stored in the diagnosis information storage unit 10, the user A can be referred to by referring to these data. Diagnose blood pressure levels. The diagnosis result is stored in the diagnosis result file F2 after data indicating date and time is attached.

Further, the CPU 5 reads out text data of comments and advice stored in the diagnostic information storage unit 10, transmits it to the user terminal device 2, and notifies the user A. For example, when the user A is diagnosed with high blood pressure, the diagnosis information storage unit 10 responds to the high blood pressure by saying, “Blood pressure is high. If a comment is stored, it is read out and transmitted to the user terminal device 2. This comment is also stored in the diagnosis result file F2 together with the diagnosis result.
As described above, the biological information, diagnosis results, and comments of the user A are accumulated in the diagnosis result file F2.

  Then, the CPU 5 performs the following diagnosis process on the information accumulated in the diagnosis result file F2. For example, when the blood pressure value gradually increases, a comment is transmitted to the user terminal device 2 according to the degree of increase. Processing for such accumulated data is also performed with reference to diagnostic data in the diagnostic information storage unit 10. That is, the CPU 5 determines whether the change tendency of the blood pressure value data in the diagnosis result file F2 is substantially constant, rising or falling, and stores the degree of the change in the diagnosis information storage unit 10. Evaluate based on the standard value. Then, a comment corresponding to the evaluation result is read from the diagnostic information storage unit 10 and transmitted to the user terminal device 2. Further, the CPU 5 performs the same diagnosis as described above for changes in pulse and pulse wave values accumulated in the diagnosis result file F2.

  Further, the CPU 5 refers to the transmission condition file F4 as appropriate, and when the condition is met, transmits the biometric information, diagnosis result, comment, etc. in the diagnosis result file F2. For example, if the condition “send a mail to Mr. B when an abnormality is detected from the biometric information of user A” is written in the transmission condition file F4, the blood pressure of user A rises abnormally according to the diagnosis result of the CPU 5 When it is determined that the blood pressure value is determined, the blood pressure value is transmitted to Mr. B's address along with a comment indicating that. Thereby, Mr. B who operates the B terminal 30 can know the abnormality of the user A and can immediately go to the care of the user A. Note that Mr. B's mail address is recognized with reference to the destination file F3.

  In addition, as a transmission condition to the service providing terminal device 20 in the transmission condition file F4, a condition that “send the biometric information of the user A and the comment on it collected at 5:00 every week on that week” is described. For example, the CPU 5 extracts the corresponding information from the diagnosis result file F2 in accordance with the description of the transmission condition file F4, and transmits the extracted information to the service providing terminal device 20.

In the service providing terminal device 20, the biometric information and the comment transmitted from the processing terminal 3 are transferred to the enforcer corresponding to the service set by the user A among the service enforcers of the service enforcement department 25. Alternatively, a necessary service may be requested instead of information transfer. This request may be transmitted from the service providing terminal device 20 by communication, or may be notified by telephone contact or the like from a person in charge of a business where the service providing terminal device 20 is installed.
Here, an example of processing when insurance service is set for the insurance company 25d will be described. In this case, assuming that the transmission condition file F4 describes a condition that “the biometric information of the user A collected at 5 o'clock every week on Friday and the comment thereto are transmitted”, the information in the insurance company 25d In the terminal device 25d-T that receives the biometric information and comments of the user A are accumulated every week. Here, the insurance company incorporates a program in the terminal device 25d-T in advance and associates it with a service that gives priority to discounts on insurance premiums or the like according to the frequency of biometric information or health management.

  For example, if the degree of health grasped from the biometric information is better than that at the time of the contract, a program for reducing the insurance premium or providing information recommending a change to a cheaper contract content is set. In addition, if user A frequently collects biometric information or collects biometric information at regular times, such as when he / she is highly interested in health and is performing health management in daily life, insurance Services such as reducing charges may also be provided. In this case, it is programmed by setting evaluation data (or an evaluation function) in advance for how frequently measurement is performed for each item of biological information and the regularity of the date and time when the measurement is performed. In addition, the evaluation is automatically performed based on this program.

  Moreover, since the transmission conditions described in the transmission condition file F4 can be freely set according to the contract content selected by the user A, it is possible to set a service other than the insurance company mentioned above, or combine services by a plurality of enforcers. You can also. For example, depending on the health condition of the user A, the counselor 25b can visit or make a consultation by telephone, and a service in which a caregiver is dispatched from the care company 25a can be performed. Furthermore, it is possible to receive music therapy by the music therapist 25c and to combine the various aspects described above.

  In the above-described embodiment, since the service providing terminal device 20 provides information and requests for services to various service enforcers in the service enforcement unit 25, the service providing terminal device 20 collectively performs the service provision. There is an advantage that a plurality of types of services can be managed and provided. On the other hand, instead of this, biometric information, comments, or a service request may be transmitted directly from the processing server 3 to the service executor (see the dashed line in FIG. 1). In this case, the description of the transmission condition file F4 and the transmission destination file F3 may be set in such a manner.

  Moreover, although 1st Embodiment mentioned above was embodiment in which the user A sets a service independently, it can also manage several users collectively as one organization. That is, as shown in FIG. 3, the biometric information of each person is collected by the biometric information collection device 1 shared by a plurality of users a, a... And the biometric information is transmitted from the user terminal device 2. In this case, biometric information is transmitted with a user identifier UID identifying the users a, a. In such an aspect, when receiving the service of the insurance company 25d, the user terminal device 3 can be set to function as a group window.

  As described above, in the above-described embodiment, the user can arbitrarily set the transmission destination and transmission condition (time and transmission content) of the biometric information and the diagnosis result, so that various services according to the user's desire can be provided. It can be set finely. Further, in the processing server 3, conditions and destinations can be set according to the service mode selected by the user, and these settings can be programmed in advance. It is easy to propose and to cooperate with the enforcer.

[B. Second Embodiment]
Next, a second embodiment will be described. In the second embodiment, the biological information collecting apparatus 1 in the first embodiment is replaced with the electronic musical instrument apparatus shown in FIG. 4, and the other configurations are the same as those in FIG.
The device shown in FIG. 4 is an electronic device that controls a musical sound according to its operation when the cylindrical operator 50 is swung or tilted. In this case, performance parameters for performing musical tone control are used as biological information. Use.

  In FIG. 4, the part enclosed with the dashed-dotted line has shown the external shape of the operation element 50, and is formed in the substantially cylindrical shape like illustration. The operator controls the performance by grasping the operator 50 and swinging or tilting it.

  The circuit configuration of the operation element 50 is as shown in the block diagram of FIG. A CPU 50a shown in the figure operates based on a program in the memory T1. The memory T1 includes a ROM that stores programs and the like, and a RAM that the CPU 50a uses as a work area. The MS is a motion sensor, and includes a speed sensor and an acceleration sensor that detect the movement of the operation element 50 in the three-axis directions of X, Y, and Z. The output signal of the motion sensor MS is output from the transmission / reception circuit T2 via the antenna TA. T6 is an operation switch for instructing start of operation, and T3 is a display unit for performing various displays.

  Reference numeral 100 denotes a musical sound generating device that generates musical sounds, and includes a wireless communication unit 122 that receives an output signal of the motion sensor MS output from the operation element 50. The operation signal received by the wireless communication unit 122 is analyzed by the information analysis unit 123, where it is recognized what operation is being performed. For example, an operation state such as an operation of waving the operating element 50, an operation of rotating the operation element 50, an operation of changing the tilting direction, or the like is recognized.

A musical sound generator 125 stores a plurality of pieces of music data in advance, and performs automatic performance by reading the music data. During this automatic performance, performance parameters such as the tempo, volume, and tone of the music are supplied from the performance parameter determination unit 124, and the tone generation unit 125 generates a tone signal corresponding to the supplied performance parameters. . The performance parameter determination unit 124 determines performance parameters according to the analysis result supplied from the information analysis unit 123. Reference numeral 126 denotes an audio device including an amplifier and a speaker. The musical sound signal generated by the musical sound generator 125 is amplified and emitted by the audio device 126.
The interface 127 outputs the musical sound parameter determined by the musical sound parameter determination unit 124 to the user terminal device 2 (see FIG. 1) as biometric information.

In the configuration described above, for example, when volume control is performed such that the volume increases as the operator 50 is swung faster, the relationship between the analysis result in the information analysis unit 123 and the performance parameter generated by the performance parameter determination unit 124 is as described above. It sets beforehand so that it may become correspondence like.
After the above setting, the musical tone generator 125 starts playing the performance data stored therein. In this case, performance data to be played can be selected as appropriate.

Then, the user A who is an operator shakes the operator 50 while listening to the automatic performance. When the information analyzing unit 123 detects the motion of the operation member 50 being shaken, the information analyzing unit 123 analyzes the speed and outputs it to the performance parameter determining unit 124. The performance parameter determination unit 124 generates a performance parameter corresponding to the analysis result, that is, a performance parameter corresponding to the swing speed of the operator 50 and outputs the performance parameter to the musical sound generation unit 125. As a result, musical tone control is performed in which the volume increases as the operator swings the operating element 50 earlier, and the volume decreases as the operator swings later.
On the other hand, the interface 127 supplies the performance parameter determined by the performance parameter determination unit 124 and the song ID indicating the song being played to the user terminal device 2, and the user terminal device 2 adds the user identifier UID to the supplied information. And output to the processing server 3.

  The processing server 3 performs the following processing. First, the processing server 3 receives performance parameters as biometric information and writes them together with the song ID in the user A diagnosis result file F2. Thereafter, in the same manner, performance parameters are written together with the song ID every time the user A performs.

Next, the CPU 5 of the processing server 3 diagnoses the performance parameters stored in the diagnosis result file F2. This diagnosis is performed as follows.
First, from the performance parameters and the song ID stored in the diagnosis result file F2, it is detected what volume control has been performed on the song. On the other hand, the diagnostic information storage unit 10 stores standard data for volume control for a plurality of songs in advance. For example, if it is a common performance for a song to increase the volume at the climax of the song and decrease the volume at the end of the song, the volume control corresponding to such performance Such standard data is stored.
The CPU 5 compares the volume control of the user A read from the diagnosis result file F2 with the standard data read from the diagnosis information storage unit 10 using the music ID as a key, and makes a diagnosis based on the distance from the standard data. For example, when the volume of the song is almost not increased, it is diagnosed that “the power is weakening” or that there is a mental illness in which the nuance of the song cannot be felt. This diagnosis result is accumulated in the diagnosis result file F2 as in the first embodiment.

The stored performance parameters and diagnosis results are transmitted to the transmission destination described in the transmission destination file F3 in accordance with the conditions described in the transmission condition file F4, so that the user A can receive various services. The mode of the service itself is the same as in the first embodiment.
The above is the diagnosis for the volume control, but the same diagnosis as described above can be performed for the tempo and tone color control of the music. Physical health management and mental health management based on biological information obtained by performing such a performance are particularly suitable for music therapy. In this case, if the data about what kind of music therapy was performed is stored in the user information file together with the date and time data, the effect on the treatment can be known, and if this is carried out for many users over a long period of time, highly reliable clinical Data can be collected.
In the above description, the performance parameter is output from the musical sound generating device 100. Instead, the analysis result (information indicating movement) of the information analysis unit 123 is output, and the analysis result is included in the analysis result. Diagnosis may be performed based on this.

In the diagnosis, the diagnosis may be performed not only by comparison with the standard data in the diagnosis information storage unit 10 but also by comparison with past data in the diagnosis result file F2. For example, in the past, if the operator 50 was swung with a certain strength, but the value gradually decreased (or the average value decreased), “muscle strength has decreased” Can also be diagnosed.
This type of electronic musical instrument is described in, for example, Japanese Patent Application Laid-Open No. 14-73819.

[C. Modified example]
As mentioned above, although embodiment of this invention was described, this invention is not limited to embodiment mentioned above, It can implement with another various form.

(Modification 1)
In the second embodiment described above, the electronic musical instrument is used as the biological information collecting apparatus. However, the biological information can be collected even if an instrument other than the electronic musical instrument is used.
For example, as shown in FIG. 5, the intensity of a musical sound signal (a signal detected by the pickup 400 a) from the electric guitar 400 is detected by a signal intensity detector 401, and the detection result is transmitted from the user terminal device 2 to the processing server 3. And accumulate in the diagnosis result file F2. Then, diagnosis such as “energy is maintained” and “force is weak” may be performed from the transition of the signal intensity recorded in the diagnosis result file F2.

  Similarly, in the band neon 410 shown in FIG. 6, a sensor 410a for detecting the blowing pressure is provided inside, and the sensor signal is processed in the same manner as described above. The violin 420 shown in FIG. 7 and the acoustic guitar 430 shown in FIG. 8 can also be provided with sensors 420a and 430a for detecting their generated sounds, and the same processing as described above can be performed based on the sensor output. In the case of a wind instrument such as the saxophone 500 shown in FIG. 9, a breath sensor 500b for detecting the player's breath is provided in the mouthpiece 500a, and the same processing as described above is performed for the strength of the breath. You can also. In the modes shown in FIGS. 6 to 9, sensors for detecting generated sounds and the like are incorporated in these musical instruments. However, this may be incorporated at the time of manufacture, and is detachable for fixing the sensor to the instrument body. An attachment may be attached.

(Modification 2)
In the first modification described above, biological information is collected using a musical instrument and diagnosis is performed based on the collected biological information. However, rehabilitation guidance may be performed based on the collected information.
For example, the musical score shown in FIG. 10 may be displayed on the user terminal device 2 and performance guidance suitable for rehabilitation may be performed. If user A wants to restore the lung motor function, if user A plays a saxophone, then he / she will perform an instruction to activate the lung function of user A by displaying an accent symbol or a crescendo symbol on the displayed score. can do. In this case, the user A can receive guidance for functional recovery without being aware of rehabilitation while concentrating on the performance of the music.
The same applies to other musical instruments. If rehabilitation of finger movement is performed, various modifications such as gradually increasing the tempo or presenting a song with many notes are possible.
When such processing is performed, what kind of content (musical score and advice) is to be presented for the diagnosis result of the user A may be stored in the diagnostic information storage unit 10 in advance. The CPU 5 may read the presentation content corresponding to the diagnosis result from the diagnostic information storage unit 10 as appropriate and transmit it to the user terminal device 2.

(Modification 3)
In the first embodiment, a sensor as a medical measuring device (medical measurement type biological information generating means) that directly detects blood pressure and pulse is used. In the second embodiment and the first and second modifications, the electronic musical instrument or the natural musical instrument is used. Although the biometric information is detected using, it may be carried out in a combined form. For example, a blood pressure sensor or the like may be attached to an instrument such as a guitar, information on the blood pressure sensor may be collected together with a musical sound signal when the instrument is being played, and these may be transmitted to the processing server 3.

(Modification 4)
In each of the above-described embodiments and modifications, the diagnosis is performed based on the collected biological information. However, since the biological information is generated by moving the body, it may be aggregated as exercise performance data. Good. Therefore, it is possible to determine the amount of exercise and the regularity of the exercise, and if the evaluation is high, it can be connected to a service such as reducing the insurance premium. That is, if it can be determined that the exercise for prevention is performed, the probability of getting ill will be lowered, so that the service of reflecting in the insurance premium can be performed.

(Modification 5)
Since the user identifier UID is transmitted together with the biometric information from the user terminal device 2, the processing terminal device 3 measures the frequency and amount of how much measurement has been performed for each user identifier UID, and scores it And may be accumulated in the user information file F1 as mileage information. And you may make it perform the discount service according to the score of this mileage information, a present, etc. Also, the diagnosis result (analysis result) may be scored and used as mileage information.

(Modification 6)
Sensors that detect biological information include not only those that detect the physical changes of the human body described above (blood vessel movements and movements associated with performances), but also, for example, chemical changes in the human body such as saliva stress sensors. What to detect can also be used.

(Modification 7)
When the performance signal is used as the biological information, the performance signal itself may be used as the biological information as in the above-described aspect, but time data may be added to the performance data and used as the biological information. In this case, since the time at which the performance was performed can be known, it is possible to determine the regularity of the performance (or the exercise performance when the performance is regarded as exercise). Furthermore, the performance signal itself can be processed by performing signal processing, and the processed information can be used as biological information.

Further, the performance signal may be temporarily stored on the musical instrument side without being directly supplied to the user terminal device 2. As the storage means in this case, it is desirable to use a memory card, IC card, flash memory, or the like that can be taken out from the musical instrument. Further, if the user identifier UID is stored in the storage means, it is suitable for a musical instrument used by many people. That is, in this case, the person who plays the instrument can use his / her storage means (such as a card) by attaching it to the instrument each time, thereby avoiding confusion with other people's data.
In addition, the identification code of the musical instrument manufacturer may be stored in the storage means. When various services (especially discounts, mileage services, etc.) are performed in the processing server, the correspondence can be changed for each manufacturer, such as providing the service only to a specific manufacturer.

(Modification 8)
In each of the above-described embodiments, the information described in the transmission condition file F4 is selected and transmitted from the biological information and diagnosis results stored in the diagnosis result file F2, but the CPU 5 transmits the transmission condition file. The diagnosis result and biological information may be transmitted in real time (without being stored in the diagnosis result file F2) according to the description content of F4.

It is a block diagram which shows the structure of 1st Embodiment of this invention. It is a block diagram which shows the structure of the process server 3 in the embodiment. It is a block diagram which shows the structural example in the case of making it respond | correspond to many users in the same embodiment. It is a block diagram which shows the structure of 2nd Embodiment of this invention. It is an external view at the time of using an electric guitar as a biometric information collection device. It is an external view at the time of using a band neon as a biometric information collection apparatus. It is an external view at the time of using a violin as a biometric information collection apparatus. It is an external view at the time of using an acoustic guitar as a biometric information collection device. It is an external view at the time of using a saxophone as a biometric information collection apparatus. It is a figure which shows an example of the score displayed on the user terminal device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Biometric information collection device (biological information collection means), 2 ... User terminal device, 3 ... Processing server (processing terminal device), 5 ... CPU (Analysis means: Transmission means: Mileage data generation) Means), 8 ... Communication interface (reception means), 10 ... Diagnostic information storage unit (analysis means), 20 ... Service providing terminal device (transmission destination), 25a ... Nursing care company (transmission destination) , 25b ... counselor (transmission destination), 25c ... music therapist (transmission destination), 25d ... insurance company (transmission destination), 30 ... B terminal (transmission destination), 50 ... operation Child (electronic musical instrument body), 100 ... Musical sound generator (biological information generating means), 400 ... Electric guitar (musical instrument body), 400a ... Pick-up (biological information generating means), 401 ... Signal intensity Detector (biological information generating means), 4 0 ... Bandoneon (musical instrument body), 410a ... Sensor (biological information generation means), 420 ... Violin (musical instrument body), 420a ... Sensor (biological information generation means), 430 ... Acoustic Guitar (musical instrument body), 430a ... sensor (biological information generating means), 500 ... saxophone (musical instrument body), 500a ... breath sensor (biological information generating means), UF ... user file, F1. -User information file (mileage data storage means), F2 ... diagnosis result file, F3 ... transmission destination file (address storage means), F4 ... transmission condition file (transmission condition storage means).

Claims (6)

(A) an operator for outputting an operation signal corresponding to an operation by a human body ;
Song data storage means for storing a plurality of song data;
Performance parameter determining means for determining a performance parameter for performing musical tone control of a musical tone signal in accordance with an operation signal output by the operator,
An electronic musical instrument body having a musical sound generating unit that generates musical sound signals according to the musical composition data read from the musical composition data storage means and the performance parameters determined by the performance parameter determination means, and performs the musical performance ;
(B) a presentation means for presenting instruction information suitable for function recovery of the human body that operates the operation element;
Output means for acquiring the performance parameters from the electronic musical instrument body and outputting the acquired performance parameters as biological information of the human body together with a music ID indicating a music played by the electronic musical instrument body via a network ; A user terminal device having
(C) receiving means for receiving the biometric information and the song ID transmitted from the user terminal device via a network ;
Standard data storage means for storing standard data, which is standard data for musical tone control for each song,
A diagnostic means for comparing the received biological information with the standard data for the song indicated by the received song ID, and diagnosing the human body corresponding to the biological information ;
A processing terminal device comprising: guidance information transmission means for generating the guidance information based on the result of the diagnosis performed by the diagnostic means, transmitting the generated guidance information to the user terminal device, and causing the user terminal device to present the guidance information. And a biological information management system comprising: (A) a musical instrument body that performs musical performance by generating musical sounds according to operations by the human body;
(B) presenting means for presenting instruction information suitable for function recovery of the human body operating the instrument body;
Output means for acquiring a signal corresponding to an operation on the musical instrument body, and outputting the acquired signal as biological information of the human body together with a music ID indicating a music played by the musical instrument body, via a network; A user terminal device;
(C) receiving means for receiving the biometric information and the song ID transmitted from the user terminal device via a network;
Standard data storage means for storing standard data, which is standard data for musical tone control for each song,
A diagnostic means for comparing the received biological information with the standard data for the song indicated by the received song ID, and diagnosing the human body corresponding to the biological information;
A processing terminal device comprising: guidance information transmission means for generating the guidance information based on the result of the diagnosis performed by the diagnostic means, transmitting the generated guidance information to the user terminal device, and causing the user terminal device to present the guidance information. When
A biological information management system comprising: Comprising a service providing terminal device that communicates with the processing terminal device via a network;
The user terminal device has identification information adding means for attaching identification information for identifying a user when outputting the biometric information,
The service providing terminal device includes:
Service to the user indicated by the identification information based on the frequency at which the processing terminal device receives the biological information from the user terminal device, the regularity of the received date and time, or the result of the diagnosis using the biological information biological information management system according to claim 1 or 2, characterized in that it has a service setting means for setting a. The processing terminal device
Mileage data generating means for generating mileage data based on the frequency of receiving the biological information from the user terminal device or the amount of the biological information;
Mileage data storage means for storing the mileage data generated by the mileage data generation means in association with the identification information.
The biological information management system according to claim 3. The diagnostic means compares the received biological information with biological information different from the biological information received in the past, and diagnoses the human body corresponding to the biological information
The biological information management system according to any one of claims 1 to 4, wherein The instruction information transmitting means generates a musical score representing a song suitable for function recovery of the human body or a symbol displayed on the musical score as the instruction information, and transmits the generated instruction information to the user terminal device,
The presenting means displays the instruction information transmitted from the instruction information transmitting means.
The biological information management system according to any one of claims 1 to 5, wherein

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