JP2019150139A - Biological data processing system and biological data acquisition device - Google Patents

Abstract

To provide a biological data processing system in which a biological data acquisition device for acquiring a user's biological data and transmitting it is connected to a plurality of analysis processing devices for receiving the biological data and performing analysis processing through a network.SOLUTION: When a user uses a toilet, a biological data processing system 1 generates biological data on the user by a sensor part of a biological data acquisition device 2, identifies the user by an individual identification sensor, and transmits the biological data to a transmission destination associated with the user. In the biological data processing system 1, the biological data acquired from each user can be transmitted to an analysis processing device 3 of a health support service that the user contracts with for analysis, and the acquired analysis result can be checked by the user, and transmitted to a medical institution server device 5 for storage.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a biometric data processing system and a biometric data acquisition device, and is suitable for application to a biometric data processing system that acquires and analyzes biometric data of a user, for example.

  2. Description of the Related Art Conventionally, as a mechanism for confirming the health status of each individual, a health examination for each individual to receive medical examinations has been widely performed in medical institutions. However, since this health check is performed at a relatively low frequency, for example, once a year, it is difficult to detect daily changes in physical condition of each individual.

  Therefore, for example, by providing a sensor or the like for acquiring the user's biometric data at the user's home and transmitting the biometric data acquired by the sensor or the like to a medical institution or the like, A medical information system for grasping a detailed health condition based on the service and a service using the medical information system have been proposed (see, for example, Patent Document 1).

JP 2001-258857 A (FIG. 1 etc.)

  By the way, in the medical information system having such a configuration, for example, it is conceivable to install a predetermined sensor in a toilet at the user's home and acquire biological data from the excrement of the user. In addition, for example, another family may be living at the user's home, and each family may use different services depending on the designation of their place of work or school.

  In this case, in the medical information system, each time biometric data is acquired by a sensor installed in a toilet, the biometric data is the biometric data of the person and to which medical information system should be transmitted. There is a problem that it is necessary to let the user and their family specify each time, which is very complicated. In other words, the medical information system has a problem that biometric data acquired in the toilet cannot be properly transmitted to an appropriate transmission destination.

  The present invention has been made in consideration of the above points, and based on the biometric data obtained from each user, the biometric data processing system and the biometric data acquisition apparatus that allow each user to easily use a desired service. Is to try to propose. In other words, the present invention intends to propose a biometric data processing system and a biometric data acquisition device that can appropriately transmit biometric data acquired in a toilet to an appropriate transmission destination.

  In order to solve this problem, in the biometric data processing system of the present invention, a biometric data acquisition device that acquires and transmits biometric data of a user and a plurality of analysis processing devices that receive biometric data and perform analysis processing are a network. The biometric data processing system is connected to each other through an identification unit that identifies a user as an identification user, a sensor unit that acquires the biometric data of the user, A storage unit that stores the analysis processing device as a transmission destination, a transmission destination acquisition unit that acquires a transmission destination associated with the identified user, and communication that transmits biometric data to the transmission destination acquired by the transmission destination acquisition unit Part.

  Moreover, in the biometric data acquisition device of the present invention, an identification unit that identifies a user as an identification user, a sensor unit that acquires biometric data of the user, and a plurality of analysis processing devices that receive biometric data and perform analysis processing A storage unit that stores one of them as a transmission destination of biometric data in association with the user, a transmission destination acquisition unit that acquires a transmission destination associated with the identified user, and a transmission destination acquired by the transmission destination acquisition unit And a communication unit for transmitting the biometric data.

  In the present invention, the biometric data acquisition apparatus acquires biometric data from a user, identifies the user, and transmits the biometric data to a destination analysis processing apparatus associated with the user in advance. Thereby, in this invention, even if it is a case where a biometric data acquisition device is used for a plurality of users, and the transmission destination of biometric data differs for every user, each biometric data acquired from each user is transmitted to each It can be sent to the destination and analyzed.

  ADVANTAGE OF THE INVENTION According to this invention, the biometric data processing system and biometric data acquisition apparatus which can make each user use each desired service easily based on the biometric data obtained from each user are realizable. In other words, according to the present invention, it is possible to realize a biological data processing system and a biological data acquisition apparatus that can appropriately transmit biological data acquired in a toilet to an appropriate transmission destination.

It is a basic diagram which shows the structure of a biometric data processing system. It is a basic diagram which shows the external appearance structure of a biometric data acquisition apparatus. It is a rough-line block diagram which shows the structure of a biometric data acquisition apparatus. It is a rough-line block diagram which shows the structure of an analysis processing apparatus. It is a rough-line block diagram which shows the structure of a medical institution server apparatus. It is a flowchart which shows a registration processing procedure. It is a basic diagram which shows the structure of a personal information database. It is a basic diagram which shows the structure of a transmission destination information database. It is a basic diagram which shows a biometric data processing sequence. It is a flowchart which shows a biometric data acquisition transmission process procedure. It is a flowchart which shows an analysis result presentation process procedure.

  Hereinafter, modes for carrying out the invention (hereinafter referred to as embodiments) will be described with reference to the drawings.

[1. Configuration of biological data processing system]
As shown in FIG. 1, a biological data processing system 1 according to the present embodiment includes a plurality of biological data acquisition devices 2 that acquire user's biological data, and a plurality of analysis processing devices 3 that perform analysis processing on the biological data. Are connected to each other via the network 4.

  The network 4 is, for example, the Internet, and can transmit or receive data between devices connected by wire or wireless. In this network 4, a unique address is assigned to each connected device, and by designating a destination address as data to be transmitted in the transmission source device, the data can reach the destination device. it can.

  The network 4 is also connected to a medical institution server device 5 installed in a predetermined medical institution MC. The medical institution MC is, for example, a hospital, and various medical measures are performed on patients by doctors and nurses, and a health checkup for general users is also performed.

  In this biological data processing system 1, a plurality of health support services are provided by a plurality of business operators that operate the analysis processing devices 3, respectively. For this reason, in the biometric data processing system 1, the user selects one of the operators and concludes a contract for providing health support services.

  In the biometric data processing system 1, when a contract for providing health support services is concluded between a user and a business operator, the biometric data of the user is acquired by the biometric data acquisition device 2 installed at the user's home or the like. Are transmitted to the analysis processing device 3, and the analysis processing device 3 performs analysis processing of the biological data. In addition to this, in the biological data processing system 1, the analysis result obtained by the analysis processing device 3 is transmitted to the medical institution server device 5 of the medical institution MC for storage and accumulation.

[1-1. Configuration of biometric data acquisition apparatus]
For example, as shown in FIG. 2, the biometric data acquisition apparatus 2 is installed in a toilet 10 such as a house, generates biometric data based on the excrement of a user who uses the toilet 10, and stores the biometric data in a network 4. The data is transmitted to the analysis processing device 3 via the route.

  Specifically, the biometric data acquisition device 2 includes, for example, a main body part 11 attached to a wall surface of a toilet 10 in a house, a sensor part 12 attached to a toilet of the toilet 10, a personal identification sensor 13 incorporated in a door knob of the toilet 10, and the like. And a human sensor 14 attached to the ceiling of the toilet 10.

  As shown in a schematic block configuration in FIG. 3, the biometric data acquisition apparatus 2 includes a control unit 21, a storage unit 22, a communication unit 23, a display operation unit 24, a memory card reading unit 25, and a sensor unit via a bus 20. 12, the personal identification sensor 13 and the human sensor 14 are connected to each other. Among these, the control unit 21, the storage unit 22, the communication unit 23, the display operation unit 24, and the memory card reading unit 25 are provided in the main body unit 11.

  The control unit 21 comprehensively controls the biometric data acquisition apparatus 2 and includes, for example, a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like (not shown). The control unit 21 executes various processes by reading a predetermined program from the ROM or the like by the CPU and executing the program while using the RAM as a work area.

  For example, the control unit 21 reads and executes a predetermined biometric data acquisition program to thereby execute a communication control unit 31, a display control unit 32, a sensor control unit 33, a registration processing unit 34, a personal identification processing unit 35, and a transmission destination determination unit. A plurality of functional blocks such as 36 and the preliminary analysis processing unit 37 are formed. Among these, the communication control unit 31, the display control unit 32, and the sensor control unit 33 control the communication unit 23, the display operation unit 24, and the sensor unit 12, respectively. The registration processing unit 34, personal identification processing unit 35, transmission destination determination unit 36, and preliminary analysis processing unit 37 will be described later.

  The storage unit 22 is a non-volatile information storage medium such as a hard disk drive or a flash memory, and stores various information. The storage unit 22 is provided with two databases (DB) such as a personal information database 41 and a transmission destination information database 42.

  The communication unit 23 is, for example, a wired LAN (Local Area Network) conforming to a standard such as IEEE (Institute of Electrical and Electronics Engineers) 802.3u / ab or a wireless LAN such as IEEE 802.11a / b / g / n / ac. And is connected to the network 4 via an information communication device such as a router (not shown).

  In addition, the communication unit 23 complies with a mobile communication standard such as 4G (4th Generation) or WiMAX (registered trademark), or a short-range wireless communication standard such as Bluetooth (registered trademark) or ZigBee (registered trademark). It also has a function as a compliant communication interface.

  The communication unit 23 adds information such as a destination to various data received from the control unit 21 under the control of the communication control unit 31 of the control unit 21, and packetization, multiplexing processing, or modulation processing. Etc., and transmit to the network 4. In addition, the communication unit 23 performs processing such as demodulation processing, demultiplexing processing, or depacketization on the signal or packet received from the network 4 under the control of the communication control unit 31, and extracts data. This is handed over to the control unit 21.

  The display operation unit 24 as a display unit is a touch panel in which a display panel such as a liquid crystal panel and a touch sensor are integrated, and is disposed on the surface of the main body unit 11. The display operation unit 24 displays various information using characters, symbols, figures, images, or the like based on the control of the display control unit 32 in the control unit 21. When the display operation unit 24 detects a touch operation by the user using the touch sensor, the display operation unit 24 notifies the control unit 21 that the input operation has been received from the user.

  For example, the display operation unit 24 displays a GUI (Graphical User Interface) format menu screen or input screen on which various options, buttons, and the like are displayed, and allows the user to touch the options, buttons, and the like. Menu operations and information input operations can be performed.

  The memory card reading unit 25 is a memory card slot compliant with a predetermined standard. When a memory card compliant with the standard is loaded, data and the like are read from the memory card and supplied to the control unit 21.

  The sensor unit 12 includes one or more types of sensors that acquire various physical quantities. Based on the control of the control unit 21, the sensor unit 12 measures a user's excrement, specifically urine, feces, and the like, acquires physical quantities representing these characteristics, and generates various data based on the physical quantities. To supply to the control unit 21.

  Specifically, the sensor unit 12 includes, for example, a urine sugar sensor, and measures sugar in urine to generate urine sugar data. The sensor unit 12 includes, for example, a urine pH sensor, and measures data of urine pH (hydrogen ion concentration in liquid) and liquidity (acidity, neutrality, or alkalinity) and generates data representing this. Furthermore, the sensor unit 12 includes, for example, a stool color sensor, and measures the stool color (black, red, or gray) and generates data representing the stool color. The sensor unit 12 includes, for example, an excretion odor sensor, measures components related to the odor of excrement (such as urine, feces, and release), and generates data representing them.

  The personal identification sensor 13 is a sensor that acquires identification data for identifying a user by individual, generates personal identification data based on various physical quantities obtained from the user, and supplies the personal identification data to the control unit 21. .

  Specifically, the personal identification sensor 13 includes a fingerprint sensor 51, for example. The fingerprint sensor 51 is incorporated in the door knob of the toilet 10, and when a user who wants to use the toilet 10 opens the door from the outside and enters the inside, the fingerprint sensor 51 acquires a fingerprint from the hand touching the door knob, Personal identification data representing the fingerprint is generated and supplied to the control unit 21.

  The personal identification sensor 13 includes a voiceprint sensor 52, for example. The voiceprint sensor 52 is constituted by, for example, a microphone and a voiceprint detection processing unit incorporated in the main body unit 11. When the user using the toilet 10 utters, the voiceprint sensor 52 converts the voice into a voice signal by a microphone, further extracts a phoneme from the voice signal by a voiceprint detection processing unit, detects a voiceprint corresponding to the voiceprint sensor 52, Personal identification data representing this voiceprint is generated and supplied to the control unit 21.

  The human sensor 14 as the use start detection unit and the use end detection unit detects, for example, whether there is a user in the toilet 10 using infrared rays or ultrasonic waves, and generates human detection data representing the detection result. To supply to the control unit 21. Incidentally, the human sensor 14 also supplies human data to a lighting device (not shown) provided in the toilet 10. The lighting device is configured to turn on the lighting when the user enters the toilet 10, and turn off the lighting after the user leaves the room.

[1-2. Configuration of Analysis Processing Device and Medical Institution Server Device]
Next, the configuration of the analysis processing apparatus 3 (FIG. 1) will be described. The analysis processing device 3 is composed of one or a plurality of server devices installed in a data center, for example, and is also called a cloud.

  As shown in a schematic block configuration in FIG. 4, the analysis processing device 3 has a configuration in which a control unit 61, a storage unit 62, and a communication unit 63 are connected to each other via a bus 60. The control unit 61 includes a CPU, a ROM, and a RAM (not shown), similar to the control unit 21 of the biological data acquisition apparatus 2, and reads and executes the analysis processing program from the storage unit 62, whereby the communication control unit 71, A plurality of functional blocks such as the main analysis processing unit 72 and the statistical data processing unit 73 are configured.

  Among these, the communication control unit 71 controls the communication unit 63 like the communication control unit 31 of the control unit 21 in the biometric data acquisition apparatus 2. The main analysis processing unit 72 performs predetermined main analysis processing on the biometric data obtained from the biometric data acquisition device 2 to obtain an analysis result. The statistical data processing unit 73 generates statistical data by performing predetermined statistical processing based on the analysis result obtained by the analysis processing unit 72. In this statistical processing, for example, statistical values such as an average value, standard deviation, and variance are calculated for each type of biological data. Further, in this statistical processing, statistical values are calculated after being classified according to various attributes relating to each user such as the sex, age, or region of the user.

  The storage unit 62 is a non-volatile information storage medium such as a hard disk drive or a flash memory, and stores various programs, various data, and the like. Further, the storage unit 62 includes a biometric data storage unit 81 for storing an analysis result that is a result of analyzing the biometric data transmitted from the biometric data acquisition device 2, and statistical processing based on the analysis result of the biometric data. A statistical data storage unit 82 or the like for storing the result of performing is provided.

  The communication unit 63 is an interface conforming to a wired LAN such as IEEE 802.3u / ab / an / ae, and is connected to the network 4 via a communication device such as a router (not shown). The communication unit 63 performs the same process as the communication unit 23 of the biometric data acquisition device 2. Specifically, the communication unit 63 performs packetization, multiplexing processing, modulation processing, or the like on various data received from the control unit 61 under the control of the communication control unit 71 of the control unit 61, and then performs networking. 4 to send. In addition, the communication unit 63 performs processing such as demodulation processing, demultiplexing processing, or depacketization on a signal or packet received from the network 4 under the control of the communication control unit 71, and extracts data. This is handed over to the control unit 61.

  On the other hand, the medical institution server device 5 as a data storage device has a configuration in which a control unit 91, a storage unit 92, and a communication unit 93 are connected to each other via a bus 90, as shown in a schematic block configuration in FIG. It has become. Similar to the control unit 21 of the biometric data acquisition apparatus 2, the control unit 91 includes a CPU, a ROM, and a RAM (not shown), and reads out and executes a program such as an accumulation processing program from the storage unit 92, thereby executing the accumulation process. Various processes such as these are executed.

  The storage unit 92 is a non-volatile information storage medium such as a hard disk drive or a flash memory, and stores various programs, various data, and the like. The communication unit 93 is an interface conforming to a wired LAN such as IEEE 802.3u / ab / an / ae, and is connected to the network 4 via a communication device such as a router (not shown). The communication unit 93 performs the same processing as the communication unit 23 of the biometric data acquisition device 2 and the communication unit 63 of the analysis processing device 3.

[2. registration process]
By the way, in the biometric data acquisition device 2, before starting the acquisition of biometric data from each user, various information regarding the user is registered in advance. Therefore, hereinafter, a registration processing procedure for registering information about the user by the biometric data acquisition apparatus 2 will be described with reference to the flowchart of FIG.

  However, here, it is assumed that a contract regarding provision of health support services has been completed between the user and the business operator in advance. Also, in this case, the user has received a memory card storing various information such as a unique user name assigned to the user and an address of the analysis processing device 3 (FIG. 1) from the business operator. And

  The control unit 21 (FIG. 3) of the biometric data acquisition apparatus 2 uses a predetermined menu screen displayed on the display operation unit 24, and when the user gives an operation instruction to start the registration process, the registration process procedure RT1 ( 6) is started, and the process proceeds to step SP1. In step SP1, the control unit 21 requests the user to input the user name and password by displaying a message such as “Please input user name and password” and a predetermined character input screen on the display operation unit 24. Move to next Step SP2. Incidentally, the user name and password input here are information for identifying each user in the biometric data acquisition apparatus 2, and are set separately from the user name and password used for using the health support service.

  In step SP2, the control unit 21 stores the user name and password input by the user in the personal information database 41 of the storage unit 22 by the registration processing unit 34 (FIG. 3), and proceeds to the next step SP3. As shown in FIG. 7, this personal information database 41 stores a user name and a password in association with a unique management ID, and stores a user name and a password input by the user, respectively. .

  In step SP3, the control unit 21 displays a predetermined authentication means designation screen on the display operation unit 24 to request the user to designate a means used for personal authentication when the toilet 10 is used. Control goes to step SP4. Here, as means that can be used for personal authentication, for example, “fingerprint” and “voiceprint” are prepared, and the user can specify whether to use each of them.

  Of these means, “fingerprint” means that the fingerprint sensor 51 provided on the door knob of the toilet 10 is used to detect and authenticate the user's fingerprint. “Voiceprint” means that the voice uttered by the user is collected by the microphone in the voiceprint sensor 52, the voiceprint is detected from the obtained voice, and authentication is performed. Incidentally, when neither “fingerprint” nor “voiceprint” is specified by the user, it means that the user is authenticated by inputting the user name and password when using the toilet 10, as in step SP1. To do.

  In step SP4, the control unit 21 determines whether “fingerprint” is designated by the user. If a negative result is obtained here, the control unit 21 proceeds to the next step SP6 without performing the fingerprint registration process. If a positive result is obtained in step SP4, the control unit 21 proceeds to the next step SP5 to perform fingerprint registration processing, and proceeds to the next step SP6.

  In the fingerprint registration process of step SP5, the control unit 21 displays a message such as “Please touch the fingerprint sensor of the doorknob” on the display operation unit 24, for example, and touches the fingertip to the user with the fingerprint sensor 51 (FIG. 2). Encourage them to. Subsequently, the control unit 21 acquires fingerprint data generated by the fingerprint sensor 51 based on the user's fingerprint. Further, the control unit 21 uses the registration processing unit 34 (FIG. 3) to store the fingerprint data as identification data with a predetermined file name stored in the storage unit 22 (FIG. 3) and the personal information database 41 (FIG. 7). The file name is registered in association with the management ID of the user.

  In step SP6, the control unit 21 determines whether or not “voice print” is designated by the user. If a negative result is obtained here, the control unit 21 proceeds to the next step SP8 without performing the fingerprint registration process. If a positive result is obtained in step SP6, the control unit 21 proceeds to the next step SP7 to perform voiceprint registration processing, and proceeds to the next step SP8.

  In the voiceprint registration process of step SP7, the control unit 21 displays a message such as “Please say your name” on the display operation unit 24, for example, and prompts the user to say his / her name. Subsequently, the control unit 21 collects the user's voice with the microphone of the voiceprint sensor 52, detects the voiceprint with the voiceprint detection processing unit, and generates voiceprint data. Further, the control unit 21 uses the registration processing unit 34 (FIG. 3) to store the voiceprint data as identification data with a predetermined file name stored in the storage unit 22 (FIG. 3) and the personal information database 41 (FIG. 7). The file name is registered in association with the management ID of the user.

  In step SP8, the control unit 21 requests the memory card reading unit 25 to insert a memory card by displaying a message such as “Please insert the memory card passed at the time of contract” on the display operation unit 24. The process proceeds to the next step SP9.

  In step SP9, the control unit 21 reads various information related to the health support service from the memory card, and registers them in the transmission destination information database 42 shown in FIG. 8 by the registration processing unit 34 (FIG. 3). Specifically, the control unit 21 reads out and registers various information such as a health support service user ID and password, and an address indicating a transmission destination of biometric data, specifically, a URL (Uniform Resource Locator), from the memory card. . At this time, the control unit 21 registers various information in association with the same management ID as the management ID assigned to the user in step SP2. Thereafter, the control unit 21 proceeds to the next step SP10 and ends the registration processing procedure RT1.

[3. Biological data processing sequence]
Next, a biometric data processing sequence in which the biometric data of the user is acquired and analyzed in the biometric data processing system 1 (FIG. 1) and notified to a necessary notification destination will be described with reference to the sequence chart of FIG. To do.

  First, the biometric data acquisition device 2 (FIGS. 2 and 3) starts the routine RT2, and proceeds to the first step SP21. In step SP21, the biometric data acquisition device 2 acquires biometric data from the user by performing biometric data acquisition and transmission processing to be described later, transmits this to the analysis processing device 3, and moves to the next step SP22.

  On the other hand, when the analysis processing device 3 (FIG. 4) starts the routine RT3, it waits for the biological data to be transmitted from the biological data acquisition device 2, and when the biological data is received, moves to step SP31. In this step SP31, the analysis processing device 3 performs the main analysis process of the biological data by the main analysis processing part 72, obtains the analysis result, and moves to the next step SP32. At this time, the analysis processing device 3 causes the statistical data processing unit 73 to update the value of the statistical data using the analysis result.

  In step SP32, the analysis processing device 3 transmits the obtained analysis result (that is, the main analysis result) to the biological data acquisition device 2 and the medical institution server device 5, respectively, and then proceeds to the next step SP33 to end the routine RT3. .

  In response to this, the biometric data acquisition apparatus 2 presents the analysis result acquired from the analysis processing apparatus 3 to the user by performing an analysis result presentation process to be described later, and then proceeds to the next step SP23 to end the routine RT2. To do.

  Further, when starting the routine RT4, the medical institution server device 5 (FIG. 5) waits for an analysis result to be transmitted from the analysis processing device 3. When the analysis result is received, the process proceeds to step SP41. In step SP41, the medical institution server device 5 stores the analysis result acquired from the analysis processing device 3 in the storage unit 92. At this time, the medical institution server device 5 also acquires information such as the user name together with the analysis data, and stores the analysis result in association with the user name and the like. Thereafter, the medical institution server device 5 moves to the next step SP42 and ends the routine RT4.

[3-1. Biometric data acquisition and transmission processing]
Next, a biometric data acquisition and transmission processing procedure for acquiring and transmitting biometric data from the user by the biometric data acquisition device 2 in step SP21 (FIG. 9) will be described with reference to the flowchart of FIG. When the power is turned on, the control unit 21 of the biometric data acquisition apparatus 2 starts the biometric data acquisition transmission processing procedure RT5 and proceeds to the first step SP51.

  In step SP51, the control unit 21 determines whether the user has entered the toilet 10 (FIG. 2) based on the detection result obtained from the human sensor 14 (FIGS. 2 and 3). If a negative result is obtained here, the control unit 21 waits for the user to enter the room by repeating this step SP51. On the other hand, when a positive result is obtained in step SP51, the control unit 21 proceeds to next step SP52.

  In step SP52, the control unit 21 acquires identification data (hereinafter referred to as acquired identification data) for identifying an individual from the user, and proceeds to the next step SP53. Specifically, the control unit 21 first generates fingerprint data from the fingerprint of the user by the fingerprint sensor 51, and acquires this as identification data. Further, the control unit 21 causes the voice print sensor 52 to generate voice print data based on the voice of the user, and acquires this as identification data.

  In step SP53, the control unit 21 uses the personal identification processing unit 35 to collate the identification data read from the personal information database 41 (FIG. 7) (hereinafter referred to as registration identification data) with the acquired identification data to identify the user. Identify and move to next step SP54. Hereinafter, the user identified at this time is also referred to as an identified user.

  Specifically, the control unit 21 sequentially compares, for example, fingerprint data of the acquired identification data with each fingerprint data registered in the personal information database 41 (that is, registered identification data), and fingerprint data that can be determined to match is obtained. If there is, the management ID associated with the fingerprint data is specified as the management ID of the user. The control unit 21 also collates voiceprint data in the same manner, and specifies the management ID of the user. Incidentally, when the control unit 21 cannot identify the user using the acquired identification data, the control unit 21 displays a predetermined input screen on the display operation unit 24 and prompts the user name and password to be input, and the input user name and password are displayed. To identify the management ID of the user. The control unit 21 holds the management ID specified here in an internal RAM (not shown) or the like.

  In step SP54, the control unit 21 acquires biometric data from the user's excrement by each sensor of the sensor unit 12, and proceeds to the next step SP55. In step SP55, the control unit 21 performs predetermined preliminary analysis processing on each obtained biological data by the preliminary analysis processing unit 37 (FIG. 3), and proceeds to the next step SP56.

  In step SP56, the control unit 21 determines whether or not there is an abnormality by comparing the preliminary analysis result of the biological data with a predetermined threshold value. Here, the threshold value is set to a value far from the normal range of the preliminary analysis result. For this reason, if an affirmative result is obtained in this step SP56, this means that the preliminary analysis result has deviated greatly from the normal range, and therefore there may be a problem that requires urgency regarding the health condition of the user. Represents high. At this time, the control unit 21 proceeds to the next step SP57.

  In step SP57, the control unit 21 controls the communication unit 23 by using the communication control unit 31 (FIG. 3), so that a predetermined abnormality report destination, for example, a telephone number for making a request for emergency transport (for example, in Japan). 119), and the process proceeds to the next step SP58.

  On the other hand, if a negative result is obtained in step SP56, this indicates that there is no abnormality that requires urgency in the preliminary analysis result of the biometric data, and it is not necessary to report an abnormality. At this time, the control unit 21 proceeds to the next step SP58.

  In step SP58, the control unit 21 is associated with the management ID from the transmission destination information database 42 (FIG. 8) by the transmission destination determination unit 36 (FIG. 3) based on the management ID of the user identified in step SP53. The transmission destination, the user name and the password are read out, and the process proceeds to the next step SP59.

  In step SP59, the control unit 21 transmits the preliminary analysis result of the biometric data obtained from the user in step SP58, that is, the analysis processing device 3 (FIG. 1) of the health support service to which the user has a contract. Send to. At this time, the control unit 21 uses the user name and password read from the transmission destination information database 42 to log on the analysis processing device 3, and then reserves biometric data corresponding to the user name as a preliminary data. Send analysis results. Thereafter, the control unit 21 proceeds to the next step SP60 and ends the biometric data acquisition / transmission processing procedure RT5.

[3-2. Analysis result presentation process]
Next, the analysis result presentation processing procedure for presenting the analysis result to the user by the biometric data acquisition device 2 in step SP22 (FIG. 9) will be described with reference to the flowchart of FIG. After completing step SP21, the control unit 21 of the biometric data acquisition apparatus 2 starts the analysis result presentation processing procedure RT6 (FIG. 11) and proceeds to the first step SP71.

  In step SP71, the control unit 21 determines whether or not the main analysis result has been received from the analysis processing device 3. If a negative result is obtained here, the control unit 21 waits for reception of the main analysis result from the analysis processing device 3 by repeating this step SP71.

  On the other hand, when a positive result is obtained in step SP71, the control unit 21 proceeds to next step SP72. In step SP72, the control unit 21 presents the main analysis result to the user by displaying a predetermined main analysis result display screen on the display operation unit 24, and proceeds to the next step SP73.

  In step SP73, the control unit 21 determines whether the user has left the toilet 10 (FIG. 2) based on the detection result obtained from the human sensor 14 (FIGS. 2 and 3). If a negative result is obtained here, the control unit 21 waits for the user to leave the room by repeating this step SP73. On the other hand, if an affirmative result is obtained in step SP73, this indicates that it is not necessary to display this analysis result, and it is necessary to prepare for the next user using the toilet 10. At this time, the control unit 21 proceeds to the next step SP74.

  In step SP74, the control unit 21 resets the user identification result in step SP53 (FIG. 10). Specifically, the control unit 21 erases the user management ID identified in step SP53 and stored in the internal RAM, and proceeds to the next step SP75.

  In step SP75, the control unit 21 deletes the main analysis result displayed on the display operation unit 24 and also deletes the main analysis result temporarily stored in the internal RAM or the like. Thereafter, the control unit 21 proceeds to the next step SP76 and ends the analysis result presentation processing procedure RT6.

[4. Effect]
In the above configuration, when the user uses the toilet 10, the biometric data acquisition device 2 of the biometric data processing system 1 according to the present embodiment generates biometric data of the user by the sensor unit 12. At the same time, the biometric data acquisition apparatus 2 identifies the user by the personal identification sensor 13, reads the transmission destination associated with the user, and transmits the biometric data to the transmission destination.

  For this reason, in the biometric data processing system 1, the biometric data obtained from the user can be obtained from the user without causing troublesome operations under the situation where a plurality of health support services are provided by a plurality of business operators. Can be transmitted to the analysis processing device 3 of the health support service with which the contract is made.

  In particular, since the biometric data acquisition device 2 is identified by the personal identification sensor 13 based on the user's fingerprint or voiceprint, it is necessary for the user who uses the toilet 10 to perform a troublesome operation such as inputting a user name or a password. There is no.

  The biometric data acquisition device 2 immediately displays the analysis result obtained by analyzing the biometric data in the analysis processing device 3 before leaving the toilet 10 for the user who is using the toilet 10. To be visually recognized (FIG. 11, step SP72). Therefore, in the biological data processing system 1, for example, when the toilet 10 is used on a daily basis, instead of a low frequency opportunity such as a health check performed once a year, information on the current health status of the user is immediately obtained. Can be recognized. Thereby, in the biometric data processing system 1, it is possible to urge the user to live a daily life with care for health.

  Furthermore, the analysis processing apparatus 3 transmits the main analysis result obtained based on the user's biometric data to the medical institution server apparatus 5 of the medical institution MC and stores it (FIG. 9, step SP41). As a result, the biometric data processing system 1 can use a large amount of biometric data that has been acquired and stored on a daily basis from a user in a health check performed at a frequency of once a year. It is possible to make a highly accurate diagnosis in combination with the results of the specialized inspection items.

  From another point of view, the biometric data acquisition device 2 transmits the acquired biometric data to the analysis processing device 3, and acquires the analysis result obtained by analyzing the biometric data by the analysis processing device 3. . For this reason, in the biometric data processing system 1, it is not necessary to give the biometric data acquisition apparatus 2 a high arithmetic processing capability, and the control unit 21 and the storage unit 22 can be made relatively simple to reduce the cost.

  On the other hand, the biometric data acquisition device 2 performs the preanalysis processing of the biometric data by the preliminary analysis processing unit 37 (FIG. 3) of the control unit 21 (FIG. 10, step SP55). Thereby, in the biological data processing system 1, the preliminary analysis process with a relatively small processing load can be shared with the biological data acquisition apparatus 2, and the main analysis process with a relatively large processing load can be shared with the analysis processing apparatus 3. The processing load can be appropriately distributed in accordance with each arithmetic processing capability.

  Furthermore, the biometric data acquisition device 2 determines the presence / absence of an abnormality by comparing the result of the preliminary analysis process with a predetermined threshold, and performs an abnormality notification process when there is an abnormality (FIG. 10, steps SP56 and SP57). . As a result, the biological data processing system 1 can immediately perform an emergency notification process when necessary, without having to wait until the result of the main analysis process by the analysis processing apparatus 3 is obtained.

  In addition, the analysis processing apparatus 3 performs the main analysis process on the biological data obtained from each user, and updates the statistical data by the statistical data processing unit 73 (FIG. 4) based on the obtained analysis result, and stores the statistical data. Stored in the unit 82. As a result, the biological data processing system 1 can compare this analysis result obtained from the biological data of each user with the latest statistical data, and can effectively determine, for example, the initial symptoms of diseases that have started to become popular. It becomes possible.

  In addition to this, the biometric data acquisition apparatus 2 is provided with a plurality of types of sensors such as a fingerprint sensor 51 and a voiceprint sensor 52 as the personal identification sensor 13 (FIGS. 2 and 3). For this reason, in the biometric data acquisition device 2, even if the user is wounded with a fingertip and a wrapping bag or the like is wound, and the fingerprint cannot be read, it can be identified by a voiceprint.

  The biometric data acquisition apparatus 2 reads the health support service user ID, the URL of the analysis processing apparatus 3 that is the transmission destination of the biometric data, and the like from the memory card by the memory card reading unit 25 (FIG. 3) in the registration process. did. For this reason, in the biometric data acquisition apparatus 2, the trouble that a user inputs a complicated and long character string such as a URL can be omitted, and the biometric data cannot be analyzed in the analysis processing apparatus 3 due to an erroneous input of a user ID or URL. Can also be prevented.

  According to the above configuration, when the user uses the toilet 10, the biometric data processing system 1 generates the biometric data of the user by the sensor unit 12 of the biometric data acquisition device 2, and the personal identification sensor 13 The user is identified, and the biometric data is transmitted to the transmission destination associated with the user. For this reason, in the biometric data processing system 1, the biometric data obtained from each user can be transmitted to the analysis processing device 3 of the health support service with which the user is contracted and analyzed, and the obtained analysis results are obtained. The user can be confirmed and transmitted to the medical institution server device 5 for storage.

[5. Other Embodiments]
In the embodiment described above, the case where the fingerprint sensor 51 and the voiceprint sensor 52 are provided as the personal identification sensor 13 of the biometric data acquisition apparatus 2 has been described (FIGS. 2 and 3). However, the present invention is not limited to this, and various other sensors and identification devices may be used. For example, after voice collected by a user is collected by a microphone, the content may be replaced with characters, and voice information identification processing may be performed in which the characters are collated like a password. In this case, for example, by registering character data (that is, registration identification data) in the personal information database 41, the control unit 21 uses characters (characters obtained by replacing the voice collected by the microphone) by the voice information identification processing. By referring to the personal information database 41, the user management ID can be specified.

  Further, for example, an iris identification process using an iris pattern of a user's eye or a retina identification process using a retina pattern may be performed. In this case, for example, by registering iris data (that is, registration identification data) in the personal information database 41, the control unit 21 uses the iris pattern (the iris pattern obtained by the iris identification process) to use the personal information database. 41, the management ID of the user can be specified. For example, by registering retinal data (that is, registration identification data) in the personal information database 41, the control unit 21 uses the retinal pattern (retinal pattern obtained by retinal identification processing) to store the personal information database 41. , The management ID of the user can be specified.

  Or you may perform the vein identification process which uses the pattern of the vein in a user's fingertip or palm equality. In this case, for example, by registering vein data (that is, registration identification data) in the personal information database 41, the control unit 21 uses the vein pattern (the vein pattern obtained by the vein identification process) to use the personal information database. 41, the management ID of the user can be specified. Further, these identification processes may be appropriately combined.

  In addition, it is not limited to using the physical characteristics of the user. For example, each user may have a different ID tag and the like, and each user may be identified based on the ID tag. In this case, as an ID tag, for example, an RFID is used that reads information using short-range wireless communication, or a one-dimensional or two-dimensional code that reads information using image analysis. can do. In short, what is necessary is just to be able to identify the said user, without putting a burden on the user who uses the toilet 10 as much as possible.

  Further, in the above-described embodiment, the case has been described in which only one piece of fingerprint data is generated and registered as identification data in the registration processing procedure RT1 (FIG. 6). However, the present invention is not limited to this. For example, fingerprint data may be generated for each of a plurality of fingers of the user and registered as identification data.

  In the above-described embodiment, the case where the user's name is uttered when voiceprint data is generated in the registration processing procedure RT1 (FIG. 6) has been described. However, the present invention is not limited to this. For example, various words such as a specific word that is easy to detect a voiceprint or an arbitrary word that is easy for the user to utter, and voiceprint data is generated based on this to generate identification data. You may register as

  Furthermore, in the above-described embodiment, a case has been described in which the user himself / herself designates whether or not to use a fingerprint and a voiceprint as means for identifying the user (FIG. 6, step SP3). However, the present invention is not limited to this. For example, at least one or both of a fingerprint and a voiceprint may be essential. Further, the fingerprint data and the like registered in the personal information database 41 are not limited to those acquired using the personal identification sensor 13 (FIG. 3). For example, fingerprint data acquired in advance using another fingerprint sensor, You may acquire and register via a memory card etc.

  Further, in the above-described embodiment, the case where the user name and password are registered in the personal information database 41 (FIG. 7) has been described. However, the present invention is not limited to this. For example, the user name and password of the health support service may be substituted, or the user name and password may not be registered in the personal information database 41. In short, when a user is identified, it is only necessary to be able to read the transmission destination of the user's biometric data via a management ID.

  Further, in the above-described embodiment, the user is identified in the biological data acquisition and transmission processing procedure RT5 (FIG. 10), and the biological data (preliminary analysis result) is transmitted to the transmission destination (that is, the analysis processing device 3) associated with the user. The case where this analysis processing is performed by sending a message has been described. However, the present invention is not limited to this. For example, when the user cannot be identified, the biological data may be transmitted to a preset transmission destination, or only the preliminary analysis process is performed in the biological data acquisition apparatus 2 to obtain the data. The obtained preliminary analysis result may be displayed on the display operation unit 24.

  Furthermore, in embodiment mentioned above, the case where the sensor part 12 had a urine sugar sensor, a urine pH sensor, a stool color sensor, and the excretion smell sensor was described. However, the present invention is not limited to this. For example, the sensor may include only a part of these sensors, or may include other sensors in addition to or instead of these sensors. In short, it is only necessary to obtain biometric data useful for grasping the health condition of the user based on the excrement of the user. Furthermore, the sensor unit 12 may include a sensor that acquires the user's biological data without being based on excrement such as the user's body temperature, pulse rate, or weight.

  Further, in the above-described embodiment, when transmitting biometric data to the analysis processing device 3, the biometric data acquisition device 2 performs a logon process to the analysis processing device 3 using the user name and password, and is logged on. The case where biometric data is transmitted has been described (FIG. 10, steps SP58 and SP59). However, the present invention is not limited to this. For example, an electronic mail including biological data may be generated by the biological data acquisition apparatus 2 and transmitted to the analysis processing apparatus 3. In this case, for example, information such as a destination and title necessary for generating an e-mail and a character string (for example, a user name) to be included in the mail body may be registered in the transmission destination information database 42 (FIG. 8). Further, in this case, the analysis processing device 3 that has received the electronic mail may acquire the biological data by analyzing the electronic mail, and perform the main analysis processing based on this.

  Furthermore, in the above-described embodiment, the case where the biological data acquisition device 2 performs the preliminary analysis processing, and transmits the preliminary analysis data obtained thereby to the analysis processing device 3 to perform the main analysis processing has been described. However, the present invention is not limited to this. For example, the biological data acquisition device 2 does not perform the preliminary analysis processing, and transmits the biological data to the analysis processing device 3 so that the analysis processing device 3 performs all the analysis processing. May be. In this case, for example, the biometric data acquisition apparatus 2 may transmit a plurality of types of biometric data and perform compressed data transmission, and the analysis processing apparatus 3 may restore (decompress) the compressed data.

  Furthermore, in the above-described embodiment, the case where the emergency call process is performed when there is an abnormality in the preliminary analysis data in the biological data acquisition / transmission processing procedure RT5 (FIG. 10) has been described (steps SP56 and SP57). However, the present invention is not limited to this. For example, when a threshold value for determining whether or not there is an abnormality is set to a value relatively close to the normal range, and the preliminary analysis data exceeds the threshold value, an abnormality is addressed to the medical institution MC. Notification may be made and a doctor or the like of the medical institution MC may take action based on the preliminary analysis data. Alternatively, the biometric data acquisition apparatus 2 may not determine whether the preliminary analysis data is abnormal and may not perform a countermeasure such as emergency call processing.

  Further, in the above-described embodiment, in the registration process, the user ID and password of the health support service, the address indicating the transmission destination of the biometric data, etc. are read from the memory card and registered in the transmission destination information database 42 (FIG. 8). (Step SP9 in FIG. 6). However, the present invention is not limited to this. For example, information such as an address may be transmitted from the analysis processing device 3 to the biometric data acquisition device 2 via the network 4 to be registered. Alternatively, for example, an imaging camera is provided in the main body 11 (FIG. 2), and a two-dimensional code representing information such as an address is read, or each character is recognized by character recognition processing from a character string representing the address or the like. These may be registered. Alternatively, as in step SP1 (FIG. 6) of the registration processing procedure RT1, a keyboard may be displayed on the display operation unit 24 to allow the user to input information such as an address.

  Furthermore, in the above-described embodiment, a case where it is determined whether or not the user has entered the toilet 10 based on the detection result of the human sensor 14 in step SP51 of the biometric data acquisition and transmission processing procedure RT5 (FIG. 10). Stated. However, the present invention is not limited to this. For example, the user has operated the door knob of the toilet 10 to rotate, the door of the toilet 10 is opened, the toilet door is locked, or the toilet 10 is provided. It may be determined that the user has entered the toilet 10 based on various actions by the user, such as the operation of a switch for lighting or the opening of the lid (toilet lid) of the toilet seat. Alternatively, for example, a predetermined operation button is displayed on the display operation unit 24, or a predetermined operation button is provided on the main body unit 11, and the user enters the toilet 10 by operating these operation buttons. May be detected.

  Furthermore, in the above-described embodiment, the case where information is displayed by the display operation unit 24 formed of a touch panel and a user's operation input is received has been described. However, the present invention is not limited to this. For example, a display unit including a display panel that displays only information may be provided, and an operation unit including an operation button for receiving a user operation input may be provided.

  Further, in the above-described embodiment, the main analysis result is displayed to the user by displaying the main analysis result on the display operation unit 24 provided in the main body unit 11 in step SP72 of the analysis result presentation processing procedure RT6 (FIG. 11). Mentioned when presenting. However, the present invention is not limited to this. For example, a speaker may be provided in the main body 11 and the analysis result may be read out by voice and transmitted to the user, or the book addressed to the user's registered mail address. An e-mail representing the analysis result may be transmitted. In these cases, the display operation unit 24 may be omitted.

  Furthermore, in the above-described embodiment, the user identification result is triggered by the fact that the human sensor 14 detects that the user has left the toilet 10 in step SP73 of the analysis result presentation processing procedure RT6 (FIG. 11). The case of deleting and ending the display of this analysis result was described. However, the present invention is not limited to this. For example, a toilet was washed by the user, the toilet door was unlocked, or a predetermined time (for example, 30 seconds) has elapsed since the start of displaying the analysis result. This may be used as a trigger to erase the user identification result. Alternatively, for example, when the analysis result is displayed on the display operation unit 24 in step SP72, an erase button is displayed on the display screen, and the user's identification result is erased when the erase button is operated by the user. You may do it. Further, the user identification result may be deleted at another time such as when the preliminary analysis data has been transmitted to the analysis processing device 3 in step SP59 of the biological data acquisition and transmission processing procedure RT5 (FIG. 10).

  Furthermore, in the above-described embodiment, the case where the main analysis result obtained by the analysis processing device 3 is transmitted to the medical institution server device 5 and stored is described (FIG. 9). However, the present invention is not limited to this. For example, the main analysis result obtained by the analysis processing device 3 may be stored in another device such as the storage unit 62 (FIG. 4) of the analysis processing device 3. In this case, for example, when a user receives a medical examination, a doctor or the like who performs the medical examination may access the analysis processing device 3 and refer to the stored analysis result. Alternatively, when the user receives a health checkup, the analysis processing device 3 may be accessed in advance to acquire the analysis result of the user and presented to a doctor or the like.

  Furthermore, in the above-described embodiment, the case where the communication unit 23 of the biometric data acquisition apparatus 2 transmits and receives information to and from the network 4 using a wired LAN or a wireless LAN has been described. However, the present invention is not limited to this, and information may be transmitted / received to / from the network 4 by mobile communication such as 4G or WiMAX (registered trademark) described above. Alternatively, information may be transmitted / received to / from the network 4 via a relay device (not shown) by short-range wireless communication such as Bluetooth (registered trademark) or ZigBee (registered trademark).

  Furthermore, in embodiment mentioned above, the case where the toilet 10 was provided with the western-style toilet bowl (Western style toilet bowl) was described. However, the present invention is not limited to this, and various toilets such as a Japanese-style toilet (Japanese-style toilet) and a nursing toilet may be provided.

  Furthermore, in embodiment mentioned above, the case where the main-body part 11 of the biometric data acquisition apparatus 2, the sensor part 12, etc. were integrated in the wall surface of the toilet 10, a toilet bowl, etc. was described. However, the present invention is not limited to this, and for example, each unit constituting the biometric data acquisition apparatus 2 may be installed in the existing toilet 10 later. In this case, for example, the main body unit 11, the sensor unit 12, and each unit corresponding to the personal identification sensor 13 may be integrated and attached to an existing toilet, thereby eliminating the labor and cost required for installing the biometric data acquisition device 2. Etc. can be suppressed.

  Furthermore, in embodiment mentioned above, the case where the main-body part 11 which has the control part 21, the display operation part 24, etc. was attached to the wall surface in the toilet 10 was described. However, the present invention is not limited to this. For example, while only the display operation unit 24 is installed on the wall surface in the toilet 10, an outdoor module in which the control unit 21, the storage unit 22, and the like are integrated is configured. It may be installed outside the room.

  Furthermore, in embodiment mentioned above, the case where the biometric data acquisition apparatus 2 was provided in the toilet 10 provided in the house was described. However, the present invention is not limited to this, and the biometric data acquisition device 2 may be provided in a toilet such as an office or a school. Moreover, you may provide the biometric data acquisition apparatus 2 in the toilet provided with the urinal for men. In many cases, since the human urinal is provided with a human sensor for automatic washing, this human sensor can be used in place of the human sensor 14 (FIG. 2). In this case, the sensor unit 12 may be provided with various sensors corresponding to urine.

  Further, the present invention is not limited to the above-described embodiment and other embodiments. That is, the scope of the present invention extends to embodiments in which some or all of the above-described embodiments and other embodiments described above are arbitrarily combined, and embodiments in which some are extracted. is there.

  Further, in the above-described embodiment, a case where the biological data processing system 1 as a biological data processing system is configured by the biological data acquisition device 2 as a biological data acquisition device and the analysis processing device 3 as an analysis processing device will be described. It was. The biometric data acquisition apparatus includes a personal identification sensor 13 and a personal identification processing unit 35 as identification units, a sensor unit 12 and a sensor control unit 33 as sensor units, a storage unit 22 as a storage unit, and a transmission destination acquisition unit. A case has been described in which the transmission destination determination unit 36 as a communication unit, and the communication unit 23 and the communication control unit 31 as a communication unit are configured. However, the present invention is not limited to this, and a biological data processing system may be configured by a biological data acquisition device having various other configurations and an analysis processing device. In addition, the biometric data acquisition apparatus may be configured by an identification unit, a sensor unit, a storage unit, a transmission destination acquisition unit, and a communication unit having various other configurations.

  The present invention can be used in, for example, a biological data processing system that acquires biometric data of a user and transmits it to an analysis processing apparatus for analysis.

  DESCRIPTION OF SYMBOLS 1 ... Biometric data processing system, 2 ... Biometric data acquisition apparatus, 3 ... Analysis processing apparatus, 5 ... Medical institution server apparatus, 10 ... Toilet, 11 ... Main-body part, 12 ... Sensor part, 13 ... ...... Personal identification sensor, 14 ... human sensor, 21 ... control unit, 22 ... storage unit, 23 ... communication unit, 24 ... display operation unit, 25 ... memory card reading unit, 31 ... communication control 32 …… Display control unit 33 …… Sensor control unit 34 …… Registration processing unit 35 35 Individual identification processing unit 36 …… Destination determination unit 37 37 Preliminary analysis processing unit 41 Personal information database, 42... Destination information database, 51... Fingerprint sensor, 52.

Claims (12)

A biometric data processing system in which a biometric data acquisition device that acquires and transmits biometric data of a user and a plurality of analysis processing devices that receive the biometric data and perform analysis processing are connected via a network,
The biometric data acquisition device includes:
An identification unit that identifies the user as an identified user;
A sensor unit for acquiring the biometric data of the user;
A storage unit that stores one of the analysis processing apparatuses as a transmission destination in association with the user;
A transmission destination acquisition unit that acquires the transmission destination associated with the identified user;
A biometric data processing system comprising: a communication unit that transmits the biometric data to the transmission destination acquired by the transmission destination acquisition unit. The analysis processing device transmits the analysis result obtained by analyzing the biological data acquired from the biological data acquisition device to the biological data acquisition device,
The communication unit receives the main analysis result transmitted from the analysis processing device,
The biological data processing system according to claim 1, wherein the biological data acquisition apparatus presents the main analysis result to the user. The said biometric data acquisition apparatus is further provided with the display part which displays information to the said user, and displays the information based on the said main analysis result transmitted from the said analysis processing apparatus on the said display part. The biological data processing system described in 1. The sensor unit acquires the biological data from excretion excreted from the user in the toilet,
The biometric data acquisition device further includes a use end detection unit that detects use of the toilet by the user, and when the use end detection unit detects use of the toilet, The biological data processing system according to claim 3, wherein information based on the analysis result is erased from the display unit. A data storage device connected to the network;
The analysis processing device transmits the analysis result to the biological data acquisition device and the data storage device,
The biological data processing system according to claim 2, wherein the data storage device stores the main analysis result received from the analysis processing device. The biometric data acquisition device includes:
A preliminary analysis processing unit for analyzing the biological data acquired by the sensor unit;
The biological data processing system according to claim 1, wherein the communication unit transmits the preliminary analysis result obtained by the preliminary analysis processing unit to the transmission destination as the biological data. The preliminary analysis processing unit determines whether or not the value of the biological data is included in a predetermined normal range,
The biometric data processing system according to claim 6, wherein when the value of the biometric data is out of the normal range, the communication unit reports an abnormality to a predetermined abnormality report destination. The biological data processing system according to claim 1, wherein the sensor unit acquires the biological data from excretion excreted from the user in a toilet. The biometric data acquisition device further includes a use start detector that detects that the user starts using the toilet,
The biometric data processing system according to claim 8, wherein the sensor unit starts acquiring the biometric data when detecting that the use of the toilet is started by the use start detection unit. The biometric data acquisition device further includes a use end detection unit that detects that the user has finished using the toilet,
The biometric data processing system according to claim 8, wherein the sensor unit terminates the acquisition of the biometric data when the use end detection unit detects that the use of the toilet has been completed. The biometric data processing system according to claim 10, wherein the identification unit deletes the identification result of the identification user when detecting that the use of the toilet is terminated by the use end detection unit. An identification unit that identifies a user as an identified user;
A sensor unit for acquiring biometric data of the user;
A storage unit that stores any one of a plurality of analysis processing devices that receive the biological data and perform analysis processing in association with the user as a transmission destination of the biological data;
A transmission destination acquisition unit that acquires the transmission destination associated with the identified user;
A biometric data acquisition apparatus comprising: a communication unit that transmits the biometric data to the transmission destination acquired by the transmission destination acquisition unit.

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