JP2007244416A - Biological information collection system, biological information collection method, electric field communication equipment, data collection device, and data communication equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reliably collect biological information obtained by a biological sensor, to reduce physical and mental burdens on an elderly or a patient in the case of utilizing the biological sensor, and to reduce troublesomeness on operation to a nurse. <P>SOLUTION: By transmitting the biological information which the patient has to a data collection device through the patient being an electric field transmission medium, the physical and mental burdens due to restriction of an operation range onto the patient is prevented. Moreover, a data collector for whom the data collection device is arranged stores the biological information in the data collection device by coming in contact with the patient for whom electric field communication equipment connected to the biological sensor is arranged, thereby preventing occurrence of the problems of the labor, erroneous entering/mistake concerning transfer of the biological information caused by the data collector. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a technique for collecting biological information using an electric field communication device that performs communication using an electric field induced in an electric field transmission medium.

  Conventionally, measurement of pulse, breathing, heart sound, electrocardiogram, electroencephalogram, blood pressure, blood flow, body temperature, sweating, heart dynamics, etc., in order to understand the health status of patients in the medical, welfare and health industry fields Various biological sensors have been used (see Non-Patent Document 1).

In addition, emergency buttons and push-button telephones are used by elderly people living alone or hospitalized patients to notify a management center or the like in an emergency (see Non-Patent Document 2).
http: // www. nihonkohden. co. jp / iryo / products / physio01_ecg / rac3502. html http: // www. nihonkohden. co. jp / iryo / products / emergency / 01 / wec4100. html

  However, when a biosensor, an emergency button, or the like is used, there is a problem that both the elderly, the patient, and the nurse are bothered.

  In other words, the existing biosensor is wired between the patient and the biosensor, and thus has a problem of giving a physical and mental burden to the patient due to the limitation of the operation range. Furthermore, since it does not have a communication function to other processing terminals, there is a problem in that the caregiver needs to transfer the data acquired by the biometric sensor and erroneous entry / error.

  In addition, in order to notify an emergency state to the management center, it is necessary to press an emergency button or the like, which poses a problem of imposing a physical burden on an elderly person or patient who does not have physical strength. Furthermore, since it is necessary to explain the situation on the telephone, there is a problem that the burden of checking each piece of biometric information is given to the patient, and the explained biometric information is inaccurate.

  The present invention has been made in view of the above, and reliably collects biometric information acquired by a biosensor and reduces physical and mental burdens on an elderly person or patient when using the biosensor. Let it be the first problem. Furthermore, a second problem is to reduce the troublesome operation of the nurse.

  A biological information collection system according to a first aspect of the present invention is a biological information collection system including an electric field communication device connected to a biological sensor placed on a subject as an electric field transmission medium and a portable data collection device. The electric field communication device is disposed on the subject as the electric field transmission medium, and stores first identification means for storing personal identification information for identifying the subject, First receiving means for receiving the subject's biological information transmitted from the biological sensor, and reading the personal identification information from the first storage means, together with the received biological information, from the transmitting electrode to the subject. First transmission means for transmitting to the data collection device via a person, and the data collection device receives the transmitted biological information and personal identification information via the reception electrode. And having a stage, and a second storage means for storing in association with the biometric information and the personal identification information received, the.

  In the present invention, the biological information of the subject is transmitted to the data collection device via the subject who is an electric field transmission medium, so that the physical and mental burden due to the limitation of the operation range to the subject. Can be prevented.

  In the biological information collection system, the data collection device is arranged in a data collector as the electric field transmission medium, and the second receiving means is configured such that the data collector contacts the subject. In this case, the biometric information and the personal identification information transmitted via the subject and the data collector are received via a receiving electrode.

  In the present invention, the data collector who arranges the data collection device contacts the subject who arranges the electric field communication device connected to the biological sensor, so that the biological information is transferred to the data collection device. Since the data is stored, it is possible to prevent troubles required for transcription of biometric information by the data collector and problems such as erroneous entry and error.

  In the biological information collection system, the data collection device is disposed on the subject, and the biological information and the personal identification information when the subject comes into contact with another electric field transmission medium. Is further read out from the second storage means, and further includes second transmission means for transmitting from the transmission electrode to the other electric field transmission medium via the subject.

  In the present invention, not only the electric field communication device connected to the biological sensor but also the data collection device is arranged in the subject, so that the biological information of the subject is continuously stored in the data collection device. be able to. Furthermore, by transmitting the biological information stored in the data collection device by contact with another medium, the subject can be released from the operation of the biological sensor, the information collection terminal, and the like.

  The biological information collection system further includes another data collection device arranged in a data collector as the electric field transmission medium, wherein the another data collection device is in contact with the subject And a third receiving means for receiving the biological information and the personal identification information transmitted via the subject and the data collector via a receiving electrode, and the received biological information and the individual. And third storage means for storing the identification information in association with each other.

  In the present invention, when the data collector contacts the subject, the biological information continuously stored in the subject's data collection device can be collected by the data collector of the data collector. Therefore, it is possible to omit the periodic inspection of the patient who is the subject by the nurse who is the data collector, and it is possible to reduce the burden on the nurse and prevent erroneous measures. Moreover, it is possible to manage the biological information of all the subjects to be managed at one place.

  The biometric information collection system further includes a data communication device capable of transmitting data via a communication network, wherein the second transmission means includes the biometric information and the biometric information when the subject contacts the data communication device. Transmitting the personal identification information, wherein the data communication device receives the transmitted biological information and the personal identification information via a receiving electrode, the received biological information, and the Transmitting means for transmitting personal identification information via the communication network.

  In the present invention, it is not necessary to use a personal computer or the like in an emergency situation by automatically transmitting the biological information stored in the data collection device to the management center by contact with the data communication device. It is possible to reduce the troublesomeness of pressing the emergency button by the subject and explaining the situation on the telephone, and to convey the accurate situation. In addition, the management center that has received the notification activates the Silverphone associated with the reception of the biological information, and further automatically collects the biological information of the subject, grasps the condition of the subject based on the collected contents, Appropriate measures such as telephone support and emergency deployment can be taken promptly.

  In the biological information collection system, the second storage unit stores the biological information and the personal identification information in association with a reception time when the second reception unit receives the biological information and the personal identification information. It is characterized by that.

  In the present invention, the biological information of the subject can be grasped in chronological order by storing the biological information and the time when the personal identification information is received by the data collection device.

  The biological information collecting method according to the second aspect of the present invention is a biological information collecting method that is processed by an electric field communication device connected to a biological sensor placed on a subject as an electric field transmission medium and a data collecting device that can be carried. Receiving the biological information of the subject transmitted from the biological sensor by the electric field communication device disposed on the subject as the electric field transmission medium, and identifying the subject Reading personal identification information for storage from the storage means, and transmitting the received biological information together with the received biological information from the transmitting electrode to the data collecting device via the subject, and transmitted by the data collecting device. Receiving the biometric information and the personal identification information via a receiving electrode; and storing the received biometric information and the personal identification information in association with each other. Characterized in that it has a.

  An electric field communication apparatus according to a third aspect of the present invention is an electric field communication apparatus connected to a biosensor disposed together with a subject as an electric field transmission medium, and personal identification information for identifying the subject Storage means for storing information, receiving means for receiving the biological information of the subject transmitted from the biological sensor, and reading the personal identification information from the storage means and transmitting it together with the received biological information Transmission means for transmitting from the electrode to the data collection device via the subject.

  A data collection device according to a fourth aspect of the present invention is a portable data collection device, wherein the transmitted biological information and personal identification information are received via a receiving electrode, and the received biological information And storage means for storing the personal identification information in association with each other.

  A data communication device according to a fifth aspect of the present invention is a data communication device capable of transmitting data via a communication network, and receiving means for receiving transmitted biological information and personal identification information via a receiving electrode. And transmitting means for transmitting the received biometric information and the personal identification information via the communication network.

  ADVANTAGE OF THE INVENTION According to this invention, while collecting the biometric information acquired with the biosensor reliably, the physical and mental burden to the elderly person and a patient at the time of utilization of a biosensor can be reduced. Furthermore, it is possible to reduce the troublesomeness of the operation for the nurse.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

[First Embodiment]
FIG. 1 is a schematic diagram showing a schematic configuration of a biological information collecting system according to the first embodiment of the present invention. As shown in FIG. 1, the biosensors arranged in the subject 7 are an electroencephalograph 4a, a sphygmomanometer 4b, a heart rate monitor 4c, an electrocardiograph 4d, a thermometer 4e, a sweat meter 4f, a motion sensor 4g, and a pressure gauge. 4 h (hereinafter collectively referred to as “biological sensor 4”). In addition, the biological information collection system includes a biological sensor 4 disposed on the subject 7, an electric field communication device 1 connected to the biological sensor 4, and a data collection device 2 disposed on the data collector 8. It is.

  Next, the electric field communication device 1 will be described.

  First, the configuration of the electric field communication device 1 will be described with reference to the block diagram of FIG. The electric field communication apparatus 1 includes a processing unit 11 that performs information processing, a receiving unit 12 that receives biological information 80 transmitted from the biological sensor 4, a storage unit 13 that stores personal identification information 81, and an electric field as an electric field transmission medium. The configuration includes a communication circuit 15 and an electrode 16 that are induced in the subject 7. The electric field communication device 1 is arranged in the subject 7 as an electric field transmission medium, and stores personal identification information 81 that can identify the subject 7 in the storage unit 13. .

  Next, the operation of the electric field communication device 1 will be described. The electric field communication apparatus 1 receives the biological information 80 of the subject 7 transmitted from the biological sensor 4 by the receiving unit 12, reads the personal identification information 81 from the storage unit 13 by the processing unit 11, and uses the communication circuit 15. An electric field is induced from the electrode 16 to the subject 7 in which the electric field communication device 1 is disposed, and the biological information 80 and the personal identification information 81 are transmitted from the electrode 16 to the subject 7. The configuration and operation of the communication circuit 15 will be described later.

  Next, the data collection device 2 will be described.

  First, the configuration of the data collection device 2 will be described with reference to the block diagram of FIG. The data collection device 2 includes a processing unit 21 that performs information processing, a storage unit 23 that stores biological information 80 and personal identification information 81 transmitted from the electric field communication device 1, and a data collector 8 that uses an electric field as an electric field transmission medium. In this configuration, the communication circuit 25 and the electrode 26 are induced.

  Next, the operation of the data collection device 2 will be described. The data collection device 2 is arranged in a data collector 8 as an electric field transmission medium. When the data collector 8 comes into contact with a subject 7 in which the electric field communication device 1 is arranged, electric field communication is performed. The biological information 80 and the personal identification information 81 transmitted from the apparatus 1 are received by the electrode 26 by the communication circuit 25 via the subject 7 and the data collector 8. Thereafter, the received biological information 80 and personal identification information 81 are stored in the storage unit 23 by the processing unit 21.

  Next, the configuration and operation of the communication circuit 15 in the electric field communication device 1 and the communication circuit 25 in the data collection device 2 will be described.

  FIG. 4 is a block diagram showing a common configuration of the communication circuit 15 and the communication circuit 25. Hereinafter, the communication circuit 15 will be described as an example.

  As shown in FIG. 4, the communication circuit 15 that connects between the processing unit 11 and the electrode 16 is connected to the processing unit 11 via an interface 50. When the communication circuit 15 receives transmission data to be transmitted from the processing unit 11 to another electric field communication device via the interface 50, the communication circuit 15 adjusts the signal amplitude of the transmission data by the level adjustment circuit 51, and then transmits the transmission circuit 52. To the transmitting electrode 16a.

  When transmission data is supplied from the transmission circuit 52, the transmission electrode 16a induces an electric field corresponding to the transmission data in the electric field transmission medium 100. This induced electric field is transmitted through the electric field transmission medium 100 and received by the receiving electrode 16b of another electric field communication device. Since the received electric field is generally weak and contains many noise signals, the waveform is shaped by removing amplification and noise, and then transmitted to the processing unit 11.

  Amplification of the received electric field is performed by electrical or optical methods. The electrical method can use a well-known amplifier circuit and is simple, but has a limited response speed. FIG. 4 shows a configuration example of an optical method having a high response speed. The electric field detection optical unit 53 is supplied with the electric field received by the receiving electrode 16b, changes the polarization of laser light separately generated in the electric field detection optical unit 53 using the electric field optical technique, and receives the laser light whose polarization has been changed to a light receiving circuit. In 54, it is converted into an electric signal. The electrical signal is supplied with the processing unit 11 via the interface 50 after unnecessary noise is removed by band limitation in the band pass filter 55 and the waveform is further shaped by the waveform shaping circuit 56. Yes.

  The transmission electrode 16a and the reception electrode 16b may be integrated into one electrode 16 to form each electrode.

  Next, the overall operation of the electric field communication control system according to the present embodiment will be described with reference to FIGS. 1 to 3 and FIG.

  The electric field communication device 1 is arranged on the subject 7 and stores personal identification information 81 in the storage unit 13 in advance. The electric field communication device 1 receives the biological information 80 of the subject 7 transmitted from the biological sensor 4, reads out the personal identification information 81 from the storage unit 13 by the processing unit 11, and together with the received biological information 80. The electric field is transmitted from the electrode 16 to the subject 7 by an electric field.

  When the data collector 8 comes into contact with the subject 7 on which the electric field communication device 1 is placed, the data collection device 2 receives biological information 80 and personal identification information transmitted from the electric field communication device 1 by the processing unit 21. 81 is received by the electrode 26 by the communication circuit 25 via the subject 7 and the data collector 8. Thereafter, the received biological information 80 and personal identification information 81 are stored in the storage unit 23 by the processing unit 21.

  According to the present embodiment, the biological information 80 of the subject 7 is transmitted to the data collection device 2 via the subject 7 that is an electric field transmission medium, so that the body due to the limitation of the operation range to the subject 7 is achieved. Can prevent mental and mental burden. Furthermore, when the data collector 8 that arranges the data collection device 2 contacts the subject 7 that arranges the electric field communication device 1 connected to the biological sensor 4, the biological information 80 is stored in the data collection device. Therefore, it is possible to prevent troubles required for transcription of the biometric information 80 by the data collector 8 and occurrence of problems such as erroneous entry and error.

  Further, the data collection device 2 associates the reception time when the processing unit 21 receives the biological information 80 and the personal identification information 81 transmitted from the electric field communication device 1 with the biological information 80 and the personal identification information 81. And can be stored in the storage unit 23.

  According to this embodiment, the time when the data collection device 2 receives the biological information 80 and the personal identification information 81 is also stored in the data collection device 2 so that the biological information 80 of the subject 7 is grasped in time series. It is possible.

  FIG. 6 is a sequence diagram of the electric field communication device 1 and the data collection device 2 when having a plurality of biological sensors 4. With reference to FIG. 2, FIG. 3, FIG. 5 and FIG. 6, the overall operation of the electric field communication control system according to this embodiment in the case of having a plurality of biological sensors will be described.

  The electric field communication device 1 is arranged on the subject 7 and stores the personal identification information 81 and the electric field communication device identification information 82 in the storage unit 13 in advance.

  When the data collector 8 comes into contact with the subject 7 on which the electric field communication device 1 is disposed, the data collection device 2 sends a signal for starting the electric field communication device 1 from the electrode 26 by the processing unit 21. It transmits with an electric field to all the electric field communication apparatuses 1 arrange | positioned at the subject 7. FIG.

  The electric field communication apparatus 1 receives the signal transmitted from the data collection apparatus 2 by the electrode 16 by the communication circuit 15 via the subject 7 and the data collection person 8. Thereafter, the electric field communication device 1 reads the electric field communication device identification information 82 from the storage unit 13 by the processing unit 11 and transmits the electric field communication device identification information 82 from the electrode 16 to the data collection device 2 by an electric field. In this case, when all the electric field communication devices 1 start transmission at the same time, a signal collision occurs and a correct signal electric field is not induced on the electrode 26 of the data collection device 2. This problem can be avoided by taking anti-collision measures on the electric field communication device 1 and the data collection device 2. For example, the electric field communication device 1 can reduce the probability of collision by transmitting the electric field communication device identification information 82 in which the transmission start time is randomly shifted. In addition, the data collection device 2 has a function of detecting the presence or absence of the collision of the signal. When a collision occurs, the data collection device 2 requests the electric field communication device 1 to retransmit the signal, and again relies on the electric field communication device identification information 82. Receive. By repeating this operation until no collision occurs, the electric field communication device identification information 82 of all the electric field communication devices 1 can be acquired. A processing block 83 in FIG. 6 shows an acquisition processing block of the electric field communication device identification information 82 including the anti-collision countermeasure described above.

  The data collection device 2 receives the electric field communication device identification information 82 transmitted from the electric field communication device 1 by the electrode 26 by the communication circuit 25. Thereafter, the data collection device 2 identifies the electric field communication device identification transmitted from the electric field communication device 1 to the electric field communication device 1 desired by the data collector 8 among the plurality of received electric field communication device identification information 82. Information 82 is transmitted from the electrode 26 to the electric field communication device 1 by an electric field.

  The electric field communication device 1 receives the electric field communication device identification information 82 transmitted from the data collection device 2 at the electrode 16 by the communication circuit 15. Thereafter, the electric field communication device 1 reads the personal identification information 81 from the storage unit 13 by the processing unit 11 and transmits the personal identification information 81 from the electrode 16 to the data collection device 2 together with the biological information 80 received from the biological sensor 4.

  The subsequent operations in the data collection device 2 are the same as those described with reference to FIGS.

  According to the present embodiment, since the data collection device 2 can select the desired electric field communication device 1 from the plurality of electric field communication devices 1 arranged in the subject 7, the data collector 8 needs it. The biological information 80 of the biological sensor 4 can be stored in the data collection device 2.

[Second Embodiment]
FIG. 7 is a schematic diagram showing a configuration of a biological information collecting system according to the second embodiment of the present invention. As shown in FIG. 7, the biological information collection system includes a biological sensor 4, an electric field communication device 1, a data collection device 2 a, and a data collection device 2 b arranged in the data collector 8. It is the composition which has. The difference from the first embodiment is that a data collection device 2 a arranged on the subject 7 is newly provided.

  The basic configuration and operation of the electric field communication device 1, the data collection device 2a, and the data collection device 2b are the same as those of the electric field communication device 1 and the data collection device 2 described in the first embodiment. Omitted.

  Next, the overall operation of the electric field communication control system according to the present embodiment will be described with reference to FIG.

  The electric field communication device 1 is arranged on the subject 7 and stores personal identification information 81 in the storage unit 13 in advance. The electric field communication device 1 receives the biological information 80 of the subject 7 transmitted from the biological sensor 4, reads out the personal identification information 81 from the storage unit 13 by the processing unit 11, and together with the received biological information 80. The electric field is transmitted from the electrode 16 to the subject 7 by an electric field.

  The data collection device 2 a arranged in the subject 7 receives the biological information 80 and the personal identification information 81 transmitted from the electric field communication device 1 by the processing unit 21, and the electrode 26 by the communication circuit 25 through the subject 7. Receive at. Thereafter, the received biological information 80 and personal identification information 81 are stored in the storage unit 23 by the processing unit 21.

  The data collection device 2a reads the biological information 80 and the personal identification information 81 from the storage unit 23 by the processing unit 21 when the data collector 8 comes into contact with the subject 7 in which the data collection device 2a is arranged. The data is transmitted from the electrode 26 to the data collector 8 by an electric field.

  In the data collection device 2b, the processing unit 21 receives the biological information 80 and the personal identification information 81 transmitted from the data collection device 2a by the electrode 26 by the communication circuit 25 via the subject 7 and the data collector 8. To do. Thereafter, the received biological information 80 and personal identification information 81 are stored in the storage unit 23 by the processing unit 21.

  According to the present embodiment, not only the electric field communication device 1 connected to the biological sensor 4 but also the data collection device 2a is arranged on the subject 7, so that the biological information 80 of the subject 7 is continuously displayed. It can be stored in the data collection device 2a. Furthermore, the subject 7 can be released from the operation of the biosensor 4 or the information collection terminal by transmitting the biometric information 80 stored in the data collection device 2a by contact with another medium. Moreover, when the data collector 8 contacts the subject 7, the biological information 80 continuously stored in the data collection device 2a of the subject 7 is collected by the data collection device 2b of the data collector 8. Thus, the periodic inspection of the patient who is the subject 7 by the nurse who is the data collector 8 can be omitted, and the burden on the nurse can be reduced and erroneous measures can be prevented. Moreover, it is possible to manage the biological information 80 of all subjects 7 to be managed at one place.

[Third Embodiment]
FIG. 8 is a schematic diagram showing a schematic configuration of a biological information collecting system according to the third embodiment of the present invention. As shown in FIG. 8, the biological information collection system includes a biological sensor 4, an electric field communication device 1, a data collection device 2, a data communication device 3 connected to a communication network 6, and a management center. 5.

  As the communication network 6, for example, Ethernet (registered trademark), token ring, wireless LAN (Local Area Network), the Internet, a public network, or the like can be used.

  The configurations and operations of the electric field communication device 1 and the data collection device 2 are the same as those described in the first embodiment, and a description thereof is omitted here.

  Next, the data communication device 3 will be described.

  First, the configuration of the data communication apparatus 3 will be described with reference to the block diagram of FIG. The data communication device 3 includes a processing unit 31 that performs information processing, a transmission unit 34 that transmits biological information 80 and personal identification information 81 transmitted from the data collection device 2, and a subject 7 that uses an electric field as an electric field transmission medium. In this configuration, the inducing communication circuit 35 and the electrode 36 are provided.

  Next, the operation of the data communication device 3 will be described. The data communication device 3 includes biometric information 80 and personal identification information transmitted from the data collection device 2 when the subject 7 in which the electric field communication device 1 and the data collection device 2 are arranged contacts the data communication device 3. 81 is received by the electrode 36 by the communication circuit 35 via the subject 7. Thereafter, the received biological information 80 and personal identification information 81 are transmitted to the management center 5 via the communication network 6 by the transmission unit 34. The configuration and operation of the communication circuit 35 are the same as those described with reference to FIG.

  Next, the overall operation of the electric field communication control system according to the present embodiment will be described with reference to FIG.

  The electric field communication device 1 is arranged on the subject 7 and stores personal identification information 81 in the storage unit 13 in advance. The electric field communication device 1 receives the biological information 80 of the subject 7 transmitted from the biological sensor 4, reads out the personal identification information 81 from the storage unit 13 by the processing unit 11, and together with the received biological information 80. The electric field is transmitted from the electrode 16 to the subject 7 by an electric field.

  The data collection device 2 arranged in the subject 7 receives the biological information 80 and the personal identification information 81 transmitted from the electric field communication device 1 by the processing unit 21 and the electrode 26 by the communication circuit 25 via the subject 7. Receive at. Thereafter, the received biological information 80 and personal identification information 81 are stored in the storage unit 23 by the processing unit 21.

  The data collection device 2 reads the biological information 80 and the personal identification information 81 from the storage unit 23 by the processing unit 21 when the subject 7 in which the data collection device 2 is arranged contacts the data communication device 3. The data is transmitted from the electrode 26 to the data communication device 3 by an electric field.

  In the data communication device 3, the processing unit 31 receives the biological information 80 and the personal identification information 81 transmitted from the data collection device 2 by the communication circuit 35 via the subject 7 by the electrode 36. Thereafter, the received biological information 80 and personal identification information 81 are transmitted to the management center 5 via the communication network 6 by the transmission unit 34.

  According to this embodiment, it is not necessary to use a personal computer or the like by automatically transmitting the biological information 80 stored in the data collection device 2 to the management center 5 by contact with the data communication device 3, It is possible to reduce the annoyance of pressing an emergency button or explaining the situation on the telephone by the subject 7 in an emergency situation, and to convey an accurate situation. Upon receiving the notification, the management center 5 automatically activates the silver phone associated with the reception of the biological information 80, and further automatically collects the biological information 80 of the subject 7, and the subject is based on the collected contents. It is possible to quickly take appropriate measures such as 7 situation grasps, telephone correspondence, emergency deployment.

  In any of the first to third embodiments, the electric field communication device 1, the data collection device 2, and the data communication device 3 can be configured to have a password authentication function or an authentication function using biometric information. is there. Furthermore, the biometric information 80 and the personal identification information 81 can be encrypted and have a digital signature function. It is also possible to have a function of confirming a common key for encryption by a method such as challenge response.

It is a mimetic diagram showing a schematic structure of a living body information collection system concerning a 1st embodiment. It is a block diagram which shows the structure of an electric field communication apparatus. It is a block diagram which shows the structure of a data collection device. It is a block diagram which shows the structure of a communication circuit. It is a schematic diagram which shows the structure for demonstrating the whole operation | movement of the biometric information collection system which concerns on 1st Embodiment. It is a sequence diagram which shows the process performed with an electric field communication apparatus and a data collection device, when it has a some biological sensor in the system which concerns on 1st Embodiment. It is a schematic diagram which shows the structure for demonstrating the whole operation | movement of the biometric information collection system which concerns on 2nd Embodiment. It is a schematic diagram which shows schematic structure of the biometric information collection system which concerns on 3rd Embodiment. It is a block diagram which shows the structure of a data communication apparatus. It is a schematic diagram which shows the structure for demonstrating the whole operation | movement of the biometric information collection system which concerns on 3rd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Electric field communication apparatus 2, 2a, 2b ... Data collection apparatus 3 ... Data communication apparatus 4 ... Biosensor 5 ... Management center 6 ... Communication network 7 ... Test subject 8 ... Data collector 11, 21, 31 ... Processing part 12 Receiving unit 13, 23 Storage unit 15, 25, 35 Communication circuit 16, 26, 36 Electrode 16a Transmission electrode 16b Reception electrode 34 Transmission unit 50 Interface 51 Level adjustment circuit 52 Transmission circuit 53 Electric field detection optical unit 54 ... light receiving circuit 55 ... band pass filter 56 ... waveform shaping circuit 80 ... biological information 81 ... personal identification information 82 ... electric field communication device identification information 83 ... processing block 100 ... electric field transmission medium

Claims (10)

A biological information collection system comprising an electric field communication device connected to a biological sensor placed on a subject as an electric field transmission medium and a portable data collection device,
The electric field communication device is disposed on the subject as the electric field transmission medium,
First storage means for storing personal identification information for identifying the subject;
First receiving means for receiving biological information of the subject transmitted from the biological sensor;
Reading the personal identification information from the first storage means, and transmitting the received biometric information from the transmission electrode to the data collection device via the subject with the biological information,
The data collection device includes:
A second receiving means for receiving the transmitted biometric information and the personal identification information via a receiving electrode;
Second storage means for storing the received biometric information and the personal identification information in association with each other;
A biological information collecting system comprising: The data collection device is arranged in a data collector as the electric field transmission medium,
The second receiving means receives the biometric information and the personal identification information transmitted via the subject and the data collector when the data collector contacts the subject. The biological information collecting system according to claim 1, wherein the biological information collecting system receives the information via an electrode. The data collection device is arranged on the subject,
When the subject comes into contact with another electric field transmission medium, the biological information and the personal identification information are read from the second storage means, and the other electric field transmission medium is transmitted from the transmission electrode via the subject. The living body information collecting system according to claim 1, further comprising a second transmitting means for transmitting to the living body. And further comprising another data collection device arranged in a data collector as the electric field transmission medium,
The another data collection device, when the data collector contacts the subject, the biometric information and the personal identification information transmitted via the subject and the data collector, Third receiving means for receiving via the receiving electrode;
Third storage means for storing the received biometric information and the personal identification information in association with each other;
The biological information collection system according to claim 3, wherein A data communication device capable of transmitting data via a communication network;
The second transmission means transmits the biological information and the personal identification information when the subject contacts the data communication device,
The data communication device includes:
Receiving means for receiving the transmitted biometric information and the personal identification information via a receiving electrode;
Transmitting means for transmitting the received biometric information and the personal identification information via the communication network;
The biological information collection system according to claim 3, wherein   The second storage means stores the biological information and the personal identification information in association with a reception time when the second reception means receives the biological information and the personal identification information. The biological information collection system according to any one of 1 to 5. A biological information collection method for processing by an electric field communication device connected to a biological sensor placed on a subject as an electric field transmission medium and a portable data collection device,
By the electric field communication device arranged on the subject as the electric field transmission medium,
Receiving biological information of the subject transmitted from the biological sensor;
Reading out personal identification information for identifying the subject from the storage means, and transmitting the received biological information together with the received biological information from the transmission electrode to the data collection device via the subject,
With the data collection device,
Receiving the transmitted biological information and the personal identification information via a receiving electrode;
Storing the received biometric information and the personal identification information in association with each other;
A biological information collecting method characterized by comprising: An electric field communication device connected to a biosensor arranged together with a subject as an electric field transmission medium,
Storage means for storing personal identification information for identifying the subject;
Receiving means for receiving biological information of the subject transmitted from the biological sensor;
Transmitting means for reading the personal identification information from the storage means and transmitting the received biometric information from the transmission electrode to the data collection device via the subject with the biological information;
An electric field communication device comprising: A data collection device that can be possessed,
Receiving means for receiving the transmitted biological information and personal identification information via the receiving electrode;
Storage means for associating and storing the received biometric information and the personal identification information;
A data collection device comprising: A data communication device capable of transmitting data via a communication network,
Receiving means for receiving the transmitted biological information and personal identification information via the receiving electrode;
Transmitting means for transmitting the received biometric information and the personal identification information via the communication network;
A data communication apparatus comprising:

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