JP2002152145A - Data communication system and living body contact part - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a data communication system which can easily and safely perform data communication without utilizing a cable or radio but by utilizing an electric field induced closely to a living body and a living body contact part to be used for this data communication system. SOLUTION: When a living body 1 touches a living body contact part 7, the information of the living body detected by a biological information sensor 11 can be received by a client computer 13 through the living body contact part, and on the basis of data transmitted from a wearable computer 5, the electric field induced closely to the living body by a transceiver 3 is detected by a transceiver 9 and transmitted to the client computer 13. On the basis of data transmitted from the client computer 13, the electric field induced closely to the living body by the transceiver 9 is detected by the transceiver 3 and transmitted to the wearable computer 5. Thus, data can be exchanged between the client computer 13 and the wearable computer 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data communication system for acquiring biological information and exchanging various information including the biological information between a wearable computer and a client computer, and a biological contact unit used for the data communication system. .

[0002]

2. Description of the Related Art When a system for managing information inherent in a living body on a computer, such as a security system based on biometrics or a medical service for managing personal health, is considered to be sophisticated and highly functional, a common computer and a personal computer are considered. For example, various information including biological information detected by a sensor must be communicated between wearable computers mounted on the body. Generally, a method such as connecting a computer with a cable or connecting wirelessly is used, but when using a cable, attaching and detaching the cable is troublesome and troublesome, and when using a wireless, There is a lack of confidentiality and confidentiality with other terminals specific to wireless communication.

[0003]

As described above, in order to perform data communication of various information including biometric information, for example, a cable is connected between a wearable computer worn on the body and a client computer. When the connection is performed via a cable, there is a problem that the attachment and detachment of the cable is complicated and time-consuming, and when the connection is performed using a wireless communication, there is a problem of a collision with another wireless terminal and a problem of low confidentiality. .

[0004] The present invention has been made in view of the above,
An object of the present invention is to provide a data communication system capable of easily and safely performing data communication without using a cable or radio by utilizing an electric field induced near a living body, and a biological contact used in the data communication system. To provide a department.

[0005]

In order to achieve the above object, the present invention according to claim 1 is based on data transmitted from a wearable computer provided to a living body via a first transceiver. A second transceiver for detecting an electric field induced near the living body by the first transceiver, a biological information sensor for detecting biological information, and an electric field induced near the living body by the second transceiver; The second information so that the biological information sensor can detect biological information.
Transceiver and biometric sensor are installed,
A living body contact portion exposed so that a living body can come into contact therewith, is connected to the second transceiver and the living body information sensor, and can transmit and receive data via the second transceiver, and transmits detection information from the living body information sensor. A client computer that can be received, when a living body comes into contact with the living body contact unit, the information of the living body detected by the living body information sensor is received by the client computer through the living body contact unit, and the living body contact unit, The present invention has a data transmitting / receiving means for transmitting / receiving data between a client computer and a wearable computer via the first and second transceivers.

According to the first aspect of the present invention, when a living body comes into contact with a living body contact portion, the information of the living body detected by the living body information sensor is received by the client computer via the living body contacting portion, and the wearable portion is provided. An electric field induced near the living body by the first transceiver based on data transmitted from the computer is detected by the second transceiver and transmitted to the client computer, and the electric field near the living body is detected by the second transceiver based on the transmission data from the client computer. Conventionally, data is transmitted and received between a client computer and a wearable computer through the first and second transceivers by detecting an electric field induced by the first transceiver and transmitting the electric field to the wearable computer. Use cable or wireless like By using an electric field induced near the living body, data communication and transmission of biological information can be performed easily and safely without complicated connection and disconnection of cables due to collisions and deterioration of confidentiality with other wireless terminals. it can.

The present invention according to claim 2 is based on claim 1.
In the described invention, the transceiver induces an electric field in the vicinity of a living body, and a transmitting / receiving antenna formed by electrodes formed of conductors to receive the electric field induced in the vicinity of the living body, and an electric field corresponding to data to be transmitted. Transmission data supply means for supplying transmission data to the transmission / reception antenna so as to induce it near the living body via the transmission / reception antenna; an electro-optic crystal coupled to the electric field induced near the living body via the transmission / reception antenna; A laser light source for irradiating the coupled electro-optic crystal with laser light, polarization detection optical means for changing a change in the polarization of the laser light reflected from the electro-optic crystal to a change in the intensity of the laser light, Light detection means for converting the intensity change of the laser light converted by the detection optical means into a detection signal of the intensity change of the electric signal; And summarized in that an output means for outputting a No. as the received data.

According to the second aspect of the present invention, when an electric field corresponding to transmission data is induced near the living body via the transmitting / receiving antenna on the transmitting side, the electric field induced near the living body is induced on the receiving side. The electric field is coupled to the electro-optic crystal via a laser, and the electric field is converted into a laser beam intensity change by converting the polarization change of the laser beam applied to the coupled electro-optic crystal to the electric signal intensity. Since the signal is converted into a change detection signal and output, it is possible to easily and safely perform data communication using an electric field induced near the living body without using a cable or wireless communication as in the related art.

Further, the present invention according to claim 3 provides the invention according to claim 1.
In the invention described above, a control device connected to the client computer, receiving control information transmitted from the client computer, and performing control based on the control information; a network connected to the client computer; The present invention further includes a host computer connected to the client computer via the host computer and performing data communication with the client computer.

According to the third aspect of the present invention, by transmitting control information from the client computer to the control device, the control device can be controlled based on the control information.
In addition, since data communication can be performed between the client computer and the host computer via a network, for example, when the control device is a door locking mechanism, and a person wearing the wearable computer touches a living body contacting part attached near the door, this is The fingerprint data of a person is transmitted to the client computer, the client computer obtains fingerprint collation data from the host computer, performs fingerprint collation, and transmits control information from the client computer to the locking mechanism, which is a control device, based on the collation result. Thus, the door can be locked / unlocked.

According to the present invention, the electric field induced near the living body can be detected by the transceiver, the electric field can be induced near the living body via the transceiver, and the biological information can be detected by the biological information sensor. A transmitting / receiving antenna of a transceiver and a biological information sensor are attached to the living body, and the living body is exposed so that the living body can come into contact therewith; a structure in which the transmitting / receiving antenna and the biological information sensor of the transceiver are arranged side by side; A structure in which a transceiver transmitting / receiving antenna is disposed in a part of the information sensor, a structure in which a biological information sensor is disposed in a part of the transceiver transmitting / receiving antenna, a transceiver transmitting / receiving antenna and a biological information sensor are separated and spaced apart from each other. Configure the structure to be arranged, the transmitting and receiving antenna of the transceiver, and the biological information sensor And summarized in that with a structure selected small sub reception antennas and sub-body-information sensor of a few from the group consisting of structures arranged in an array.

According to the fourth aspect of the present invention, the living body contact portion has a structure in which a transmitting / receiving antenna and a biological information sensor are arranged side by side, and a structure in which the transmitting / receiving antenna is provided in a part of the biological information sensor. A structure in which a biological information sensor is disposed in a part of a transmitting / receiving antenna, a structure in which a transmitting / receiving antenna and a biological information sensor are separated and disposed at an interval, or a plurality of small sub-units each constituting a transmitting / receiving antenna and a biological information sensor. The transceiver has a structure in which the transmitting / receiving antenna and the sub biological information sensor are arranged in an array, so that the transmitting / receiving antenna of the transceiver can accurately induce an electric field near the living body and detect the electric field induced near the living body, and The information sensor can accurately detect biological information.

[0013]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing a configuration of a data communication system according to an embodiment of the present invention. In the data communication system shown in FIG. 1, data transmitted from a wearable computer 5 mounted on the shoulder of a person who is the living body 1 via the transceiver 3 is induced by the transceiver 3 as an electric field near the living body 1. And a living body contact portion 7 that contacts this electric field to the hand of a person who is the living body 1.
, And is transmitted to the client computer 13 as an electric signal. Further, data transmitted from the client computer 13 is induced as an electric field near the living body 1 from the transceiver 9 via the living body contact portion 7, and the electric field is detected by the transceiver 3 and transmitted to the wearable computer 5. Thus, the client computer 13 and the wearable computer 5 can perform data communication.

A living body information sensor 11 provided in contact with the living body contact part 7 alongside the transceiver 9 is provided with a living body 1 through the living body contact part 7, for example, a fingerprint, a heart rate, a body temperature, and the like.
Information such as blood pressure can be detected, and the detected biological information is supplied to the client computer 13. In this way, the client computer 13 can perform various data communications with the wearable computer 5 and receive various information including the biological information from the biological information sensor 11.

Each of the transceivers 3 and 9 has an I / O circuit 21 for inputting / outputting data to / from the wearable computer 5 or the client computer 13 as shown in FIG. The data received from the computer 5 (hereinafter, the client computer 13 will be omitted) is amplified and waveform-shaped by the transmitter 23, supplied to the transmission / reception antenna 25, and transmitted from the transmission / reception antenna 25 via the insulating film 27. Thus, an electric field is induced near the living body 1. The insulating film 27 is provided to prevent current from flowing from the transmitting / receiving antenna 25 to the living body 1 and to prevent allergy caused by the metal of the transmitting / receiving antenna 25 directly touching the living body 1.

An electric field induced near the living body 1 from the transmitting / receiving antenna 25 via the insulating film 27 causes the transmitting / receiving antenna 25 of another transceiver provided in proximity to another part of the living body 1 to cause the insulating film 27 to move. And coupled to the electro-optic crystal 29 of the transceiver. The electro-optic crystal 29 is connected to the laser light source 3 via the polarization detecting optical system 31.
The laser light from No. 3 is irradiated.

As described above, when an electric field is coupled to the electro-optic crystal 29, the birefringence of the electro-optic crystal 29 changes due to the Pockels effect, which is a primary electro-optic effect. By irradiating the laser light from the laser light source 33 to the electro-optic crystal 29 having the birefringence changed by the coupling of the electric field,
The polarization state of the laser light changes.

The laser light whose polarization has changed is supplied to the polarization detection optical system 31 as laser light reflected from the electro-optic crystal 29, and is converted into a laser light intensity change in the polarization detection optical system 31. This change in the intensity of the laser light is converted into a detection signal in which the intensity of the electric signal has changed in the light receiving circuit 35, and is transmitted from the I / O circuit 21 to the computer 5 as received data. The changeover switch 37 provided between the transmitting unit 23 and the laser light source 33 is provided to control the transceiver separately in the transmission mode and the reception mode.

FIG. 3 is a diagram showing a configuration of a contact state between the transmitting / receiving antenna 25 of the transceiver and the biological information sensor 11 with respect to the biological contact portion 7 provided in contact with the biological contact portion 7.

The structure shown in FIG. 3A shows a structure in which the transmitting / receiving antenna 25 of the transceiver and the biological information sensor 11 are arranged side by side, and FIG.
3 shows a structure in which a transmitting / receiving antenna 25 is provided in a part of the antenna 1, FIG. 3C shows a structure in which the biological information sensor 11 is provided in a part of the transmitting / receiving antenna 25, and FIG. FIG. 3E shows a structure in which the antenna 25 and the biological information sensor 11 are separated and arranged at an interval. FIG. 3E shows a configuration in which the transmitting and receiving antenna 25 and the biological information sensor 11 are respectively provided with a plurality of small sub transmitting and receiving antennas 25a and the sub biological information sensor 1.
1a shows a structure in which each is arranged in an array.

FIG. 4 is a diagram showing a configuration of a data communication system according to another embodiment of the present invention. The data communication system shown in the figure differs from the data communication system shown in FIG. 1 in that a control device 41 connected to the client computer 13 of the data communication system, a network 43 connected to the client computer 13, and the network 43, the client computer 1
The third embodiment differs from the third embodiment in that a host computer 45 and a database 47 are newly added, and other configurations and operations are the same.

In the data communication system configured as described above, the client computer 13 accesses the host computer 45 via the network 43 and acquires information from the database 47 or stores information in the host computer 45. Transmits data to the control device 41 based on information obtained from the wearable computer 5 and the host computer 45, and controls the control device 41 based on the control command. can do.

FIG. 5 is a diagram showing a specific example in which the data communication system shown in FIG. 4 is applied to access control. In the data communication system shown in FIG. 5, a lock mechanism 41a for locking the door 53 is used as the control device 41, and a wristwatch-type wearable computer mounted on a wrist as the wearable computer 5 and a transceiver are integrated. Using the configured wearable terminal 50, the living body contact portion 7 provided near the door 53 as the living body contact portion 7
The fingerprint sensor and the transceiver antenna of the transceiver are embedded in the living body contact portion 7a. Further, a signal processing unit 55 is provided between the client computer 13 and the living body contact unit 7a.

In the data communication system for entrance / exit management configured as described above, when the finger contacts the living body contact portion 7a as shown in the figure, the fingerprint of the finger is detected by the fingerprint sensor, and the detected fingerprint data is read. Is a wearable terminal 50
Is transmitted to the client computer 13 via the signal processing unit 55 together with the ID information and the log information input from the server. Upon receiving the information, the client computer 13 accesses the host computer 45 via the network 43, receives the fingerprint matching data corresponding to the ID information, and based on the received fingerprint matching data, the detected fingerprint data. And transmits a command to the locking mechanism 41a based on the result of the comparison to lock / unlock the door 53.

At the same time, the client computer 1
3 acquires system information, log information, and the like from the host computer 45, and transfers these information to the wearable terminal 50.
To be displayed on the display of the wearable terminal 50 as shown in FIG. In the above-described collation, the collation data may be stored in the client computer 13 instead of being acquired from the host computer 45, that is, not stored in the database 47 of the host computer 45. . Further, the collation data may be stored in a wearable computer.

[0026]

As described above, according to the present invention,
When the living body comes into contact with the living body contact portion, the information of the living body detected by the living body information sensor is received by the client computer via the living body contact portion, and the first transceiver puts the living body near the living body based on the transmission data from the wearable computer. The induced electric field is detected by the second transceiver and transmitted to the client computer, and the electric field induced near the living body by the second transceiver based on the transmission data from the client computer is detected by the first transceiver and transmitted to the client computer. Since data is transmitted and received between the client computer and the wearable computer via the first and second transceivers by transmitting the data to the wireless computer, the cable can be complicated by using a cable or radio as in the related art. Detach and connect with other wireless terminals Without any reduction in the Region and confidentiality,
Data communication and transmission of biological information can be performed easily and safely by using an electric field induced near the living body.

Further, according to the present invention, when an electric field corresponding to transmission data is induced near the living body via the transmitting / receiving antenna on the transmitting side, the electric field induced near the living body is electrically transmitted via the transmitting / receiving antenna on the receiving side. The electric field is coupled to the optical crystal, and this electric field is converted into a laser beam intensity change by irradiating the coupled electro-optic crystal with the laser light, and the laser light intensity change is detected as an electric signal intensity change detection signal. Thus, data communication can be performed easily and safely using an electric field induced near the living body without using a cable or wireless communication as in the related art.

Further, according to the present invention, by transmitting control information from a client computer to a control device, the control device can be controlled based on the control information, and the client computer and the host computer can be controlled via a network. Since data communication can be performed, for example, when a control device is a door locking mechanism and a person wearing a wearable computer touches a living body contact portion attached near the door, fingerprint data of this person is transmitted to a client computer, and the client computer Fingerprint collation data is obtained from the host computer, fingerprint collation is performed, and control information is transmitted from the client computer to the locking mechanism, which is a control device, based on the collation result, whereby the door can be locked / unlocked.

According to the present invention, the living body contact portion has a structure in which the transmitting and receiving antenna and the biological information sensor are arranged side by side, a structure in which the transmitting and receiving antenna is disposed in a part of the biological information sensor, and a structure in the transmitting and receiving antenna. A structure in which a biological information sensor is disposed in a part, a structure in which a transmitting / receiving antenna and a biological information sensor are separated and disposed at intervals, or a plurality of small sub transmitting / receiving antennas and a sub biological information constituting a transmitting / receiving antenna and a biological information sensor, respectively With a structure in which the sensors are arranged in an array, the transceiver antenna of the transceiver can accurately induce an electric field near the living body and detect the electric field induced near the living body, and the biological information sensor can detect biological information. It can be detected accurately.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of a data communication system according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a transceiver used in the data communication system shown in FIG.

3 is a diagram showing a configuration of a contact state between a transmitting / receiving antenna of a transceiver and a biological information sensor for a biological contact portion provided in contact with a biological contact portion used in the data communication system shown in FIG. 1;

FIG. 4 is a diagram showing a configuration of a data communication system according to another embodiment of the present invention.

FIG. 5 is a diagram showing a specific example in which the data communication system shown in FIG. 4 is applied to entry / exit management.

FIG. 6 is a diagram showing a display of a wearable terminal used in the data communication system shown in FIG. 5;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Living body 3, 9 Transceiver 5 Wearable computer 7 Biological contact part 11 Biological information sensor 13 Client computer 25 Transmitting / receiving antenna 41 Control device 43 Network 45 Host computer

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) G06F 17/60 126 A61B 5/10 322 (72) Inventor Junzo Yamada 2-chome Otemachi 2-chome, Chiyoda-ku, Tokyo No. 1 Nippon Telegraph and Telephone Corporation F-term (reference) 4C038 FF01 FF05 5B085 AA04 AE02 AE12 AE25

Claims (4)

[Claims] A second transceiver for detecting an electric field induced near the living body by the first transceiver based on data transmitted from a wearable computer provided to the living body via the first transceiver; A biological information sensor that detects biological information, and an electric field induced near the living body by the second transceiver can be detected by the first transceiver, and the biological information sensor can detect biological information. A second transceiver and a biological information sensor are attached, and a biological contact portion exposed so that a living body can come into contact therewith; connected to the second transceiver and the biological information sensor to transmit and receive data via the second transceiver. And a client computer capable of receiving detection information from the biological information sensor, When a living body comes into contact with the living body contact portion, information on the living body detected by the living body information sensor is received by the client computer via the living body contact portion, and the living body contact portion, the first and second transceivers are A data communication system, comprising: data transmission / reception means for transmitting / receiving data between a client computer and a wearable computer via the data communication system. 2. The transceiver according to claim 1, further comprising: a transmission / reception antenna for inducing an electric field near the living body, receiving the electric field induced near the living body, and transmitting an electric field corresponding to data to be transmitted to the vicinity of the living body via the transmission / reception antenna. Transmission data supply means for supplying transmission data to the transmission / reception antenna to induce, an electro-optic crystal coupled to an electric field induced near the living body via the transmission / reception antenna, and an electro-optic crystal coupled to the electric field. A laser light source that irradiates the laser light with the laser light; a polarization detection optical means that converts a change in polarization of the laser light reflected from the electro-optic crystal into a change in intensity of the laser light; and the laser light that is converted by the polarization detection optical means. Light detecting means for converting a change in the intensity of the electric signal into a detection signal of a change in the intensity of the electric signal; The data communication system according to claim 1, wherein a. 3. A control device connected to the client computer, receiving control information transmitted from the client computer, and performing control based on the control information; a network connected to the client computer; 2. The data communication system according to claim 1, further comprising a host computer connected to the client computer via the host computer and performing data communication with the client computer. 4. A transceiver antenna for detecting an electric field induced in the vicinity of a living body by a transceiver, inducing an electric field in the vicinity of the living body via the transceiver, and detecting a biological information by a biological information sensor. A living body contact portion to which a living body information sensor is attached and which is exposed so that a living body can come into contact therewith, a structure in which a transmitting / receiving antenna of the transceiver and a living body information sensor are arranged side by side, and a part of the inside of the living body information sensor. A structure in which a transceiver transmitting / receiving antenna is disposed, a structure in which a biological information sensor is disposed in a part of the transceiver transmitting / receiving antenna, a structure in which a transceiver transmitting / receiving antenna and a biological information sensor are separated and arranged at an interval, A plurality of small sub-transmission / reception units respectively constituting a transmission / reception antenna and a biological information sensor Biological contact portion and having a selected structure antenna and sub-body-information sensor from the group consisting of structures arranged in an array.