KR101336696B1 - Automatic personal authentication system and method using radio frequency identification tag and bluetooth in portible health care environment - Google Patents

Abstract

The present invention relates to an automatic personal authentication system using RFID tag and Bluetooth in a portable healthcare environment and a method thereof, so that dual personal authentication can be automatically performed through database access and Bluetooth pairing from the moment the RFID tag is read. It is.
To this end, the present invention, the gateway reads the unique code value from the radio frequency identification tag of the portable activity measuring device through the radio frequency identification tag reader to access the database and call the pin code to the Bluetooth between the portable activity measuring device and the gateway A portable healthcare environment comprising a personal authentication step of performing personal authentication between two devices through pairing, and a command data transmission and reception step of transmitting / receiving command data between the gateway and the portable activity measuring device through Bluetooth after personal authentication. By providing an automatic personal authentication method using a radio frequency identification tag and Bluetooth in, it is possible to improve user convenience and security by minimizing the personal authentication procedure of the portable health care equipment.

Description

Automatic personal authentication system and method using radio frequency identification tag and bluetooth in portible health care environment}

The present invention relates to a personal authentication system and method in a portable healthcare environment, and more particularly, when a plurality of portable healthcare equipment exist in a portable healthcare environment, the gateway acts as a gateway and a slave of a main fish serving as a master. Portable health care equipment by automatically performing dual personal authentication through Bluetooth pairing from the moment a radio frequency identification tag is read between portable health care equipment Radio frequency identification tag in portable healthcare environment to minimize user's personal authentication process, improve user convenience and security, and improve security through secondary authentication when connecting to a portable storage device (USB) Personal authentication system using Bluetooth and Bluetooth and its It relates to the law.

Recently, a new paradigm called ubiquitous has emerged, becoming a motto to change our life and culture.

When ubiquitous, information technology can be used not only in homes and cars, but even on top of the mountain, and the number and number of computer users connected to the network will increase.

This ubiquitous technology is a global development competition not only because of its portability and convenience, but also because of its advantages of being able to access the network anywhere and anytime. In particular, as interest in well-being, that is, the use of leisure time and interest in one's own health, a wider development of the ubiquitous concept has been attempted in a healthcare environment related to patient care and treatment.

In particular, the recently developed portable health care system measures a patient's exercise using a plurality of portable activity measuring devices equipped with RFID and Bluetooth, and transmits measurement data to the main fish using RFID and Bluetooth. The collected information is computerized and made into a database so that it can be used for inspection and treatment purposes.

However, the personal authentication method of the conventional portable healthcare system is a one-way personal authentication method that enables data transmission between the portable activity measuring device and the main fish via Bluetooth after personal authentication with information read from an RFID tag. It is used. Therefore, such a conventional one-way personal authentication method does not satisfy the problem of personal authentication and security, which is one of the key factors in the portable healthcare system using a large number of portable activity measuring devices, and also a large amount of data using USB. Many inconveniences have been raised by the users because it should be transmitted only to the Bluetooth that the authentication process is completed.

The technical problem to be solved by the present invention, when there are a plurality of portable healthcare equipment in a portable healthcare environment, RFID tag reader between the main fish or fish gateway serving as a master and the portable healthcare equipment serving as a slave From the moment it is read, the user can automatically perform the dual personal authentication through the database access and Bluetooth pairing, thereby minimizing the authentication process between the portable healthcare device and the gateway, thereby reducing the time required for personal authentication and data transmission. An object of the present invention is to provide an automatic personal authentication system using a radio frequency identification tag and Bluetooth in a portable healthcare environment that can improve security and a method thereof.

Another technical problem to be solved by the present invention is to upload data via USB in a more secure portable activity measuring device by reducing the upload time of large data and improving its security through the second authentication when connecting a portable storage device (USB) It is an object of the present invention to provide an automatic personal authentication system using a radio frequency identification tag and Bluetooth in a portable healthcare environment and a method thereof.

Embodiments of the present invention system for achieving the above object, using a unique code value for the portable activity measuring device that transmits and receives data via Bluetooth and is read through an electronic tag and reader of the radio frequency authentication (RFID) technology In a personal authentication system in a portable healthcare environment configured to be authenticated, the personal authentication system having an electronic tag that stores its own unique code value is activated to be readable by an external RFID reader. A portable activity measuring device having a first Bluetooth for transmitting and receiving personal authentication and command data in response to a connection request from an external device having a matching pin code through real-time query and page scan; Read the unique code value of the portable activity measuring device equipped with an RFID reader, call the pin code based on the read unique code value to perform Bluetooth pairing, and perform personal authentication by comparing the user data after Bluetooth pairing It is an automatic personal authentication system using a radio frequency identification tag and Bluetooth in a portable healthcare environment including an external device.

In each embodiment of the system of the present invention, the external device is composed of any one of a Bluetooth or RFID tag and a fish or a gateway connected to the fish.

One embodiment of the method of the present invention for achieving the above object is a portable activity measuring device equipped with Bluetooth for transmitting and receiving data in a portable healthcare environment and the electronic tag of the RFID technology and the reader In the personal authentication method used, the fish reads the information of the electronic tag attached to the portable activity measuring device through an RFID reader and calls a pin code for Bluetooth pairing from the database to establish Bluetooth pairing between the portable activity measuring device and the fish. A personal authentication step of performing personal authentication between the two paired devices; It is an automatic personal authentication method using a radio frequency identification tag and Bluetooth in a portable healthcare environment, including; command data transmission and reception step of transmitting / receiving command data between the fish and the portable activity measuring device via Bluetooth after personal authentication.

Another embodiment of the method of the present invention for achieving the above object is an electronic tag and a reader of a radio frequency authentication (RFID) technology between a portable activity measuring device and a gateway each equipped with Bluetooth for data transmission and reception in a portable healthcare environment. In the personal authentication method used, the gateway reads the information of the electronic tag of the portable activity measuring device through an RFID reader and calls a pin code for Bluetooth pairing from the database to perform Bluetooth pairing between the portable activity measuring device and the gateway. A personal authentication step of performing personal authentication between the two paired devices; It is an automatic personal authentication method using a radio frequency identification tag and Bluetooth in a portable healthcare environment, including; command data transmission and reception step of transmitting / receiving command data between the gateway and the portable activity measuring device via Bluetooth after personal authentication.

According to another embodiment of the method of the present invention, the fish or the gateway checks whether the portable storage device is connected to the USB connection port of the portable activity measuring device, and transmits the connection command of the portable storage device to the command data. A second authentication step of opening a mobile storage device by recognizing a connection command of the mobile storage device included in the command data by the activity measuring device; A data uploading step of uploading (row file) data of a portable storage device, the portable activity measuring device is an open; automatic personal authentication method using a radio frequency identification tag and Bluetooth in a portable healthcare environment further comprises. .

According to the automatic personal authentication system and method using the radio frequency identification tag and Bluetooth in the portable healthcare environment according to the present invention, when a plurality of portable healthcare equipment in the portable healthcare environment, the gateway connected to the main fish or fish Dual personal authentication can be automatically performed through Bluetooth pairing from the moment RFID tag is read between the portable healthcare device and the portable healthcare device, thereby minimizing the personal authentication procedure of the portable healthcare device and improving user convenience and security. There is this.

In addition, according to the present invention and an automatic personal identification system using a radio frequency identification tag and Bluetooth in a portable healthcare environment according to the present invention, it is possible to improve the security through the second authentication when connecting to USB, user convenience and security The improved performance has the advantage of allowing the upload of large amounts of data from more secure removable storage devices.

1 is a block diagram schematically illustrating an example in which a portable activity measuring device is connected to a gateway in an automatic personal authentication system using a radio frequency identification tag and Bluetooth in a portable healthcare environment according to an exemplary embodiment of the present invention.
2 is a block diagram schematically illustrating an example in which a portable activity measuring device is connected to a fish in an automatic personal authentication system using a radio frequency identification tag and Bluetooth in a portable healthcare environment according to the present invention.
3 is a detailed view illustrating an example in which a USB is connected to FIG. 1.
4 is an operation flowchart schematically illustrating an automatic personal authentication process using a radio frequency identification tag and Bluetooth in the configuration example of FIG. 3.
FIG. 5 is a reference diagram illustrating a flow of signals transmitted and received between a portable activity measuring device and a gateway in the operation flowchart of FIG. 4.
FIG. 6 is a flowchart schematically illustrating an automatic personal authentication process performed in the configuration of FIG. 1.
7 is an operation flowchart schematically illustrating an automatic personal authentication process performed in the configuration of FIG. 2.
FIG. 8 illustrates a control operation of a portable activity measuring device when an external healthcare equipment (VFA) or a plurality of portable activity measuring devices attempts to connect to one gateway in the automatic personal authentication system according to the present invention. It is an exemplary operation flowchart for explanation.
9A to 9E are screens exemplified in the process of simulating an automatic personal authentication system according to the present invention through a fish.

Hereinafter, the configuration and operation of an automatic personal authentication system and method using a radio frequency identification tag and Bluetooth in a portable healthcare environment according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention. Therefore, it should be understood that the embodiments described herein and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and that various equivalents and modifications may be substituted for them at the time of the present application shall.

1 is a block diagram schematically illustrating an example in which a portable activity measuring device is connected to a gateway in an automatic personal authentication system using a radio frequency identification tag and Bluetooth in a portable healthcare environment according to an embodiment of the present invention. Is a block diagram schematically showing an example in which a portable activity measuring device is connected to a fish in an automatic personal authentication system using a radio frequency identification tag and Bluetooth in a portable healthcare environment according to the present invention, and FIG. Detailed diagram showing an example of implementing a state.

Preferred configuration example of the automatic personal authentication system of the present invention, as illustrated in Figure 1, the portable activity measuring device 100, RFID reader 210 and the first equipped with the RFID tag 110 and the first Bluetooth 120 2 is configured as a gateway 200 mounted with a Bluetooth 220 and connected to the fish serving as a master.

In addition, another configuration example of the automatic personal authentication system of the present invention, the portable activity measuring device 100, the RFID reader 310 and the RFID tag 110 and the first Bluetooth 120, as illustrated in FIG. It is composed of a main fish 300 that is equipped with a third Bluetooth 220 and serves as a master.

As shown in FIG. 3, the portable activity measuring device 100 may include an RFID tag 110 in which a unique code is stored, a first Bluetooth 120 for wireless transmission and reception of data, and a mobile storage device for storing and recording a large amount of data. 130, a sensor 140 for measurement, a portable device controller 150 for controlling the operation of each part of the measuring device as a whole, and a power supply unit for supplying driving power to each part (not shown in the drawing). It may be configured to include more.

The RFID tag 110 is an electronic tag that stores personal information, and stores a unique code value (Unique Identification) for identifying only the portable activity measuring device itself, and is driven by an external RFID reader to store its own code value. It is activated to be readable. Here, the unique code value of the portable activity measuring device may be a separately designated identification number or an identifier of an RFID tag, and the RFID tag 110 may have a passive type or its own power source that does not have its own power source, and transmit and receive a signal. It can be produced regardless of the characteristics of the type such as active type. Hereinafter, the present invention will be described with an example of a passive type RFID.

The first Bluetooth 120 includes a second Bluetooth 220 provided in the gateway 200 in response to a connection request from the gateway 200 or the fish 300 having the same pin code through real time query and page scan. Or paired with the third Bluetooth 320 provided in the fish 300 to form a wireless communication channel, and through this, personal authentication and command data are transmitted and received.

The removable storage device 130 is a data storage device for storing and recording a large amount of data composed of a USB flash memory.

The sensor 140 collects real-time information according to the amount of activity of the wearer. Here, the real-time information is information collected in real time information related to the physical changes of the wearer, such as information related to the body temperature of the wearer and the degree related to the pulse. The sensor 140 may include a noise filtering, a positive signal calculation and an amplifying circuit for the collected analog signal, and may include an A / D converter for digital encoding.

The portable device controller 150 controls the signal flow between the first Bluetooth 120, the mobile storage device 130, the sensor 140, and the power supply unit, and controls the operation of each part. The portable device controller 160 transfers the real-time information collected by the sensor 140 to the gateway 200 of the main fish using the first Bluetooth 120.

The gateway 200 reads the unique code value of the portable activity measuring device 100 through the radio frequency identification tag reader 210 and calls a pin code based on the unique code value to communicate with the portable activity measuring device 100. Bluetooth pairing is performed, and personal authentication is performed by comparing user data after Bluetooth pairing. To this end, the gateway 200 includes an RFID tag reader 210, a second Bluetooth 220, a database 240, and a gateway controller 250 as shown in FIG. 3. In addition, the gateway 200 may further include a portable storage device 230 for storing and recording a large amount of data.

The radio frequency identification tag reader 210 activates the RFID tag 110 and reads a unique code value of the portable activity measuring device 100 stored therein.

The second Bluetooth 220 requests a connection to the surrounding Bluetooth via a real-time query by the gateway controller 250, and performs personal authentication and command data transmission and reception with the surrounding Bluetooth having the same pin code. .

The removable storage device 230 is a data storage device for storing and recording a large amount of data using a flash memory.

The database 240 stores a pin code corresponding to each unique code value individually assigned to the plurality of portable activity measuring devices.

The gateway controller 250 calls the pin code for Bluetooth pairing in the database 240 based on the unique code value of the portable activity measuring device 100 read through the RFID reader 210, and the called By performing a Bluetooth pairing between the portable activity measuring device 100 and the gateway 200 using a pin code, the user authentication is performed by comparing user data (security ID) between the two devices. The command data between the gateway 200 and the portable activity measuring device 100 is transmitted / received in the form of a data packet through the first Bluetooth 120 and the second Bluetooth 220. Here, the data packet consists of an identification number, a device name, a security code (security code of measurement data), and a checksum.

In particular, the gateway controller 250 checks whether the portable activity measuring device 100 is connected to the portable storage device 130 and transmits a connection command of the mobile storage device to the command data when the portable storage device is connected. In this case, the portable activity measuring device 100 recognizes a connection command of the mobile storage device included in the command data, opens the mobile storage device, and then opens a row file of the open mobile storage device. It may be desirable to be configured to upload (uploading) through the gateway (200).

4 is an operation flowchart schematically illustrating an automatic personal authentication process using a radio frequency identification tag and Bluetooth in the configuration example of FIG. 3, and FIG. 5 is a portable activity measuring device 100 and a gateway ( As a reference diagram illustrating the flow of signals transmitted and received between 200 and 200, these drawings illustrate an automatic personal authentication process performed between a gateway and a portable activity measuring device each equipped with Bluetooth for data transmission and reception in a portable healthcare environment.

In the automatic personal authentication method according to the present invention, as shown in Figs. 4 and 5, the personal authentication step (S101-S104) through RFID tag reading and Bluetooth pairing (Paring), and the command data transmission and reception step (S105) via Bluetooth. It may be made, including, and may be implemented in another embodiment, further comprising a second authentication step (S106-S108) through the USB connection command transmission, and a data uploading step (S109) in a secure USB.

In the personal authentication step (S101-S104), the gateway 200 accesses the database at the moment of reading the unique code value from the RFID tag 110 of the portable activity measuring device 100 through the RFID reader 210 and pin code. Calling to automatically perform a dual personal authentication between the two devices through the Bluetooth pairing (Paring) between the portable activity measuring device 100 and the gateway 200, the portable activity measurement in the RFID reader of the gateway 200 Reading the unique code value from the RFID tag 110 of the device 100 (S101), access to the database 240 of the gateway 200 with the read unique code value and portable activity measuring device to the presence Authenticating the (100) and calling a pin code for Bluetooth pairing with the portable activity measuring device 100 (S102), Bluetooth 22 of the gateway 200 using the called pin code 0) and pairing (Paring) the Bluetooth 120 of the portable activity measuring device 100 (S103), and after the Bluetooth pairing of the user data (security ID) and portable activity of the database 240 of the gateway 200 And comparing the user data (security ID) of the device 100 to perform personal authentication (S104). Here, the pin code called for the Bluetooth pairing may be a bidirectional code value called based on a unique code value read from the RFID tag 110 of the portable activity measuring device 100.

Command data transmission and reception step (S105) is a portable activity measuring device 100 and the gateway 200 through the first Bluetooth 120 and the second Bluetooth 220 after the dual personal authentication through RFID tag reading and Bluetooth pairing (Paring) In this step, command data is transmitted / received in the form of data packets.

The second authentication step (S106-S108) checks whether the portable storage device 130 is connected to the USB connection port of the portable activity measuring device 100, and transmits the connection command of the mobile storage device to the command data, and the command data. A step of opening the portable storage device by recognizing a connection command of the mobile storage device included in the portable storage device, whether the portable storage device is connected to the portable activity measuring device 100 in the gateway 200; In step (S106), when the portable storage device is connected to the portable storage device 100, the step of transmitting a connection command of the portable storage device to the command data (S107), and the portable activity measuring device 100 Recognizing a connection command of the removable storage device and opening the removable storage device (S108).

The data uploading step S109 is a step of uploading a row file of an open removable storage device through a gateway.

6 is an operation flowchart schematically illustrating an automatic personal authentication process performed in the configuration of FIG. 1, FIG. 7 is an operation flowchart schematically illustrating an automatic personal authentication process performed in the configuration of FIG. 2, and FIG. 8 is an embodiment of the present invention. In the automatic personal authentication system, an exemplary operation to explain the control operation in the portable activity measuring device when external healthcare equipment (VFA) or a plurality of portable activity measuring devices attempts to connect to one gateway 9a to 9e are screens exemplified in the process of simulating an automatic personal authentication system according to the present invention through a fish, each of which includes an initial screen (a) implemented in a fish and a database when an RFID tag is recognized. Retrieved identification information output screen (b), data output from portable activity measuring device after Bluetooth pairing The output screen (c), the security authentication output screen (d) when the USB is connected to the portable activity measuring device, and a confirmation pop-up screen (e) for USB data transmission.

The automatic personal authentication process using the RFID tag and Bluetooth in the portable healthcare environment according to the present invention will be described with reference to these drawings.

First, in the personal authentication system according to the present invention, the automatic personal authentication process performed between the portable activity measuring device 100 and the gateway 200 will be described. The gateway 200 connected to the main fish serving as a master is shown in FIG. 6. As shown, it is started through the operation of reading the unique code value from the RFID tag 110 of the portable activity measuring device 100 through the RFID reader 210 (S101).

That is, as shown in FIGS. 4 to 6, when the RFID reader 210 of the gateway 200 reads the tag information of the RFID tag 110 of the portable activity measuring device 100, S101 is performed. The way controller 250 accesses the unique code value read through the RFID reader 210 from the database 240 and checks the existence thereof, thereby performing primary authentication on the portable activity measuring device 100. In addition, the first Bluetooth 120 of the portable activity measuring device 100 is called (S102) by calling the bidirectional pin code corresponding to the RFID code based on the unique code value of the RFID tag from the database 240 containing the identity information. And Bluetooth pairing (Paring) between the second Bluetooth 220 of the gateway 200 is attempted (S103). When Bluetooth pairing is performed between the two devices through this process, the user data (security ID) of the database 240 of the gateway is compared with the user data (security ID) of the portable activity measuring device 100 (S104). It determines whether or not and automatically performs dual personal authentication between the two devices.

Next, in the command data transmission / reception step S105, the first Bluetooth 120 of the portable activity measuring device 100 and the gateway 200 may be operated in a state where dual personal authentication is performed through RFID tag reading and Bluetooth pairing. 2 through the Bluetooth 220 it is possible to transmit / receive the desired command data between the gateway 200 and the portable activity measuring device 100 (S105). In this case, the command data between the gateway 200 and the portable activity measuring device 100 may include a data packet including an identification number, a device name, a security code (security code of measurement data), and a checksum. It is sent / received in the form.

In this case, when the portable storage device 130 is connected to the USB connection port of the portable activity measuring device 100, the gateway 200 checks whether the connection is connected (S106) and the portable data storage device (S106) to the command data. The connection command of the portable storage device 100 is transmitted (S107), and the portable activity measuring device 100 recognizes the connection command of the mobile storage device included in the command data and opens the connection port of the mobile storage device (S108). A large capacity row file of the removable storage device 130 may be safely uploaded through the gateway 200.

Next, in the personal authentication system according to the present invention, an automatic personal authentication process performed between the portable activity measuring device 100 and the fish 300 will be described. As shown in FIG. 7, the main fish 300 serving as a master is RFID. The reader 310 initiates an operation of reading a unique code value from the RFID tag 110 of the portable activity measuring device 100.

That is, as shown in FIG. 7, when the RFID reader 310 of the fish 300 reads the tag information of the RFID tag 110 of the portable activity measuring device 100, the fish 300 may read the RFID reader ( Accessing the unique code value read through 310 from the database 400 to confirm the existence thereof, the primary authentication for the portable activity measuring device 100 is performed, and the unique code value of the RFID tag is also obtained. Basically, the corresponding bi-directional pin code is called from the database 400 containing the identity information, and the first Bluetooth 120 of the portable activity measuring device 100 and the third Bluetooth 320 of the fish 300 are called. Attempt Bluetooth pairing. When Bluetooth pairing is performed between the two devices through this process, the user data (security ID) of the database 400 of the fish 300 is compared with the user data (security ID) of the portable activity measuring device 100, and the validity thereof is determined. Determine and automatically perform dual personal authentication between the two devices.

Next, in the state in which dual personal authentication is performed through RFID tag reading and Bluetooth pairing, the first Bluetooth 120 of the portable activity measuring device 100 and the third Bluetooth 320 of the fish 300 are connected to the fish ( 300 and the desired command data can be transmitted / received between the portable activity measuring device 100. In this case, the command data between the fish 300 and the portable activity measuring device 100 may include a data packet including an identification number, a device name, a security code (security code of measurement data), and a checksum. It is sent / received in the form.

In this case, even when the portable storage device 130 is connected to the USB connection port of the portable activity measuring device 100, the fish 300 checks whether the connection is connected, and connects the portable storage device 130 to the command data. The command may be transmitted, and the portable activity measuring device 100 recognizes the connection command of the mobile storage device included in the command data and opens the connection port of the mobile storage device, thereby allowing a large capacity of the open mobile storage device 130 to be transmitted. It will be possible to safely upload the row file (row file) through the fish (300).

Meanwhile, as illustrated in FIG. 8, an external healthcare device (for example, VFA) or a plurality of portable activity measuring devices are connected to one gateway 200 or fish 300 in the automatic personal authentication system of the present invention. At the same time, the user is authenticated through the portable activity measuring device as shown in FIGS. 6 and 7, and after such user authentication is completed, data of other healthcare devices can be collected. . That is, as shown in the operation flowchart illustrated on the right side of FIG. 8, if there are various portable activity measuring devices (users A and B) in the same place, only the RFID activity recognized by the RFID tag recognized portable activity measuring device through security pairing. Will be able to be certified as valid. If user A's portable activity measuring device reads the RFID tag by the gateway (or fish) RFID reader, the gateway (or fish) calls user information corresponding to the RFID tag in the database. After attempting authentication with the security ID of the portable activity measuring device (user A) that has been requested for Bluetooth pairing with the user data (unique Bluetooth security ID) value of the portable activity measuring device (user A), the packet data can be transmitted. Will be. On the contrary, in the case where the VFA is connected as an external external healthcare device, the packet data can be transmitted after the user ID and the security ID are authenticated by Bluetooth pairing in a similar manner.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, it is intended that the scope of the invention be defined by the claims appended hereto, and that all equivalent or equivalent variations thereof fall within the scope of the present invention.

100: portable activity measuring device 110: RFID tag
120,220,320: Bluetooth 130,230: Portable storage device
140: sensor 150: portable device control unit
200: gateway 210310: RFID reader
240,400: Database 250: Gateway Control
300: Fish

Claims (12)

In a portable activity measuring device equipped with Bluetooth for transmitting and receiving data in a portable healthcare environment and a personal authentication method using an electronic tag of RFID technology and a reader thereof between the fish,
(a) The fish reads the information of the electronic tag attached to the portable activity measuring device through an RFID reader and calls a pin code for Bluetooth pairing from a database to establish a Bluetooth pairing between the portable activity measuring device and the fish. A personal authentication step of performing personal authentication between the paired two devices;
(b) transmitting and receiving command data between the fish and the portable activity measuring device via Bluetooth after the personal authentication;
The pin code called for the Bluetooth pairing is a radio frequency identification tag in the portable healthcare environment, characterized in that the bidirectional code value is called based on the unique code value read from the electronic tag of the portable activity measuring device and Automatic personal authentication using Bluetooth. In the personal authentication method using an electronic tag and a reader of radio frequency authentication (RFID) technology between a portable activity measuring device equipped with Bluetooth for data transmission and reception in a portable healthcare environment and a gateway,
(a) The gateway reads the information of the electronic tag of the portable activity measuring device through an RFID reader and calls a pin code for Bluetooth pairing from a database to establish a Bluetooth pairing between the portable activity measuring device and the gateway. A personal authentication step of performing personal authentication between the paired two devices;
(b) transmitting and receiving command data between the gateway and the portable activity measuring device via Bluetooth after the personal authentication;
The pin code called for the Bluetooth pairing is a radio frequency identification tag in the portable healthcare environment, characterized in that the bidirectional code value is called based on the unique code value read from the electronic tag of the portable activity measuring device and Automatic personal authentication using Bluetooth. 3. The method according to any one of claims 1 to 3,
(c) the fish or gateway determines whether the portable storage device is connected to the USB connection port of the portable activity measuring device and transmits a connection command of the mobile storage device to the command data, and the portable activity measuring device transmits the command. Recognizing a connection command of the removable storage device included in the data to open the removable storage device;
(d) a data uploading step of uploading, by the portable activity measuring device, a row file of the open portable storage device; and a radio frequency identification tag in a portable healthcare environment. Automatic personal authentication using Bluetooth. delete The method of claim 1 or 2, wherein (a) the personal authentication step,
(a1) reading a unique code value from an electronic tag of a portable activity measuring device in an RFID reader;
(a2) accessing a database with the read unique code value, authenticating the portable activity measuring device with its presence, and calling a pin code for Bluetooth pairing with the portable activity measuring device; Automatic personal authentication method using a radio frequency identification tag and Bluetooth in a portable healthcare environment, characterized in that made. The method of claim 5, wherein (a) the personal authentication step,
(a3) pairing Bluetooth with the portable activity measuring device using the called pin code;
(a4) after the Bluetooth pairing, authenticating with a security code of a unique portable activity measuring device stored in a database; further comprising a radio frequency identification tag and Bluetooth in a portable healthcare environment Automatic personal authentication method using. The method of claim 3, wherein (c) the second authentication step,
(c1) checking whether a portable storage device is connected to the portable activity measuring device;
(c2) if a portable storage device is connected to the portable activity measuring device, transmitting a connection command of the mobile storage device to the command data;
(c3) in the portable activity measuring device, recognizing a connection command of the mobile storage device to open the mobile storage device; and using a radio frequency identification tag and Bluetooth in a portable healthcare environment, comprising: Authentication method. Personal authentication in a portable healthcare environment that is configured to transmit and receive data via Bluetooth, and to perform personal authentication using unique code values for portable activity measuring devices that are read through RFID and RFID readers. In the system,
It is equipped with an electronic tag that stores its own code value, so that its own code value can be read by an external RFID reader, and it can be read from an external device whose pin code matches through real time query and page scan. A portable activity measuring device having a first Bluetooth for transmitting and receiving personal authentication and command data in response to a connection request;
Read the unique code value of the portable activity measuring device with an RFID reader, call the pin code based on the read unique code value to perform Bluetooth pairing, and compare the user data after the Bluetooth pairing to perform personal authentication External device to be carried out, including,
The external device may include one of a fish equipped with a Bluetooth and an RFID reader, or one of a gateway equipped with a Bluetooth and an RFID reader and connected to a main fish. Automatic personal authentication system using. delete The method of claim 8, wherein the gateway,
A radio frequency identification tag reader for activating the radio frequency identification tag and reading a unique code value of the portable activity measuring device;
A second Bluetooth requesting connection to surrounding Bluetooth via a real-time query by the gateway controller, and performing personal authentication and command data transmission / reception with the surrounding Bluetooth having a matching pin code;
Call the pin code for Bluetooth pairing in the database based on the unique code value of the portable activity measuring device read through the radio frequency identification tag reader, and the portable activity measuring device and the gateway by the called pin code A gateway controller performing personal authentication by comparing user data between the two devices through Bluetooth pairing between the devices, and transmitting / receiving command data between the gateway and the portable activity measuring device through the two Bluetooth devices after the personal authentication; Automatic personal authentication system using a radio frequency identification tag and Bluetooth in a portable healthcare environment comprising a. The method of claim 10, wherein the gateway,
And a database for storing a pin code corresponding to each unique code value individually assigned to a plurality of portable activity measuring devices. Authentication system. The method of claim 10, wherein the gateway controller,
Check whether the portable activity measuring device is connected to a portable storage device and transmit a connection command of the portable storage device to the command data;
The portable activity measuring device,
Recognizing a connection command of the mobile storage device included in the command data to open the mobile storage device, and uploading the data (row file) of the open mobile storage device through the gateway (uploading) Automatic personal authentication system using radio frequency identification tag and Bluetooth in health care environment.

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