KR100760472B1 - System and method for transmitting medical data using short message service - Google Patents

Abstract

A system and a method for transmitting medical data by using an SMS(Short Message Service) are provided to transmit the medical data by using a terminal capable of data transmission through the SMS without a separate wireless communication module, thereby enabling a user to receive a remote medical service anywhere and anytime. A system for transmitting medical data comprises the followings: a medical data transmitting terminal(201) which generates a medical data message and transmits the medical data message to a predetermined medical server by using an SMS; and the medical server(202) which receives the medical data message and extracts the medical data of a user from the received medical data message. The medical data transmitting terminal includes a data diving unit(211) for dividing the medical data into two or more sub medical data; and a message processing unit(212) which generates the medical data message including a sub medical data, a medical data identifier, and a sequence identifier.

Description

Biometric data transmission system and method using short message service {SYSTEM AND METHOD FOR TRANSMITTING MEDICAL DATA USING SHORT MESSAGE SERVICE}

1 is a view for explaining a schematic operation of the biological data transmission system according to an embodiment of the present invention.

2 is a diagram illustrating an internal configuration of a biometric data transmission system according to the present invention.

3 is a diagram illustrating an internal data structure of a biometric data message according to an embodiment of the present invention.

4 is a diagram illustrating an example of a biometric data message and a biosignal when a biometric data is transmitted using two or more biometric data messages when the size of biometric data exceeds a size that can be transmitted by SMS. It is a figure which shows data.

5 is a diagram illustrating a biometric data message when biometric data includes one or more biometric data blocks according to an embodiment of the present invention.

6 is a diagram illustrating a process of transmitting biometric data generated by sampling continuous biometric information according to an embodiment of the present invention.

7 is a flowchart illustrating a flow of a method of transmitting biometric data according to the present invention.

<Explanation of symbols for main parts of the drawings>

201: biometric data transmission terminal

202: medical server

210: biometric data message generation unit

211: data separator

212: message processing unit

220: biometric data message transmission unit

230: biometric data message receiving unit

240: biometric data extraction unit

250: biometric data generation unit

The present invention relates to a biometric data transmission system and method comprising a biometric data transmission terminal for transmitting biometric data of a user via SMS and a medical server for receiving biometric data via the SMS.

Recently, with the development of communication networks such as the Internet, users can use not only basic biometric information measuring devices such as thermometers and scales, but also blood pressure measuring devices and blood glucose meters, such as blood pressure meters and blood glucose meters, at home. When the biometric data generated by direct measurement is transmitted to a medical server through a communication network, a telemedicine service that a doctor performs medical care using the biometric data received from the medical server is introduced. In particular, due to the development of wireless networks, a ubiquitous environment is provided in which users can freely access the network regardless of the network or computer, and transmit biometric data to a medical server anytime and anywhere. I can get the service.

However, in order to use such a telemedicine service, a biometric data measured by a user must be transmitted to a medical server. A communication module is required for this purpose. In particular, in order to transmit health information using a wireless network, it was inconvenient to purchase and carry a separate wireless communication device, and even in a medical server, in order to receive and use biometric data transmitted in various ways, each method must be separately provided. There was a problem that a receiving device and a processing module were required.

Therefore, if the biometric data is transmitted using an SMS that can be transmitted through a terminal such as a mobile phone or a PDA that can be commonly seen around the user, the biometric data measured by the user can be transmitted to the medical server anytime and anywhere without a separate communication device. Medical servers will be able to obtain biometric data simply by analyzing the data in SMS format.

However, in general, SMS is for transmitting short texts and has a problem in that a large amount of data cannot be transmitted because of a limit of 80 bytes. In addition, it is not possible to transmit the biometric data storing the continuous biometric information of the waveform, and there was also a difficulty in transmitting data containing two or more values such as blood pressure values.

Therefore, biometric data can be transmitted through SMS that can be easily used anytime and anywhere, and biometric data can be transmitted in a short message such as a large amount of data, waveform data, and data including two or more values. Transmission technology is required.

The present invention has been made in order to improve the prior art as described above, and by using a terminal capable of transmitting SMS without the need for a separate wireless communication module to transmit biometric information, anytime, anywhere to receive a remote medical service. do.

Another object of the present invention is to transmit a large amount of biometric data by separating and transmitting the biometric data when the size of the biometric data exceeds the size that can be transmitted by SMS.

It is still another object of the present invention to generate biometric data by sampling continuous biometric information of a waveform at predetermined intervals and transmit the biometric data via SMS, thereby transmitting biometric data recording the continuous biometric information of a waveform to a medical server. To make it possible.

Still another object of the present invention is to enable biometric data including one or more biometric data blocks to be transmitted using SMS, so that biometric data including two or more values can be conveniently transmitted to a medical server.

Still another object of the present invention is to receive biometric data messages transmitted using SMS in a medical server and extract biometric data from the biometric data messages, thereby obtaining biometric data without a separate receiving device or processing module. To ensure that

In order to achieve the above object and to solve the problems of the prior art, the biometric data transmission system according to an embodiment of the present invention generates a biometric data message that converts the user's biometric data into a form that can be sent by SMS, the biometric data A biometric data transmission terminal for transmitting a message to a predetermined medical server using SMS, and a medical server receiving the biometric data message from the biometric data transmission terminal and extracting the biometric data of the user from the received biometric data message; Characterized in that.

In addition, the biometric data transmission method according to the present invention includes the steps of generating a biometric data message by converting the user's biometric data into a form that can be transmitted to the SMS and transmitting the biometric data message to a predetermined medical server using SMS Characterized in that.

Hereinafter, a biometric data transmission system and method according to the present invention will be described in detail with reference to the accompanying drawings.

The term "biodata" used in the present invention refers to data generated based on biometric information, which is information about a user's health state, and includes text data or binary data. It may be digital data. In addition, the biometric data may be generated based on the biometric information measured by a separate biometric information measuring apparatus, or may be generated based on the biometric information measured by the biometric information measuring apparatus. It may be input directly, or may be generated directly from the measurement module by installing the biometric information measurement module in the biometric data transmission system.

1 is a view for explaining a schematic operation of the biological data transmission system according to an embodiment of the present invention. The biometric data transmission system may include a biometric data transmission terminal 110 and a medical server 130, wherein the biometric data transmission terminal 110 and the medical server 130 use the SMS 120 to display biometric data of a user. Send it.

The biometric data transmission terminal 110 generates a biometric data message obtained by converting the biometric data of the user into a form that can be transmitted by SMS, and transmits the biometric data message to the medical server 130 using the SMS 120.

The medical server 130 receives the biometric data message from the biometric data transmission terminal 110 through SMS and extracts the biometric data of the user from the received biometric data message.

SMS 120 stands for Short Message Service, which means a short message service, and means a text service that allows mobile phone users to send and receive short text messages of about 40 characters without additional equipment. Generally, data having a size of 80 bytes or less can be transmitted through SMS. Usually, it is used to transmit text data, but can also be used to transmit binary data. In addition, in recent years, SMS can be transmitted using a portable device such as a PDA as well as a mobile phone terminal.

2 is a diagram illustrating an internal configuration of a biometric data transmission terminal and a medical server configuring the biometric data transmission system according to the present invention. As shown in the figure, the biometric data transmission system includes a biometric data transmission terminal 201 and a medical server 202.

In addition, the biometric data transmission terminal 201 may include the biometric data message generator 210 and the biometric data message transmitter 220. In some cases, the biometric data transmission terminal 201 may include the biometric data generator 250.

The biometric data message generating unit 210 generates a biometric data message obtained by converting the biometric data of the user into a form that can be transmitted by SMS. The biometric data message may include biometric data and information on biometric data, and may have a size of 80 bytes or less, which is a typical SMS transmittable size. The biometric data measured for the user provides the biometric data in different forms by the manufacturer of the measurement device measuring the biometric data. For example, even in the case of ECG data for a user, the ECG data formats provided by the measuring device are different from each other according to the type of the measuring device measuring the ECG data. In addition, since the data measured by the biometric data measuring apparatus is not in a form that can be transmitted by SMS, the biometric data cannot be directly transmitted by SMS. Therefore, the biometric data message generation unit 210 converts the biometric data measured by the biometric data measuring apparatus into a form that can be transmitted to the SMS so that the biometric data can be transmitted to the SMS. In addition, in the case of SMS, since there is a limitation on the size of data to be transmitted at one time, processing for this is also performed by the biometric data message generator 210. The same applies to the case where the biometric data transmission terminal 201 includes a biometric data generation unit 250 for measuring biometric data.

The biometric data message generating unit 210 may generate a biometric data message including information on necessary biometric data in some cases. The internal data structure of the biometric data message including the biometric data may be described below. This will be described in detail with reference to FIG. 3.

According to an embodiment of the present invention, the biometric data message generator 210 includes a data separator 211 and a message processor 212.

The data separator 211 separates the biometric data into two or more sub-biometric data when the biometric data exceeds a size that can be transmitted by SMS. Since the SMS cannot transmit a large capacity as a service for transmitting a short message, in order to transmit a large amount of biometric data, the biometric data may be separated into two or more sub-biometric data having a size that can be transmitted by SMS.

The message processing unit 212 may generate the biometric data message to include one sub body data selected from the at least two sub biometric data, a biometric data identifier identifying the biometric data, and a sequence identifier identifying the selected western biometric data. Create

Even if the biometric data is separated into two or more sub-biometric data and transmitted, the medical server 202 receiving the sub-biodata should combine the received sub-biodata to restore the biometric data. Information on which biometric data contains the sub biometric data of the biometric data message is required. The biometric data identifier is used as information on which biometric data includes sub biometric data.

In addition, in order to combine two or more sub-bio data, information about the order between the sub-bio data is required, and the sequence identifier may be used as information about the order between the sub bio data.

The biometric data message transmitter 220 transmits the biometric data message generated by the biometric data message generator 210 to a predetermined medical server using SMS. Transmission to the medical server may be performed by using a mobile originated (MO) service. The mobile originated (MO) service is a mobile communication service provider to a communication terminal such as a mobile phone or a PDA used by a mobile subscriber in a mobile communication network. It means a service for transmitting a short message and a multimedia message to a MO number, which is a data reception number assigned by a network operator such as other wired / wireless communication providers. For the transmission, since an SMS transmission module included in a terminal capable of transmitting SMS, such as a mobile phone terminal and a PDA, can be used, there is an effect of transmitting biometric data to the medical server 202 without a separate communication module.

The biometric data generation unit 250 may be used when the biometric data of the user is converted into biometric data and transmitted to the medical server 202. The biometric data generation unit 250 records a sampled value of the continuous biometric information at a predetermined sampling period. One or more biometric data blocks are created, and the biometric data blocks are combined to generate the biometric data. Therefore, by transmitting the biometric data generated by sampling biometric information represented by a waveform such as an electrocar-diogram (ECG) using SMS, the biometric data generated based on various forms of biometric information is transmitted to the medical server 202. It can be effective.

The medical server 202 may include a biometric data message receiver 230 and a biometric data extractor 240. The medical server 202 may extract the biometric data from the biometric data message received in the SMS format from the biometric data transmission terminal 201 and perform medical care. The biometric data may be transmitted to a medical institution using the server 202, or may be stored in a database and transmitted in response to a request of the medical institution.

The biometric data message receiving unit 230 receives the biometric data message transmitted using the SMS. Receiving the biometric data message transmitted by the SMS from the medical server 202 may be performed using the MO (Mobile Originated) service.

The biometric data extractor 240 extracts the biometric data of the user from the biometric data message received by the biometric data message receiver 230. The biometric data message may include biometric data and information about biometric data. The biometric data extractor 240 extracts biometric data included in the biometric data message, and optionally extracts biometric data. Can be used to process biometric data.

For example, when the biometric data transmission terminal 201 separates and transmits the biometric data into two or more sub-biometric data because the biometric data exceeds a size that can be transmitted by SMS, the biometric data extracting unit 240 performs biometric data. The biometric data may be extracted from the biometric data message, and the biometric data may be combined using the biometric data to generate original biometric data.

As another example, when the biometric data transmission terminal 201 transmits biometric data configured by sampling continuous biometric information represented by a waveform, the biometric data extractor extracts the biometric data and extracts the sampled value from the biometric data. And biometric information may be estimated based on the sampled values.

3 is a diagram illustrating an internal data structure of a biometric data message according to an embodiment of the present invention. The biometric data message includes a biometric data identifier (message ID) 301, a personal identifier 302, time information 303, biometric data classification code 304, the number of sub biometric data 305, and a sequence identifier. 306, a number 307 of biometric data blocks, a size 308 of biometric data blocks, information 309 about a sampling period, and data 310.

The biometric data identifier 301 is an identifier for distinguishing biometric data, and the biometric data message includes the biometric data when the biometric data exceeds the size that can be transmitted by SMS and is separated into two or more sub biometric data and transmitted. They all have the same biometric data identifier 301 so that the medical server can combine the sub biometric data to restore the biometric data.

The user identifier 302 is an identifier for distinguishing a user. Generally, when a message capable of transmitting an SMS using an SMS, such as a mobile phone, is transmitted, a unique number of the transmitting terminal is transmitted together with the message. Although it is not necessary, it may be used to distinguish each of the plurality of users when a plurality of users transmit the biometric data using the same terminal.

The time information 303 is time information related to biometric data, and may record a time at which biometric information is measured to generate the biometric data. The time information may be very important information about biometric data that may be determined differently according to time, such as blood sugar level, among biological data.

The biometric data classification code 304 may be a classification code indicating what the biometric data means. The biometric data classification may include height, weight, body temperature, body fat, electrocar-diogram (ECG), blood pressure, heart rate, and the like, and by simply assigning a unique classification code according to the classification, recording the classification code simply. The biometric data may be classified.

The number 305 of sub-bio data may refer to the number of sub-bio data when bio data is separated into two or more sub-bio data and transmitted. When the biometric data is separated and transmitted as two or more sub-biometric data as described above, the medical server receiving the biometric data message needs to restore the biometric data by synthesizing the sub-biometric data. The number of sub data may be needed.

The sequence identifier 306 may be used as an identifier for identifying each of the sub-biometric data when the biometric data is separated into two or more sub-biodata and transmitted. In addition, the sequence identifier 307 may indicate the order of the sub-biometric data, and in the restoration of the bio-data by combining the sub-biometric data in a medical server, the sequence identifier 307 may be combined in consideration of the order of the sub-biometric data so as to accurately correct the original data. It is possible to restore the biometric data.

The number 307 of the biometric data blocks may indicate the number of the biometric data blocks when the biometric data includes one or more biometric data blocks, and the size 308 of the biometric data blocks indicates the size of the biometric data blocks. It may be to indicate. When two or more values, such as blood pressure values, are included in one biometric data, biometric data may be generated by combining two or more biometric data blocks, each of which records the two or more values. When extracting the biometric data including the data block, values of each biometric data block may be extracted using the number 307 of the biometric data blocks and the size 308 of the biometric data block.

The information 309 on the sampling period may be used as information on the sampling when the biometric data is generated by sampling the biometric information represented by the waveform to transmit the biometric data. In order to restore the biometric information based on the biometric data generated by sampling in the medical server, information 309 about a sampling period is required. Since the sampling period may be expressed in various forms, the information on the sampling period 309 may include information about the sampling period value and the unit of the sampling period. In order to express a precise value below the decimal point, the sampling period value may be It may include information about significant figures and exponents.

The data 310 may refer to biometric data generated based on biometric information, which is information on a user's health state. When the biometric data 310 exceeds a size that can be transmitted by SMS, the data 310 may be divided into two or more. The sub biometric data selected from among the sub bio data may be used.

4 is a diagram illustrating an example of a biometric data message and a biosignal when a biometric data is transmitted using two or more biometric data messages when the size of biometric data exceeds a size that can be transmitted by SMS. It is a figure which shows data.

As shown by reference numeral 401, when the biometric data cannot exceed the size that can be transmitted by SMS and cannot be contained in one biometric data message and must be divided into three biometric data messages, the biometric data transmission terminal is a biometric data transmission terminal. Data may be divided into three sub-biometric data (Data 1, Data2, and Data3), and three biometric data messages generated based on the respective sub-biometric data may be transmitted, and the three biometric data messages identify the biometric data. The biometric data identifier may include a biometric data identifier, a sequence identifier for identifying sub biometric data included in the biometric data message, and a field indicating the number of sub biometric data.

In addition, as shown at 402, the medical server receives the three biometric data messages and extracts the three sub-biometric data Data 1, Data 2, and Data 3 from the biometric data message. Three sub-bio data may be combined to restore the bio data.

5 is a diagram illustrating a biometric data message when biometric data includes one or more biometric data blocks according to an embodiment of the present invention.

As shown, when the biometric data includes three biometric data blocks (Block 1, Block 2, Block 3), the biometric data message including the biometric data includes information on the number of biometric data blocks and biometric data blocks. The biometric data message may include information about the size of the biometric data, and the medical server receiving the biometric data message may include the three biometric data from the biometric data based on the information on the number of the biometric data blocks and the information on the size of the biometric data block. Data blocks Block 1, Block 2, and Block 3 may be extracted.

6 is a diagram illustrating a process of transmitting biometric data generated by sampling continuous biometric information according to an embodiment of the present invention.

As shown by reference numeral 601, in the case where biometric data is generated and transmitted based on continuous biometric information having a waveform, the biometric data transmission terminal transmits the continuous biometric information every predetermined sampling period 610. Generate one or more biometric data blocks for sampling and recording the sampled values, combine the biometric data blocks to generate biometric data 620, and generate biometric data messages including the biometric data 620 to generate predetermined biometric data messages. To the medical server.

As shown at 602, the biometric data message 602 includes biometric data 620 generated by combining twelve biometric data blocks that record the sampled value, and the sampling period 610. ), Information on the number of the biometric data blocks and information on the size of the biometric data block. For example, in the case of ECG information which is an example of biometric data, it is not defined as one value. ECG information is a value measured at regular time intervals, and a series of these values constitute meaningful biometric information. Therefore, one by one of ECG values measured in units of 1 ms is stored in the biometric data block. Then, in FIG. 6, the biometric data message 602 becomes a message including 12 ECG information sampled at a sampling period of 1 ms.

As shown by the reference numeral 603, the medical server receives the biometric data message, extracts the biometric data 620 from the biometric data message, and compares the number of biometric data blocks included in the biometric data message. Extracting the twelve biometric data blocks from the biometric data 620 based on the information on the size of the biometric data block and restoring the biometric information based on the sampled values included in the twelve biometric data blocks. do.

7 is a flowchart illustrating a flow of a method of transmitting biometric data and a method of operating a medical server according to an exemplary embodiment of the present invention. Steps S701 and S702 are each step of the biometric data transmission method, and steps S703 and S704 mean each step of the medical server operation method.

In step S701, the biometric data message generated by converting the biometric data of the user into a form that can be transmitted by SMS is generated. The biometric data message may include biometric data and information on biometric data, and may have a size of 80 bytes or less, which is a typical SMS transmittable size. The information about the biometric data includes biometric data identifier, user identifier, time information, biometric data classification code, number of sub biometric data, sequence identifier, number of biometric data blocks, biometric data block size and sampling period. can do. The biometric data identifier identifies which biometric data belongs to the biometric data message, and the sequence identifier identifies the biometric data included in the biometric data message. According to an embodiment of the present invention, the biometric data includes at least one biometric data block for recording a sampled value at a predetermined sampling period, and the biometric data message includes information on the number of biometric data blocks and the biometric data block. It may include information about the size of the data block.

In operation S701, when the biometric data exceeds a size that can be transmitted by SMS, the biometric data may be separated into two or more sub-biometric data to generate two or more biometric data messages including respective sub-biometric data. have. That is, when generating the biometric data, when the biometric data exceeds the size that can be transmitted by SMS, the biometric data is separated into two or more sub-biometric data. In this case, the biometric data is separated such that the sub biometric data has a size that can be included in one SMS message. In this case, the biometric data message is generated to include one sub biometric data selected from the at least two sub biometric data, a biometric data identifier identifying the biometric data, and a sequence identifier identifying the selected sub biometric data.

In step S702, the biometric data message generated in step S701 is transmitted to a predetermined medical server using SMS. The transmission may be performed using a mobile originated (MO) service. A mobile originated (MO) service is a mobile communication service provider and other wired / wireless communication service providers such as mobile phones and PDAs used by mobile subscribers in a mobile communication network. It refers to a service for transmitting a short message and a multimedia message to the MO number, which is a data reception number assigned by a network operator.

In step S703, the biometric data message transmitted using the SMS in step S702 is received. Receiving the biometric data message transmitted using the SMS can be performed using the MO (Mobile Originated) service.

In step S704, the biometric data of the user is extracted from the biometric data message received in step S703. The biometric data message may include biometric data and information on biometric data. In operation S704, biometric data included in the biometric data message is extracted, and in some cases, biometric data is generated using information on the biometric data. Can be processed.

The biological data transmission method and the medical server operating method according to the present invention may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. The medium may be a transmission medium such as an optical or metal wire, a waveguide, or the like including a carrier wave for transmitting a signal specifying a program command, a data structure, or the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the present invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

According to the present invention, it is possible to transmit biometric information using an SMS transmission terminal without a separate wireless communication module, thereby enabling remote medical service anytime and anywhere.

Further, according to the present invention, when the size of the biometric data exceeds the size that can be transmitted by SMS, the biometric data can be separated and transmitted, thereby transmitting a large amount of biometric data.

In addition, according to the present invention by generating the biometric data by sampling the continuous biometric information of the waveform at a predetermined period and by transmitting the biometric data via SMS, to transmit the biometric data recording the continuous biometric information of the waveform to the medical server It is effective.

In addition, according to the present invention, it is possible to transmit biometric data including at least one biometric data block by using SMS, so that biometric data including two or more values can be conveniently transmitted to a medical server.

In addition, according to the present invention by receiving a biometric data message transmitted by the medical server using the SMS to extract the biometric data from the biometric data message, it is possible to obtain biometric data without a separate receiving device or processing module It works.

Claims (18)

delete A biometric data transmission terminal configured to generate biometric data messages obtained by converting biometric data of a user into a form that can be transmitted by SMS, and transmit the biometric data messages to a predetermined medical server by using SMS; And A medical server receiving the biometric data message from the biometric data transmission terminal and extracting biometric data of the user from the received biometric data message Including, The biometric data transmission terminal, A data separator for separating the biometric data into two or more sub-biometric data when the biometric data exceeds a size that can be transmitted by SMS; And A message processor configured to generate the biometric data message to include one sub biometric data selected from the at least two sub biometric data, a biometric data identifier identifying the biometric data, and a sequence identifier identifying the selected sub biometric data; Including, The medical server, The biometric data transmission system of claim 10, wherein the biometric data transmission system combines the sub biometric data included in the biometric data messages having the same biometric data identifier and restores the biometric data. The method of claim 2, The biometric data transmission terminal, A biometric data generator configured to generate at least one biometric data block for recording a value obtained by sampling consecutive biometric information of the user at a predetermined sampling period, and to combine the biometric data block to generate the biometric data; Generating a biometric data message to further include information on the sampling period, information on the number of biometric data blocks, and information on the size of the biometric data block, The medical server, Extracting biometric data from the received biometric data message, The extracted biometric data is divided into one or more biometric data blocks based on the information on the number of biometric data blocks included in the biometric data message and the information on the size of the biometric data block. And restore the biometric information based on the value recorded in the biometric data block and the information on the sampling period included in the biometric data message. delete A biometric data message generation unit configured to generate biometric data messages obtained by converting biometric data of a user into a form transmittable by SMS; And Biometric data message transmission unit for transmitting the biometric data message to a predetermined medical server using SMS Including, The biometric data message generation unit, A data separator for separating the biometric data into two or more sub-biometric data when the biometric data exceeds a size that can be transmitted by SMS; And A message processor configured to generate the biometric data message to include one sub biometric data selected from the at least two sub biometric data, a biometric data identifier identifying the biometric data, and a sequence identifier identifying the selected sub biometric data; Biological data transmission terminal comprising a. The method of claim 5, wherein the sequence identifier, And corresponding to a sequence of the sub biometric data in the bio data to which the sub biometric data belongs. The method of claim 5, wherein the biometric data message, And a field indicating the number of sub-biological data constituting the biometric data. The method of claim 5, The biometric data includes one or more biometric data blocks for recording a sampled value every predetermined sampling period, And the biometric data message generating unit generates the biometric data message to further include information on the number of biometric data blocks and information on the size of the biometric data block. The method of claim 5, A biometric data generator configured to generate at least one biometric data block for recording a value obtained by sampling consecutive biometric information of the user at a predetermined sampling period, and to combine the biometric data block to generate the biometric data; The biometric data message generating unit generates the biometric data message to further include information on the sampling period, information on the number of biometric data blocks, and information on the size of the biometric data block. . delete delete The method of claim 5, The biometric data message generation unit, And a biological data classification code for distinguishing the type of the biological data. delete A biometric data message receiver configured to receive biometric data messages transmitted using SMS; And Biometric data extraction unit for extracting the biometric data of the user from the biometric data message Including, The biometric data message, Includes one of the sub-biometric data that is separated into two or more biometric data of the user, a biometric data identifier for identifying the biometric data and a sequence identifier for identifying the sub-biometric data, The biometric data extraction unit, And extracting biometric data by combining sub biometric data included in a plurality of biometric data messages having the same biometric data identifier. The method of claim 14, The biometric data message, Biometric data generated by combining one or more biometric data blocks for recording a value obtained by sampling consecutive biometric information of the user at a predetermined sampling period, The method further includes information on the sampling period, information on the number of the biometric data blocks, and information on the size of the biometric data block. The biometric data extraction unit, Extracting biometric data from the received biometric data message, The extracted biometric data is divided into one or more biometric data blocks based on the information on the number of biometric data blocks included in the biometric data message and the information on the size of the biometric data block. And recovering the biometric information based on the value recorded in the biometric data block and the information on the sampling period included in the biometric data message. Generating a biometric data message obtained by converting biometric data of the user into a form transmittable by SMS; And Transmitting the biometric data message to a predetermined medical server using SMS; The generating of the biometric data message includes: Separating the biometric data into two or more sub-biometric data when the biometric data exceeds a size that can be transmitted by SMS; And Generating the biometric data message to include one sub biometric data selected from the at least two sub biometric data, a biometric data identifier identifying the biometric data, and a sequence identifier identifying the selected subbiometric data; Biological data transmission method comprising a. The method of claim 16, The biometric data includes one or more biometric data blocks for recording a sampled value every predetermined sampling period, The biometric data message includes information on the number of biometric data blocks and information on the size of the biometric data block. A computer-readable recording medium having recorded thereon a program for executing the method of claim 16 or 17.

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