KR20110135676A - Near field communication processing syste improving the compatibility of communication environment for processing the multibiosignal - Google Patents

Abstract

PURPOSE: A near field communication processing system improving the compatibility of communication environment for processing the multi biosignal is provided to secure health condition in desired time by supplying various bio signals in real time and analyzing it. CONSTITUTION: In a near field communication processing system improving the compatibility of communication environment for processing the multi bio signal, a receiving unit receives body information data. A data frame confirmation unit decides the conversion of the data frame form. A library DB stores the form information of data frame. The converting unit changes a standard form after analyzing a search result. A data classification unit(210) classifies the body information from body information data. A storage unit(220) stores the body information. A data analysis unit(230) analyzes the saved body information. A controller transmits the analyzed result to an output station(40).

Description

Near Field Communication processing syste improving the compatibility of communication environment for processing the multibiosignal}

The present invention is installed in a general home or public places, such as detecting the bio-signal emitted by the user and analyzing the bio-signal to provide a variety of information for the user voluntary health care to improve the communication compatibility for multiple short-range communication A communication processing system.

The human body generates various bio signals while autonomous movement of various organs under the control of the autonomic nervous system. Since the bio-signal shows a specific behavior according to the physical condition such as heart rate information, respiration information, body temperature information, and the like, the bio-signal can reversely recognize the human body state from the bio-signal.

Medical devices for precisely measuring bio signals are mainly used in specialized medical institutions, and the types of bio signals are also varied depending on the type of bio signals to be measured and the purpose of measurement.

However, since the medical device is installed in the medical institution as mentioned above, and can be used only by the doctor's medical treatment and prescription, the general public has no choice but to limit the use of the medical device.

On the other hand, as life was relaxed and science developed, many changes occurred to people's interests. In particular, leisure afforded people's attention to health rather than material, and people's desire for disease-free longevity grew. In other words, people are looking for ways to think about how to maintain their health and how to improve their health.

In response to these needs, methods for health care are provided through various media. That is, how to strengthen the heart, how to strengthen the joints, and how to prevent obesity is provided through various books, broadcast and the Internet.

However, since the health information provided is not based on a person's current physical condition, but is provided based on a standard body condition of the general public, such health information may harm a person in a particular physical condition. Depending on the physical condition of a person, the health information may be excessive or insufficient for a specific person.

In addition, even if the life pattern, diet, exercise, etc. are performed according to the health information, there is a limit in that it is not possible to objectively check the change in the state of the body, so that the profit for the health information cannot be determined. Of course, regular check-ups can be solved by medical institutions, but as mentioned above, it is practically limited to have regular check-ups as long as there is no specific illness, and you can check your physical condition in real time in your daily life. There are few ways to do this, however, and the problem is that even if people's attention is focused on health, there are not really many ways to perform effective health care.

Meanwhile, the human biosignal may be collected through various devices. In addition, the type of the device also varies depending on the type of the biological signal. However, these devices have a limitation in integrating and using them collectively because manufacturers or data formats are not uniform or standardized. After all, a user who checks his / her physical condition every day using various devices has had to use the devices individually. In addition, since the biometric information measured by the devices are provided to the user individually, there is a disadvantage in that the user cannot analyze the complex change of the biosignal due to his or her physical condition.

Therefore, the present invention has been invented to solve the above problems, people can check their physical condition in real time in daily life, and if necessary, can take advantage of the health information that fits my body, through which health care It is a technical problem to provide a short range communication processing system with improved communication compatibility for multi-biological signal processing to realize the generalization of the present invention.

In addition, by unifying the communication format of the body information data transmitted from the various bio-signal measuring terminal, improve the communication compatibility with the bio-signal measuring terminal, and through this it is possible to receive and analyze the body information data of various formats, Another technical task is to provide a short range communication processing system with improved communication compatibility for processing multiple biosignals that can improve accuracy and reliability of information analysis.

According to an aspect of the present invention,

A plurality of receiving means for receiving body information data transmitted in a communication format of a biological signal measuring terminal, data frame checking means for determining whether to convert the data frame format by checking a data frame format of the body information data, and data A receiving unit having a library DB for storing the format information of the frame, and converting means for retrieving and analyzing the data frame format of the body information data determined by the data frame checking means from the library DB, and converting the data frame format into a standard format;

Data classification means for classifying the body information from the body information data of the receiver, storage means for storing the body information, and data analysis for analyzing the body information stored in the storage means if the user analysis request signal input or set analysis conditions are satisfied A control unit including a means and a control means for receiving an input signal of an input unit to control an operation of the data analyzing means and receiving an analysis result of the data analyzing means and transmitting the result to an output terminal through an output unit;

It is a short-range communication processing system that improves the communication compatibility for processing multiple bio-signals including.

According to the present invention as described above, the user can be analyzed by providing a variety of bio-signals of their own in real time in a situation where the user is not aware, and can be checked at any time at the time desired by the user, so Health care can be spontaneously and lively, and it can receive, analyze and process various communication formats of the biosignal measuring terminal that transmits such biosignals, thereby analyzing and processing them, thereby increasing the reliability of analysis of physical information. .

1 is a block diagram showing a state of a processing system according to the present invention;
2 is a flowchart sequentially illustrating a health care method according to the present invention;
3 is a flowchart sequentially showing another aspect of the health care method according to the present invention,
4 is an image showing a UI of a processing system according to the present invention;
5 is an image showing the analysis result UI of the processing system according to the present invention,
6 is an image showing feedback information of a processing system according to the present invention;
7 is a block diagram showing the configuration of a receiver according to the present invention;
8 is an image showing the configuration of a receiver according to the present invention,
9 is an image showing an embodiment of a data frame according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail. In the following description of the present invention, when it is determined that the detailed description of related known functions or known configurations or obvious matters to those skilled in the art may unnecessarily obscure the subject matter of the present invention, detailed description thereof will be omitted.

1 is a block diagram showing a state of a treatment system according to the present invention, Figure 2 is a flow chart showing a health care method according to the present invention sequentially, it will be described with reference to this.

The processing system according to the present invention includes a health care device 10 for processing body information data transmitted from at least one biosignal measuring terminal 20, and the user can control the operation of the health care device 10. It may include an input terminal 30 for outputting, and an output terminal 40 for outputting the data provided by the health care device 10.

Since the treatment system according to the present invention should be designed so that the user can utilize it in everyday life without any objection, the health care device 10 may be manufactured in the form of a general set-top box in order to increase the efficiency of the arrangement, and this type of health The management device 10 may operate in connection with a conventional IPTV or monitor as the output terminal 40, and a remote controller or various keyboards may be applied as the input terminal 30.

On the other hand, the bio-signal measuring terminal 20 is for confirming a variety of body information of the user, recognizes the user's bio-signal in a contact method or a non-contact method. For example, in the case of the contact method, a wrist-shaped pulse detector (see FIG. 8) is applied to check body information through a pulse detected by the wrist. Therefore, the user may wear the pulse detector in everyday life. On the other hand, in the non-contact method, by detecting a minute wave generated due to the heartbeat to check heart rate information such as heart rate, blood pressure, etc., one or more places are installed in the place where the user lives. Therefore, the user can provide his / her physical information to the processing system while living in the same way as usual without having to wear a separate device.

For reference, the biometric signal measuring terminal 20 of the contact method or non-contact method for body information is well-known and commonly used, a measuring device for checking a user's heartbeat information, a BMI measuring device for checking a body obesity level, and a blood sugar measuring device. A device, a blood pressure monitor, and the like may be various, and the processing system according to the present invention is not limited to the data format of the biosignal measuring terminal 20.

Meanwhile, the body information data measured by the biosignal measuring terminal 20 is transmitted to the health care device 10, and the health care device 10 checks the body information data and outputs the analysis result to the output terminal 40. Output through Of course, the user can see the analysis results output through the output terminal 40, and can check his or her current state or health status, and this status check can be made frequently in real life according to the user's will, health care It becomes possible to liven about.

The treatment system according to the present invention which produces such an effect will be described in detail with the health care method.

S1; Bio signal detection step

As mentioned above, the biosignal measuring terminal 20 detects the biosignal of the user, generates the body information data in a predetermined format, and transmits the generated biosignal to the receiving unit 100 of the health care apparatus 10.

Communication between the biosignal measuring terminal 20 and the health care device 10 may be performed by wire or wirelessly, but communication is performed in a wireless manner to ensure the degree of freedom of the biosignal measuring terminal 20 or the freedom of the installation location. It would be desirable to proceed.

In the case of wireless communication, the body information data will be converted to a communication area of a predetermined frequency through normal A / D conversion and transmitted to the health care device 10, in addition to the biosignal measuring terminal 20 and the health care device 10. In the communication between the well-known, public data wireless communication such as Bluetooth, WLAN, Zigbee, etc. may be applied.

For reference, the body information data may include standardized communication information for communication between the health care device 10 and the biosignal measuring terminal 20, and various body information of the user. In addition, when there is more than one user to be detected by the biosignal measuring terminal 20, an identifier for identifying whose body information is detected body information may be further included. Therefore, the biosignal measuring terminal 20 may further include an identification means (not shown) for user identification, and if the user is identified by the identification means, an identifier set for each user may be added to the body information data. have. In the present embodiment, the identification means is described in one configuration to the biosignal measuring terminal 20, the identification means may be an article independent of the biosignal measuring terminal 20. In addition, a method of identifying a user may include a face recognition method, a voice recognition method, a fingerprint recognition method, and the like. In addition, a unique ID may be assigned to the user to log in using the ID when the user operates the processing system according to the present invention. The processing system may then recognize the user to identify the user. Here, the input of the ID may be input by the user through a keyboard operation, or may be input by touching the ID card provided to the user by the identification means.

S2; Body Information Data Receiving Step

The receiver 100 receives the body information data transmitted by the biosignal measuring terminal 20 and converts the body information data into a standard format that can be processed by the controller 200 of the health care apparatus 10.

As mentioned above, the biosignal measuring terminal 20 may convert the body information data into various formats and transmit them to the health care device 10, which may be an analog type having continuity, or separate one data into many. It may also be the type of packet to send.

The receiver 100 converts various types of body information data that can be transmitted from the biosignal measuring terminal 20 into the standard format, and classifies the body information from the body information data. In this case, an identifier for identifying a user may be included in the body information data, and the receiver 100 may link the identifier with the corresponding body information to convert the identifier.

7 is a block diagram showing the configuration of the receiver according to the present invention, Figure 8 is an image showing the configuration of the receiver according to the present invention. Referring to this in detail, the receiver 100 according to the present invention is a living body Confirming the data frame to identify and classify the frame type of the body information data received by the receiving means (110a to 110d) and the receiving means (110a to 110d) for receiving the body information data transmitted from the signal measuring terminal (20a to 20d) Means 120, a library DB 130 for storing information on the frame format of the body information data, and the body information data are converted in accordance with the information contained in the library DB 130 for processing in the processing system according to the present invention. And converting means 140 for generating in the standard form.

As shown in Figures 7 and 8, the processing system according to the present invention can communicate with various types of biosignal measuring terminals (20a to 20d). However, since the manufacturers of the biosignal measuring terminals 20a to 20d may be different and the types of body information data to be generated may also be different from each other, the body information data transmitted from the various biosignal measuring terminals 20a to 20d may be different. Integrated analysis in one place is virtually difficult.

In order to solve this problem, the processing system according to the present invention is constructed and operated as follows.

First, the biosignal measuring terminals 20a to 20d measure the user's biosignal, generate body information data according to a unique data frame format, and then generate the body information data in a unique communication format (protocol). Send in time.

Receiving unit 100 receives the body information data sent from the various biological signal measuring terminals (20a to 20d), the body information data sent by the biological signal measuring terminals (20a to 20d) is configured in a unique communication format, these It includes dedicated receiving means (110a, 110b) for the reception of the. That is, as shown in the receiving means (110a, 110b) is provided in the receiving unit 100, respectively, dedicated to the bio-signal measuring terminal (20a, 20b), regardless of the communication format of the bio-signal measuring terminal (20a, 20b) It is to allow the body information data to be received normally.

For reference, as shown in Figure 8, the receiving unit 100 of the health care device may be provided with a variety of receiving means, such receiving means may receive body information data transmitted to the health care device via wired or wireless. have.

Meanwhile, the data conversion communication means 21a and 21b may be directly installed in the biosignal measuring terminals 20c and 20d. In other words, the data conversion communication means 21a, 21b is a communication format that the receiving unit 100 can process so that the receiving means 110c, 110d can normally receive the transmission data of the biosignal measuring terminals 20c, 20d. To convert it and send it. As a result, the data conversion communication means 21a and 21b are installed in the biosignal measuring terminals 20c and 20d for transmitting the body information data that the health care device cannot process, thereby transmitting the body information data to the health care device. Prior to the health care device is first converted into a format that can be received and processed.

On the other hand, since the receiving means (110a to 110d) is for receiving the body information data transmitted by the bio-signal measuring terminal (20a to 20d), the communication format will be generally applicable to the widely used protocol. For example, the biosignal measuring terminals 20a to 20d may include WBAN communication formats such as Bluetooth and Zigbee, WLAN communication formats such as short-range wireless LAN, USB communication formats, CDMA communication formats, and the like. In addition, the communication device 10 may communicate with the health care device 10 through a wired communication type such as Ethernet (wired) and a cable. For this purpose, the receiving means 110a to 110d may be designed to process the communication type.

The data frame checking means 120 checks the body information data received by the receiving means 110a to 110d to determine whether the body information data is a standard format that can be processed by the health care apparatus 10 according to the present invention. Check it. In general, since data is produced in a frame format, mutually compatible devices and calculations are possible between devices that are compatible with each other, but interworking of data is not performed between incompatible devices. can not do it. Therefore, in order to smoothly process data between two or more devices, the data frame format of the biosignal measuring terminals 20a to 20d should be unified into one, and for this purpose, the data frame checking means 120 is a receiving means 110a to 110d. Check the body information data of the health care device 10 to determine whether it is a standard format that can be processed.

Typically, a frame of data is a header including information on a communication format (standard) and the type, size, and the like of data, as shown in FIG. 9 (an image showing an embodiment of a data frame according to the present invention). It is composed of a payload including information on the content of the, such as the format of the data frame may vary depending on the type of the bio-signal measuring terminal (20a to 20d). The data frame checking means 120 checks the data frame format and classifies it.

As a result of confirming the data frame checking means 120, if the data frame format of the received body information data is confirmed in a standard format that can be processed by the health care device 10, the data frame checking means 120 is the corresponding body information data. It may be delivered to the control unit 200.

The library DB 130 stores information on the data frame format for each data frame format. When the library DB 130 installs an application for driving or communicating the biosignal measuring terminals 20a to 20d in the health care device 10, the data is stored. The frame type information may be stored, or may be stored when the data frame type information is downloaded by accessing an Internet site of the biosignal measuring terminals 20a to 20d.

The conversion means 140 analyzes the body information data that needs to be converted with reference to the data frame format information of the library DB 130 and then converts the body information data into a standard format that can be processed by the health care apparatus 10 according to the present invention. do. The body information data converted in this way is transmitted to the control unit 200.

In the healthK system according to the present invention, the SIC encoding module and the interworking middleware for the fusion protocol of the biosignal measurement terminals 20a to 20d are developed and applied.

S3; Physical information classification stage

The data classification means 210 of the control unit 200 may measure various types of data measured by the biosignal measuring terminals 20a to 20d, such as heart rate information, respiration information, body temperature information, blood sugar information, or obesity information, in the body information data of the receiver 100. Physical information may be classified, and for example, heart rate information may be classified among them. Heart rate information may include heart rate per second, heart rate, heart rate, and the like, which is a basic element for analyzing the state of health of the heart.

Meanwhile, the body information data may include an identifier, and the data classification unit 210 classifies and classifies the classified body information for each identifier. For example, if the body information data includes the A identifier and the body information accordingly, the data classification means 210 links the body information with the A identifier and organizes them.

In addition, the body information data may include two or more body information, and thus may include two or more identifiers. Therefore, the data classification means 210 links and organizes the corresponding body information according to the identifier included in the body information data.

Subsequently, the classified body information is stored in the storage means 220. In the processing system according to the present invention, the biosignal measuring terminal 20 measures the biosignal of the user in real time, and transmits the biosignal data of the measured biosignal to the health care device 10 at a predetermined cycle. Therefore, the storage means 220 stores the body information transmitted and classified at a predetermined cycle, so that the user can check the change state of the biological signal. In addition, the body information separated by the identifier is stored separately by the identifier in the storage means 220.

The storage unit 220 may include user information as well as body information. The user information may include information such as various body sizes, medical history, such as a user name, gender, age, weight and height, and the like. Therefore, the body information can be stored and managed for each user separated in this way.

On the other hand, the user information stored in the storage means 220 may be added, deleted or updated according to the user's operation using the input terminal 30. The processing system according to the present invention allows various UIs to be output to the output terminal 40 so that the user can easily utilize the same. In more detail, the control means 240 is installed with various programs for the operation of the processing system communication between the user and the health care device 10, communication between the internal components of the health care device 10, measuring the bio-signals By collectively controlling the communication between the terminal 20 and the health care device 10, when the user operates the input terminal 30, the corresponding information is output to the output terminal 40 correspondingly.

For example, when the user operates the input terminal 30 to register a new user, the input signal of the input terminal 30 is transmitted to the control means 240 through the input unit 310, the control means ( In response to this, the form-related UI for user registration shown in FIG. 4 (the image showing the UI of the processing system according to the present invention) is transmitted to the output terminal 40 via the output unit 320 and outputs the UI. .

The user operates the input terminal 30 in accordance with the form output to the output terminal 40, the user information is input to the control means 240 is stored in the storage means 220. Of course, the control means 240 generates the unique identifier of the user, the identifier is stored with the corresponding user information stored in the storage means 220. Therefore, when the user is identified through the identification means, the control means 240 retrieves the identifier of the user from the storage means 220 and transmits it to the biosignal measuring terminal 20, the biosignal measuring terminal 20 is The body information data including the identifier is completed and transmitted to the health care device 10.

In addition, the body information data may not include an identifier. In more detail, the biosignal measuring terminal 20 continuously transmits the corresponding body information data to the health care device 10 while continuously detecting the biosignal without distinguishing a user, and the identification means recognizes the identifier. When the identifier is transmitted to the data classification means 210, the data classification means 210 may link the body information of the body information data received at the same time with the identifier to classify and store it in the storage means 220.

S4; Physical information analysis stage

The data analyzing means 230 analyzes the body information stored in the storage means 220 according to a specific criterion, and the control means 240 transmits the analysis result to the output unit 320 and outputs it from the output terminal 40. Do it.

At this time, the data analysis means 230 may be controlled by the control means 240, the user can control the operation of the control means 240 by operating the input terminal 30. That is, when the user wants to know the analysis result of his biosignal, the user terminal operates the input terminal 30 to input the user analysis request signal to the control means 240, and the control means 240 controls the user analysis request signal. By driving the data analysis means 230, the data analysis means 230 to check the body information stored in the storage means 220 to analyze it. As an example, the biosignal measuring terminal 20 detects a user and measures the biosignal of the user in real time, generates the body information data, and transmits the biosignal to the health care device 10. The health care apparatus 10 stores the body information in the storage means 220 as described above, and may divide and store the body information for each user. Subsequently, when the user operates the input terminal 30 to check the analysis result of his / her physical information and inputs the user analysis request signal, the control means 240 drives the data analyzing means 230 and analyzes the data. The means 230 retrieves the user's body information from the storage means 220 and analyzes it. Then, when the analysis of the data analysis means 230 is completed and the analysis result is completed, the control means 240 transmits the analysis result to the output terminal 40 via the output unit 320 to the user to do this. Make sure to check.

In addition, when the analysis condition set by the user is satisfied, the control unit 240 may drive the data analysis unit 230 to proceed with the analysis of the body information stored in the storage unit 220. That is, when the user sets the timer to output the analysis results every predetermined time, the control means 240 drives the data analysis means 230 each time the corresponding time arrives, accordingly the user separate request Without inputting a signal, it is possible to confirm an analysis result according to his biosignal. On the other hand, the analysis condition, in addition to a time condition such as a timer, a sudden change may occur in the user's body information or a situational condition such as a change in the surrounding environment may be applied, and when such a condition is satisfied, the control means 240 analyzes data. The means 230 may be driven to analyze the user's body information.

For reference, a procedure for inputting a user analysis request signal and a procedure for setting an analysis condition may be guided in the UI of the processing system shown in FIG. 4.

In the meantime, various criteria may be applied to the analysis of the heart rate information during the physical information analysis by the data analysis means 230. The most representative and standardized method is the HRV (Heart Rate Variability) analysis method of the data analysis means 230. Applicable to the criteria.

For reference, the HRV analysis method includes two methods, time domain analysis and frequency domain analysis. Here, time domain analysis continuously checks the heartbeat interval and extracts values such as SDNN, SDNN index, RMSSD, HRV index, and mean HRV by statistical analysis of heart rate change rate. In the frequency domain analysis, the TP, VLF, LF, and HF values are extracted by analyzing the degree of heart rate change by frequency. Through this frequency analysis, it is possible to know the interaction between the sympathetic and parasympathetic nerves (ANS) on the heart.

The analysis of heart rate information may refer to user information in addition to the HRV method described above. In other words, by analyzing the heart rate information according to the user's age or obesity state, it is possible to derive the ideal analysis results for the user. To this end, the data analyzing means 230 derives the final analysis result using the user information of the user together with the heart rate information stored in the storage means 220.

S6; Output stage

As described above, the analysis result of the data analyzing means 230 transmits the control means 240 to the output unit 320 so that the output terminal 40 can output it. Of course, the control means 240 outputs the UI as shown in Figure 5 (image showing the analysis result UI of the processing system according to the present invention) so that the user can easily understand the analysis result.

The user can know the numerical information such as his heart rate, the rate of change of the heart rate and the heart rate cycle through the output of the analysis, and can further confirm the literature information on the physical condition according to the analysis result.

3 is a flowchart sequentially illustrating another aspect of the health care method according to the present invention, which will be described with reference to this.

Health care method according to the invention may further comprise a feedback information search step (S5). The feedback information includes the contents to be taken by the user in response to the analysis result of the data analyzing means 230. The contents of the feedback should be avoided from excessive exercise, regular exercise, adjustment of the diet, or the like. Information can be illustrated.

To this end, the control unit 200 further includes a feedback means 250 and a feedback information DB 250.

The feedback information DB 250 stores various detailed feedback information according to the analysis result of the data analyzing means 230. In this case, the analysis result may be stepped (indexed) into three stages, such as a high risk group, a risk group, and a normal group, or the step may be divided into four or more stages by subdividing the stage. Therefore, the feedback information may be generated according to the type of analysis result staged. For reference, in the present invention, the heartbeat information is illustrated as a biosignal, but as mentioned above, the plurality of biosignal measuring terminals 20 may measure each biosignal and transmit body information to the health care device 10. . Accordingly, the feedback information stored in the feedback information DB 250 may combine the two or more bio signals so that the user's body state may be confirmed using the plurality of bio signals and the feedback information may be provided in detail. Optimized information should be provided corresponding to the number of occurrences. For example, the biosignal measuring terminal 20 may further measure respiration information in addition to the heartbeat information of the user. Like the heart rate information measuring method, the biosignal measuring terminal 20 detects the expansion and contraction of the user's chest or the airflow of the mouth and nose, and thus detects the breathing rate and the volume of the breath. Information is generated as respiratory information data is transmitted to the health care device (10). Of course, the receiving unit 100 and the control unit 200 of the health care device 10 receives and processes the respiratory information data together with the heart rate information data, in particular, the data analysis means 230 of the control unit 200 is the respiratory information data. Check the user's body status by comparing and analyzing the heart rate information of respiratory information and heart rate information data. In other words, the sudden increase in heart rate can also be achieved through general exercise.If the breathing rate is constant and the heart rate is increased, problems with the organs such as the heart can be estimated, and appropriate feedback information is set and stored. You can also guide them.

The feedback means 260 checks the analysis result of the data analysis means 230 and retrieves the corresponding feedback information from the feedback information DB 250, and the control means 240 outputs the corresponding feedback information to the output unit 320. It can be transmitted to the output terminal 40 as a medium, and as shown in FIG. 6 (image showing feedback information of the processing system according to the present invention), feedback information in various UI formats can be provided.

Claims (2)

A plurality of receiving means for receiving body information data transmitted in a communication format of a biological signal measuring terminal, data frame checking means for determining whether to convert the data frame format by checking a data frame format of the body information data, and data A receiving unit having a library DB for storing the format information of the frame, and converting means for retrieving and analyzing the data frame format of the body information data determined by the data frame checking means from the library DB, and converting the data frame format into a standard format;
Data classification means for classifying the body information from the body information data of the receiver, storage means for storing the body information, and data analysis for analyzing the body information stored in the storage means if the user analysis request signal input or set analysis conditions are satisfied A control unit including a means and a control means for receiving an input signal of an input unit to control an operation of the data analyzing means and receiving an analysis result of the data analyzing means and transmitting the result to an output terminal through an output unit;
Short-range communication processing system for improving communication compatibility for processing multiple bio-signals comprising a. The method of claim 1,
The communication format of the receiving means is a short-range communication processing system for improving communication compatibility for multi-biological signal processing, characterized in that the selected one of the wireless communication of WBAN or WLAN, and wired communication of USB or Ethernet.

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