JP2012196330A - Biomedical device with near field communication function and method thereof for user identification, biomedical data measurement, biomedical data upload/download, biomedical data management, and remote medical care - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biomedical device with near field communication function and a method thereof for user identification, biomedical data measurement, biomedical data upload/download, biomedical data management, and remote medical care.SOLUTION: The biomedical device comprises a measuring unit, an environment sensing unit, a data transforming unit, a micro control unit, a memory unit, a smart card unit, a display unit, and a near field communication unit, wherein by way of near field communication unit, the biomedical device is connected and communicate with a portable device and a user individual information and the relative biomedical data thereof is transmitted to the portable device, moreover, through the portable device, the biomedical data can be uploaded to a cloud server and a user history data and an optimized setting data for personalization of the biomedical device can be downloaded from the cloud server.

Description

  The present invention relates to a biomedical device, and more particularly, a biomedical device having a short-range wireless transmission function and its user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing Regarding the method.

Currently, various biomedical devices such as a blood glucose meter, a weight scale, a blood pressure meter, an electrocardiograph, and a blood oxygen concentration meter are widely used in human life.
FIG. 1 is a perspective view showing a conventional blood glucose meter and a personal computer. As shown in FIG. 1, when a user inserts a test piece 2 'into a conventional blood glucose measuring device 1' and hangs blood on the reaction region 21 'of the test piece 2', the blood glucose measuring device 1 ' The blood glucose level is calculated, and when the calculation is completed, the blood glucose level is displayed on the screen 11 '.

  Normally, the blood glucose meter 1 ′ only displays the blood glucose level on the screen 11 ′, and the user records and tracks the daily blood glucose level by himself / herself using another electronic device such as a personal computer. There must be. As shown in FIG. 1, the blood glucose meter 1 ′ is provided with a connection cable 12 ′, and the connection cable 12 ′ includes a USB plug 121 ′, so that it can be connected to the USB port 31 ′ of the personal computer 3 ′. it can. Then, the user can upload the daily blood glucose level to the personal computer 3 ′ by application software installed in the personal computer 3 ′. In addition, the user can automatically track the blood glucose level every day using the application software. Thus, by connecting and using the blood glucose measuring device 1 'and the personal computer 3', the user can reliably record and track the daily blood glucose level.

  However, by connecting and using the blood glucose meter 1 'and the personal computer 3', it becomes easier for the user to record and track the blood glucose level every day. Is also inconvenient for the user. On the other hand, with the development of science and technology, the relationship between 3C products and biological science and technology and medical services, including the combination of technologies across video, database, and network domains, continues to increase. . As can be seen from this point of view, from the viewpoint of the user's needs, it can be said that the integration of the data of the biomedical device, the network and the database is urgently needed.

  In this regard, a biomedical measuring apparatus having a long-distance transmission function is disclosed in the Chinese Patent No. I292231. FIG. 2 is a structural view showing a biomedical measurement apparatus having a long-distance transmission function disclosed in the Chinese Patent No. I292231. As shown in FIG. 2, a biomedical measurement apparatus 1a having a long-distance transmission function includes a measurement unit 11a, a storage unit 12a, a detection unit 13a, a network server unit 14a, a mail server unit 15a, and a web server unit. 16a, IP selection unit 17a, and communication unit 18a.

  In the biomedical measurement apparatus 1a having the long-distance transmission function described above, the measurement unit 11a measures biomedical data, and the storage unit 12a stores the biomedical data. The network server unit 14a provides an Internet connection service, whereby the medical measurement device can upload biomedical data to a remote server through the network. The mail server unit 15a provides an e-mail transmission service, whereby the user can transmit the biomedical data to the remote server by e-mail. The web server unit 16a provides a web interface service, so that an administrator of a remote server can retrieve related information of biomedical data stored in the storage unit 12a via the web interface service. .

  Still referring to FIG. The detection unit 13a determines whether the biomedical data measured by the user exceeds the standard value range. When the biomedical data exceeds the standard value, the detection unit 13a issues warning information, and the warning information is sent to the remote server by the mail server unit 15a. The communication unit 18a can communicate with other biomedical measurement devices and receive various medical data from other medical measurement devices.

  As can be seen from the above description, the medical measuring device having a long-distance transmission function disclosed in the Chinese patent No. I29211 has a great number of functions, not only for measuring biomedical data, but also at the same time. The measured biomedical data can also be uploaded to a remote server. However, this medical measurement device has the following drawbacks.

  1. The biomedical measurement device 1a having a long-distance transmission function is a device used by an individual. Usually, after the user completes the measurement process of personal biomedical data by the measurement unit 11a, the medical measurement device 1a is a network server. Upload biomedical data to the remote server via unit 14a. As can be seen from this, when the second user uses the biomedical measurement apparatus 1a, an error in recording biomedical data occurs in the remote server.

  2. Since the biomedical measuring apparatus 1a includes the network server unit 14a, the mail server unit 15a, the web server unit 16a, the IP selection unit 17a, and the communication unit 18a at the same time, the production cost cannot be reduced. Therefore, the sales price of the product of the biomedical measurement apparatus 1a is high.

  On the other hand, since smartphones are widely used, how to make biomedical devices communicate with smartphones, and how to manage user personal data and corresponding biomedical data through smartphones, Uploading data to a remote server is a widely researched agenda. From this point of view, the inventor of the present invention enables a single biomedical device to be used by a plurality of people at the same time, and uses the smartphone to use the user's personal data and the corresponding biomedical data. In order to be able to manage, biomedical devices with short-range wireless transmission function and user identification, biomedical data measurement, biomedical data upload / download, biomedical data management , And successfully developed a method of remote medical nursing.

Taiwan Patent No. I29211

  According to the present invention, by connecting a short-range wireless communication unit and a portable device in communication, user personal information and corresponding biomedical data are stored via a smart card unit, and the user personal information is identified. The first object of the present invention is to provide a biomedical device having a short-range wireless transmission function, in which even if a plurality of people use the same biomedical device, data recording errors and determination errors do not occur.

  In addition, the present invention enables a user to communicate past data and personal best setting data of a biomedical device from a cloud server through a communication module of the portable device by communicatively connecting the short-range wireless communication unit and the portable device. Download and transmit the past data and the personal best setting data of the biomedical device to the biomedical device by a short-range wireless transmission method, so that the biomedical device is converted into the personal best setting data of the biomedical device. The second object of the present invention is to provide a biomedical device having a short-range wireless transmission function capable of performing a basic parameter setting process.

  In addition, the present invention transmits a biomedical data and personal information of a user to the portable device through the short-range wireless communication unit by communicatively connecting the short-range wireless communication unit and the portable device, A biomedical device with a short-range wireless transmission function that allows biomedical data and user information to be uploaded to a cloud server using a portable device, thereby enabling the cloud server to immediately perform a medical nursing process The third purpose is to provide

  Further, the present invention provides a biomedical device having the short-range wireless transmission function that communicates with a portable device to perform a data exchange process, and the communication module of the portable device performs biomedical data, user personal information, GPS information. A creature with short-range wireless transmission function that can upload time information and environmental temperature / humidity information to a cloud server, read the data using the cloud server, and perform an immediate medical nursing process A fourth object is to provide a method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a medical device.

  Therefore, in order to achieve the first object, the second object, and the third object of the present invention, a biomedical device having a short-range wireless transmission function according to the present invention is provided with at least short-range wireless communication. It communicates with a mobile device equipped with a smart card, and exchanges data using a short-range wireless transmission method. The biomedical device having the short-range wireless transmission function includes a measurement unit, an environment sensing unit, a data conversion unit, a micro control unit, a memory unit, a smart card unit, a display unit, and a short-range wireless communication. It consists of units. The measurement unit is connected to an object to be measured and measures an analog biomedical signal of the object to be measured. The environment sensing unit simultaneously detects temperature / humidity parameters of the external environment when the measurement unit measures the analog biomedical signal. The data conversion unit is connected to the measurement unit, receives an analog biomedical signal, and converts the analog biomedical signal into a digital biomedical signal. The micro control unit is connected to the environment sensing unit and the data conversion unit, and the micro control unit receives the digital biomedical signal and the temperature / humidity parameter simultaneously, and the digital biomedical signal and the temperature / humidity Organize parameters and combine them into a single biomedical data. The memory unit is connected to the micro control unit and stores the biomedical data. The smart card unit is connected to a micro control unit and stores biomedical data. The display unit is connected to a micro control unit, and the display unit receives biomedical data output from the micro control unit and displays biomedical values. The short-range wireless communication unit is connected to the smart card unit to access the smart card unit, and the short-range wireless communication unit transmits biomedical data stored in the smart card unit by a wireless transmission method. Transmit to the near field communication of the portable device.

  Among them, when the user wants to connect the object to be measured to the measurement unit, first, the short-range wireless communication unit is brought close to the short-range wireless communication of the portable device, and the short-range wireless communication and the short-range wireless communication unit are connected. When communicatively coupled, short-range wireless communication is a short-range wireless communication of user personal information, GPS information, time information, biomedical device personal best setting data, and environmental temperature / humidity information stored in the smart card. The smart card unit transmits the user personal information, the GPS information, the time information, the personal best setting data of the biomedical device, and the environmental temperature / humidity information to the communication unit. The user identification process and parameter setting process are completed.

In order to achieve the fourth object of the present invention, user identification, biomedical data measurement, biomedical data upload / download, biomedical data using a biomedical device having a short-range wireless transmission function according to the present invention, biomedical Data management and remote medical nursing methods
Procedure (1) for bringing a biomedical device having a short-range wireless transmission function closer to a portable device having at least a short-range wireless communication and a smart card;
Determine whether to start communication and data exchange process between the biomedical device and the portable device, and if so, perform step (3); otherwise, perform step (26), step (2) When,
Communicatively coupling the short-range wireless communication unit of the biomedical device and the short-range wireless communication of the portable device;
Downloading user personal information, GPS information, time information, and personal best setting data of the biomedical device from the cloud server by the communication module of the portable device,
Storing the user personal information, the GPS information, the time information, and personal best setting data of the biomedical device on a smart card; and (5),
The short-range wireless communication accessing the smart card, step (6);
The short-range wireless communication transmits user personal information, GPS information, time information, personal best setting data of the biomedical device, and environmental temperature / humidity information to the short-range wireless communication unit;
The short-range wireless communication unit stores the user personal information, GPS information, time information, personal best setting data of the biomedical device, and the environmental temperature / humidity information in the smart card unit;
The biomedical device completes the parameter setting process based on the user personal information and the personal best setting data of the biomedical device, step (9);
It is determined whether to download the user's past measurement data from the cloud server by the mobile device. If downloading, the procedure (11) is performed. If not, the procedure (12) is performed.
Downloading the past measurement data of the user from the cloud server by the communication module;
It is determined whether or not to start the measurement of the analog biomedical signal of the object to be measured using the biomedical device. When the measurement is started, the procedure (13) is performed, and when the measurement is not started, the procedure (19 Step (12), and
Connecting the object to be measured to a measurement unit of a biomedical device, step (13);
Procedure (14), wherein the measurement unit measures the analog biomedical signal of the object to be measured, and at the same time the environment sensing unit detects the temperature / humidity parameters of the external environment;
A step (15) in which the data conversion unit receives the analog biomedical signal and converts it to a digital biomedical signal;
A step (16) in which a micro control unit receives the digital biomedical signal and the temperature / humidity parameters simultaneously;
Procedure (17), wherein the microcontroller unit organizes digital biomedical signals and temperature / humidity parameters and combines them into a single biomedical data;
A procedure (18) in which a micro control unit stores the biomedical data in the smart card unit;
It is determined whether or not the biomedical data stored in the smart card unit is to be transmitted to the portable device. If the biomedical data is to be transmitted, the procedure (20) is performed. If not, the procedure (25) is performed. ,
The short-range wireless communication unit transmits biomedical data to short-range wireless communication;
Short-range wireless communication stores biomedical data on a smart card, step (21);
Determine whether to upload biomedical data to the cloud server. If uploading, perform step (23). If not uploading, perform step (25).
Uploading biomedical data, user personal information, GPS information, time information, and environmental temperature / humidity information to the cloud server by the communication module of the portable device;
Procedure (24), in which the cloud server immediately executes the medical nursing process;
It is determined whether or not the communication and data exchange process between the biomedical device and the portable device is to be terminated. If so, the procedure (26) is performed. If not, the procedure (3) is performed again. The procedure (25) When,
It is determined whether or not the measurement of the analog biomedical signal of the object to be measured using the biomedical device is to be terminated. If it is to be terminated, the procedure (27) is performed. If not, the procedure (13) is performed again. , Step (26),
Separating the biomedical device having the short-range wireless transmission function from the portable device; and (27),
Consists of.

It is the perspective view which showed the conventional blood glucose meter and the personal computer. 1 is a structural diagram showing a biomedical measuring apparatus having a long-distance transmission function disclosed in Chinese Patent No. I292111. It is the block diagram which showed the structure of the biomedical device provided with the short-distance wireless transmission function by this invention. It is the perspective view which showed the biomedical device provided with the short-distance wireless transmission function by this invention, and the portable apparatus provided with the short-range wireless communication and the smart card. FIG. 2 is a block diagram illustrating in more detail the structure of a biomedical device having a short-range wireless transmission function according to the present invention. It is the block diagram which showed the structure of the portable apparatus in detail. It is the perspective view which showed the body fat blood pressure meter and the portable apparatus. It is the perspective view which showed the electrocardiograph and the portable apparatus. 4 is a flowchart of a method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability according to the present invention. 4 is a flowchart of a method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability according to the present invention. 4 is a flowchart of a method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability according to the present invention. 4 is a flowchart of a method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability according to the present invention. 4 is a flowchart of a method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability according to the present invention. 4 is a flowchart of a method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability according to the present invention. It is a flowchart of the method of the detailed procedure of procedure S05. It is a flowchart of the method of the detailed procedure of procedure S06. It is a flowchart of the method of the detailed procedure of procedure S08. It is a flowchart of the method of the detailed procedure of procedure S18. It is a flowchart of the method of the detailed procedure of procedure S21. It is a flowchart of the method of the detailed procedure of procedure S24. It is a flowchart of the method of the detailed procedure of procedure S24.

  The biomedical device with short-range wireless transmission function according to the present invention and its user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing method can be understood in more detail. Hereinafter, the technical features of the present invention will be described in detail with reference to the drawings.

  FIG. 3 is a block diagram illustrating a structure of a biomedical device having a short-range wireless transmission function according to the present invention. As shown in FIG. 3, a biomedical device 1 having a short-range wireless transmission function (hereinafter abbreviated as a biomedical device 1) includes a near field communication (NFC) 21 and a smart card (smart card). ) 22 to communicate with the portable device 2 and exchange data by the short-range wireless transmission method. Usually, the biomedical device 1 is a blood glucose meter, a body fat meter, a sphygmomanometer, a blood oxygen concentration meter, and an electrocardiograph, and the portable device 2 is a smartphone, a PDA, a portable game machine, a digital photo frame, iPAD (registered trademark), notebook computer, and tablet PC, but here, using a blood glucose meter as a biomedical device 1 with a short-range wireless transmission function and a smartphone as a portable device 2 Give an explanation. Among them, the biomedical device 1 includes a measurement unit 11, an environment sensing unit 12, a data conversion unit 13, a microcontroller unit 14, a memory unit 15, a smart card unit (smart card) 16, and a display unit 17. And a near field communication unit (NFC) 18 and a power supply unit 19.

  The power supply unit 19 provides power to the measurement unit 11, the environment sensing unit 12, the data conversion unit 13, the micro control unit 14, the display unit 17, and the short-range wireless communication unit 18. The measurement unit 11 is connected to the device under test 3 and measures an analog biomedical signal of the device under test 3. The DUT 3 is a blood glucose test piece. Also, when the measurement unit 11 measures an analog biomedical signal, the environment sensing unit 12 detects the temperature / humidity parameter of the external environment at the same time. The data conversion unit 13 is connected to the measurement unit 11 to receive an analog biomedical signal and converts the analog biomedical signal into a digital biomedical signal. The micro control unit 14 is connected to the environment sensing unit 12 and the data conversion unit 13. The micro control unit 14 receives the digital biomedical signal and the temperature / humidity parameter at the same time, and arranges the digital biomedical signal and the temperature / humidity parameter into one biomedical data.

  Still referring to FIG. The memory unit 15 and the smart card unit 16 are simultaneously connected to the micro control unit 14 and used as a storage medium. The display unit 17 is connected to the micro control unit 14. The display unit 17 receives biomedical data output from the micro control unit 14 and displays biomedical values. The short-range wireless communication unit 18 is connected to the smart card unit 16 and accesses the smart card unit 16. In the biomedical device 1, the short-range wireless communication unit 18 transmits biomedical data stored in the smart card unit 16 to the short-range wireless communication 21 of the portable device 2 by a wireless transmission method.

  With continued reference to FIG. 3, reference is also made to FIG. FIG. 4 is a perspective view showing a biomedical device having a short-range wireless transmission function according to the present invention and a portable device having a short-range wireless communication and a smart card. As shown in FIG. 4, when the user wants to use the biomedical device 1, first, the biomedical device 1 is brought close to the portable device 2, and the short-range wireless communication unit 18 and the short-range wireless communication 21 are communicatively coupled. Thereby, the short-range wireless communication 21 receives the user personal information, the GPS information, the time information, the personal best setting data of the biomedical device, and the environmental temperature / humidity information stored in the smart card 22. 18 is transmitted. Then, the short-range wireless communication unit 18 stores the user personal information, the GPS information, the time information, the personal best setting data of the biomedical device, and the environmental temperature / humidity information in the smart card unit 16. Thereby, the biomedical device 1 performs a user identification process and a parameter setting process using the user personal information, the personal best setting data of the biomedical device, and the environmental temperature / humidity information. After the user identification process and the parameter setting process by the biomedical device 1 are completed, when the user connects the measurement object 3 to the measurement unit 11, the measurement unit 11 measures the analog biomedical signal of the measurement object 3. The Alternatively, the biomedical data stored in the smart card unit 16 by the short-range wireless communication unit 18 is transmitted to the short-range wireless communication 21 and stored in the smart card 22 of the portable device 2.

  Reference is now made to FIGS. FIG. 5 is a block diagram showing the structure of a biomedical device having a short-range wireless transmission function according to the present invention in more detail, and FIG. 6 is a block diagram showing the structure of a portable device in more detail. As shown in FIG. 5, in the biomedical device 1 having a short-range wireless transmission function according to the present invention, the smart card unit 16 includes a first micro processing unit 161 and a first micro memory unit 162. The first micro processing unit 161 is connected to the micro control unit 14 and the short-range wireless communication unit 18, and the biomedical data, the user personal information, the GPS information, the time information, and the biomedical device. The personal best setting data and the environmental temperature / humidity information are received. The first micro memory unit 162 is connected to the first micro processing unit 161. The first micro processing unit 161 receives all of the biomedical data, user personal information, GPS information, time information, biomedical device personal best setting data, and environmental temperature / humidity information that have already been received. Data is stored in the first micro memory unit 162.

  As shown in FIG. 6, the smart card 22 includes a second micro processing unit 221 and a second micro memory unit 222. Among them, the second micro processing unit 221 is connected to the short-range wireless communication 21, and the second micro memory unit 222 is connected to the second micro processing unit 221. In the portable device 2, the second micro processing unit 221 accesses the second micro memory unit 222 and stores the user personal information, the GPS information, the time information, and the like stored in the second micro memory unit 222. The personal best setting data of the biomedical device and the environmental temperature / humidity information are read, and the biomedical data is stored in the second micro memory unit 222.

  Continuing to refer to FIGS. When the user connects the device under test 3 to the measurement unit 11, the analog biomedical signal of the device under test 3 is measured by the measurement unit 11, and finally the analog biomedical signal is processed by the micro control unit 14. The biomedical data. Here, it is particularly necessary to explain that the biomedical data is stored in the memory unit 15 by the micro control unit 14. The biomedical data is also stored in the first micro memory unit 162 in the smart card unit 161 by the first micro processing unit 161. In addition, after the storage of the biomedical data is completed, the user can directly transmit the biomedical data into the portable device 2, or the next time the biomedical device 1 is used, Biomedical data can also be transmitted into the portable device 2 via the range wireless communication unit 18.

  When the short-range wireless communication 21 of the portable device 2 receives the biomedical data transmitted from the short-range wireless communication unit 18 so that the user (patient) can immediately receive medical care, the second micro The biomedical data is stored in the second micro memory unit 222 by the processing unit 221, and the biomedical data, the user personal information, the GPS information, the time information, and the environmental temperature are transmitted by the communication module 23 of the portable device 2. / Humidity information is uploaded to a cloud server equipped with a database. Furthermore, the cloud server records all data in the database, determines whether the value of the biomedical data is within the standard value range, and confirms the current health status of the user (patient). . When the cloud server discovers that there is a concern about the current health status of the user (patient) through the values of biomedical data, the cloud server immediately reports to a nearby medical institution. As a result, a staff member is dispatched from the nearby medical institution to the actual position of the user, and immediate relief is performed. In addition, before the user measures the biomedical data of the user using the biomedical device 1, the user records the user's past data recorded in the database from the cloud server via the portable device 2. Can be downloaded and compared with measured data.

  In the above description, the blood glucose measuring device is taken as an example, and the structure and function of the biomedical device having the short-range wireless transmission function according to the present invention are described. However, the structure of the present invention is a body fat measuring device. It can be similarly applied to a blood pressure monitor, a blood oxygen concentration measuring device, and an electrocardiograph. FIG. 7 is a perspective view showing a body fat sphygmomanometer and a portable device. As shown in FIG. 7, the biomedical device 1 having a short-range wireless transmission function according to the present invention can be a body fat sphygmomanometer. Among them, the measurement unit 11 has two bands, and the two bands can be measured around the user's left and right arms to measure the body fat value and blood pressure value of the user. FIG. 8 is a front view showing an electrocardiograph and a portable device. As shown in FIG. 8, the biomedical device 1 having a short-range wireless transmission function can be an electrocardiograph. Among them, the measurement unit 11 has two electrodes, and when the user presses two electrodes with the index fingers of the left and right hands, the electrocardiograph measures the electrocardiogram of the user. In addition, these are the same as the biomedical device 1 having a short-range wireless transmission function using the above-described blood glucose measuring device as an example. The body fat sphygmomanometer and the electrocardiograph can After the body fat value, the blood pressure value, and the electrocardiogram are measured and calculated, the data is stored in the smart card unit 16, and when the biomedical device 1 and the portable device 2 are communicatively connected, the data is portable. It is transmitted to the apparatus 2. Further, the biomedical data is uploaded to the cloud server by the communication module 23 of the portable device 2, the data is managed by the cloud server, and the user can receive immediate medical care.

  This completes the description of all possible structures and functions of a biomedical device with a short-range wireless transmission function according to the present invention. Next, user identification, biomedical data measurement, biomedical data upload, biomedical data management, and remote medical nursing methods using a biomedical device having a short-range wireless transmission function will be described below. 9A-9F illustrate user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability according to the present invention. 3 is a flowchart of a method. As shown in FIGS. 9A to 9F, for user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability The method consists of the following steps.

  First, step S01 is performed. In step S01, the biomedical device 1 having the short-range wireless transmission function is brought close to the portable device 2 including the short-range wireless communication 21 and the smart card 22. After the biomedical device 1 is brought close to the portable device 2, step S02 is performed. In step S02, it is determined whether to start communication and data exchange process between the biomedical device 1 and the portable device 2. When starting, step S03 is performed. In step S03, the near field communication unit 18 of the biomedical device 1 and the near field communication 21 of the portable device 2 are communicatively coupled. Then, step S04 is performed. In step S04, the user personal information, GPS information, time information, and personal best setting data of the biomedical device are downloaded from the cloud server by the communication module 23 of the portable device 2. Subsequently, step S05 is performed. In step S05, the user personal information, the GPS information, the time information, and the personal best setting data of the biomedical device are stored in the smart card 22.

  After step S05 is completed, step S06 is subsequently performed. In step S06, the short-range wireless communication 21 accesses the smart card 22. Next, step S07 is performed. In step S07, the short-range wireless communication 21 transmits user personal information, GPS information, time information, personal best setting data of the biomedical device, and environmental temperature / humidity information to the short-range wireless communication unit 18. Next, step S08 is performed. In step S08, the short-range wireless communication unit 18 stores the user personal information, GPS information, time information, personal best setting data of the biomedical device, and the environmental temperature / humidity information in the smart card unit 16.

  After step S08 is completed, step S09 is subsequently performed. In step S09, the biomedical device 1 completes the parameter setting process based on the user personal information and the personal best setting data of the biomedical device. Next, step S10 is performed. In step S10, it is determined whether to download the user's past measurement data from the cloud server by the portable device. If downloading, step S11 is performed. In step S11, the past measurement data of the user is downloaded from the cloud server by the communication module 23. Next, step S12 is performed. Further, in the determination formula of step S10, if the determination result is that downloading is not performed, step S12 is directly performed. In step S12, it is determined whether or not to start the measurement of the analog biomedical signal of the measurement object 3 using the biomedical device 1.

  In the above-described determination formula of step S12, if the determination result is to start, step S13 is performed. In step S <b> 13, the device under test 3 is connected to the measurement unit 11 of the biomedical device 1. Thereafter, step S14 is performed. In step S14, the measurement unit 11 measures the analog biomedical signal of the object 3 to be measured, and at the same time, the environment sensing unit 12 detects the temperature / humidity parameter of the external environment. Next, step S15 is performed. In step S15, the data conversion unit 13 receives an analog biomedical signal and converts it into a digital biomedical signal. After the analog biomedical signal is converted into a digital biomedical signal, step S16 is performed. In step S16, the micro control unit 14 receives the digital biomedical signal and the temperature / humidity parameters simultaneously.

  After step S16 is completed, step S17 is continued. In step S17, the micro control unit 14 organizes the digital biomedical signal and the temperature / humidity parameters into one biomedical data. Next, step S18 is performed. In step S <b> 18, the micro control unit 14 stores the biomedical data in the smart card unit 16. Thereafter, step S19 is performed. In step S <b> 19, it is determined whether to transmit the biomedical data stored in the smart card unit 16 to the portable device 2. If it is transmitted, step S20 is performed. In step S <b> 20, the short-range wireless communication unit 18 transmits biomedical data to the short-range wireless communication 21. After the short-range wireless communication 21 receives the biomedical data, step S21 is performed. In step S <b> 21, the short-range wireless communication 21 stores biomedical data in the smart card 22.

  After the storage of the biomedical data in the smart card 22 is completed, the procedure S22 is subsequently performed. In step S22, it is determined whether to upload biomedical data to the cloud server. If uploading, step S23 is performed. In step S23, the communication module 23 of the portable device 2 uploads the biomedical data, the user personal information, the GPS information, the time information, and the environmental temperature / humidity information to the cloud server. Next, step S24 is performed. In step S24, the cloud server immediately executes a medical nursing process. Thereafter, step S25 is performed. In step S25, it is determined whether the communication and data exchange process between the biomedical device 1 and the portable device 2 has been completed. If completed, step S26 is performed. In step S26, it is determined whether or not the measurement of the analog biomedical signal of the object to be measured 3 using the biomedical device 1 is completed. If it is completed, step S27 is performed. In step S27, the biomedical device 1 having the short-range wireless transmission function is separated from the portable device 2.

  In addition, in the method of user identification, biomedical data measurement, biomedical data upload, biomedical data management, and remote medical nursing using the biomedical device having the short-range wireless transmission function described above, the determination result of step S02 However, if “not start”, step S26 is performed. Moreover, when the judgment result of step S12 is “not start”, it means that the user does not need to measure the analog biomedical signal of the object 3 to be measured using the biomedical device 1. . At this time, step S19 is performed. In step S <b> 19, the user asks whether he / she wants to transmit the biomedical data stored in the smart card unit 16 into the portable device 2. Further, when the determination result of step S19 and step S22 is “No”, step S25 is performed. If the determination result in step S25 is “No”, step S03 is performed again. Finally, if the determination result of step S26 is “No”, step S13 is performed again.

  In addition, in the method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using the biomedical device with short-range wireless transmission function according to the present invention, step S05 , Step S06, step S08, step S18, step S21, and step S24 all have at least two detailed steps. FIG. 10 is a flowchart of the detailed procedure method of step S05. As shown in FIG. 10, the procedure 05 includes two detailed procedures, a procedure S051 and a procedure S052. In step S051, the second micro processing unit 221 receives the user personal information, the GPS information, the time information, and the personal best setting data of the biomedical device. In step S052, the second micro processing unit 221 stores the user personal information, GPS information, time information, and personal best setting data of the biomedical device in the second micro memory unit 222.

  FIG. 11 is a flowchart of the detailed procedure method in step S06. As shown in FIG. 11, the procedure S06 similarly includes two detailed procedures, a procedure S061 and a procedure S062. In step S061, the second micro processing unit 221 reads the user personal information, the GPS information, the time information, and the personal best setting data of the biomedical device stored in the second micro memory unit 222. In step S062, the second micro processing unit 221 transmits user personal information, GPS information, time information, and personal best setting data of the biomedical device to the short-range wireless communication 21.

  FIG. 12 is a flowchart of the detailed procedure method in step S08. As shown in FIG. 12, the procedure S08 similarly includes two detailed procedures, a procedure S081 and a procedure S082. In step S081, the first micro processing unit 161 transmits the user personal information, the GPS information, the time information, the personal best setting data of the biomedical device, and the environmental temperature transmitted from the short-range wireless communication unit 18. / Read humidity information. In step S082, the first micro processing unit 161 stores the user personal information, GPS information, time information, personal best setting data of the biomedical device, and environmental temperature / humidity information in the first micro memory unit 162.

  FIG. 13 is a flowchart of the detailed procedure method of step S18. As shown in FIG. 13, the procedure S <b> 18 similarly includes two detailed procedures, a procedure S <b> 181 and a procedure S <b> 182. In step S181, the first micro processing unit 161 receives the biomedical data transmitted from the micro control unit 14. In step S <b> 182, the first microprocessing unit 161 stores biomedical data in the first micromemory unit 162.

  FIG. 14 is a flowchart of the detailed procedure method of step S21. As shown in FIG. 14, the procedure S21 similarly includes two detailed procedures, a procedure S211 and a procedure S212. In step S211, the second micro processing unit 221 receives the biomedical data transmitted from the short-range wireless communication 21. In step S <b> 212, the second micro processing unit 221 stores biomedical data in the second micro memory unit 222.

  In the method of user identification, biomedical data measurement, biomedical data upload, biomedical data management, and remote medical nursing using a biomedical device having a short-range wireless transmission function according to the present invention, step S24 includes: Since it is a procedure of a medical nursing process performed immediately by the cloud server, it has more complicated detailed procedures. FIGS. 15A and 15B are flowcharts of the detailed procedure method of step S24. As shown in FIGS. 15A and 15B, step S24 includes the following detailed procedure.

  First, step S241 is performed. In step S241, it is determined whether or not the biomedical data is accurate. If it is correct, step S243 is performed. In step S243, it is determined whether the biomedical data exceeds a standard value. If so, step S244 is performed. In step S244, the actual position of the user is specified from the GPS information. Next, step S245 is performed. In step S245, notification is made to a nearby medical institution, whereby the medical institution immediately goes to the actual location of the user and provides immediate relief. Thereafter, step S246 is performed. In step S246, the biomedical data, the user personal information, the GPS information, the time information, the environmental temperature / humidity information, and the temperature / humidity parameters are recorded in a cloud server database. If the determination result in step S241 is “not accurate”, step S242 is performed. In step S242, the biomedical data is corrected, and then the subsequent procedure is performed. If the determination result of step S243 is “not exceeded”, step S246 is directly performed.

  Among the above embodiments, the biomedical device with short-range wireless transmission function according to the present invention and its user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing This method was clearly explained. As can be seen from the above description, the present invention has the following advantages.

  1. The present invention integrates a smart card unit and a short-range wireless communication unit in a biomedical device (for example, a blood glucose meter), and after measuring and calculating biomedical data of an object to be measured by the blood glucose meter, The biomedical data is stored in the smart card unit, and the biomedical data is transmitted to the mobile device (for example, a smartphone) by the short-range wireless communication unit, and the biomedical data is uploaded to the cloud server by the mobile device. Accordingly, the biomedical data can be recorded by the cloud server, and at the same time, immediate medical care can be performed on the user who uploaded the data.

  2. In view of the first point described above, the present invention has the following features. When the biomedical device and the portable device perform short-range communication, the biomedical device downloads user information and personal best setting data of the biomedical device from the cloud server via the portable device. Based on the information and personal best setting data of the biomedical device, a user identification process and a parameter setting process can be performed.

  3. By receiving the above second point and identifying the user's personal information, the biomedical device identifies the current user's identity and automatically performs the optimized parameter setting. The biomedical device can be used by a plurality of people, and no data recording error or judgment error occurs. Such a method of using a biomedical device can be said to be very smart and economical.

  4). When the biomedical device and the mobile device perform short-range communication in response to the first point described above, the biomedical device downloads personal past measurement data from the cloud server via the mobile device and compares it with the measurement data. Can do.

  5). The present invention further provides methods for user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capabilities. . According to the method, the biomedical device having the short-range wireless transmission function can perform communication and data exchange process with the portable device, and can also perform biomedical data and user personal information through the communication module of the portable device. GPS information, time information, and environmental temperature / humidity information can be uploaded to a cloud server, and data can be read using the cloud server to perform a medical nursing process immediately.

  6). At present, everybody has at least one portable device (for example, a smartphone or tablet PC), and the smartphone or tablet PC has a remote communication function. The present invention has the following features. The present invention is a biomedical device having a simple structure and low cost, and the biomedical device is communicatively coupled to a portable device and communicates with a cloud server via the portable device, and further the cloud server is a biomedical device. By receiving the biomedical data uploaded from the cloud server, the cloud server can provide immediate nursing care to the user based on the biomedical data received by the cloud server.

  The above-described contents are only specific descriptions of the embodiments of the present invention, and these embodiments do not limit the scope of the claims of the present invention, and the design can be changed within the scope of the present invention. Etc. are all included in the claims.

DESCRIPTION OF SYMBOLS 1 Biomedical device 1 'provided with short-distance wireless transmission function Conventional blood glucose meter 1a Medical measurement device 11 having long-distance transmission function Measurement unit 11' Screen 11a Measurement unit 12 Environment sensing unit 12 'Connection cable 12a Storage unit 121 'USB plug 13 Data conversion unit 13a Detection unit 14 Micro control unit 14a Network server unit 15 Memory unit 15a Mail server unit 16 Smart card unit 16a Web server unit 161 First micro processing unit 162 First micro memory unit 17 Display unit 17a IP Selection unit 18 Near field communication unit 18a Communication unit 19 Power supply unit 2 Portable device 2 'Test piece 21 Near field communication 21' Reaction area 22 Smart card 22 Second micro processing unit 222 Second micro memory unit 23 Communication module 3 Device 3 'PC 31' USB ports S01 to S03, S04 to S09, S10 to S14, S15 to S21, S22 to S25, S26 to S27, S051 S052, S061 to S062, S081 to S082, S181 to S182, S211 to S212, S241 to S243, S244 to S246
Method procedure

Claims (20)

A biomedical device with a short-range wireless transmission function that communicates with at least short-range wireless communication and a mobile device grooved with a smart card, and exchanges data by a short-range wireless transmission method,
The biomedical device having the short-range wireless transmission function includes a measurement unit, an environment sensing unit, a data conversion unit, a micro control unit, a memory unit, a smart card unit, a display unit, and a short-range wireless communication. Composed by unit and
The measurement unit is connected to the object to be measured and measures an analog biomedical signal of the object to be measured;
The environment sensing unit detects temperature / humidity parameters of the external environment at the same time when the measurement unit measures the analog biomedical signal,
The data conversion unit is connected to a measurement unit, receives an analog biomedical signal, converts the analog biomedical signal into a digital biomedical signal,
The micro control unit is connected to the environment sensing unit and the data conversion unit, and the micro control unit receives the digital biomedical signal and the temperature / humidity parameter simultaneously, and the digital biomedical signal and the temperature / humidity Organize parameters and combine them into a single biomedical data
The memory unit is connected to the micro control unit and used as a storage medium,
The smart card unit is connected to a micro control unit and used as a storage medium,
The display unit is connected to a micro control unit, wherein the display unit receives biomedical data output from the micro control unit and displays biomedical values,
The short-range wireless communication unit is connected to the smart card unit to access the smart card unit, and the short-range wireless communication unit transmits biomedical data stored in the smart card unit by a wireless transmission method. Transmitted to the short-range wireless communication of the portable device;
Among them, when the user wants to connect the object to be measured to the measurement unit, first, the short-range wireless communication unit is brought close to the short-range wireless communication of the portable device, and the short-range wireless communication and the short-range wireless communication unit are connected. When communicatively coupled, short-range wireless communication is a short-range wireless communication of user personal information, GPS information, time information, biomedical device personal best setting data, and environmental temperature / humidity information stored in the smart card. To the communication unit,
Further, the short-range wireless communication unit stores the user personal information, the GPS information, the time information, the personal best setting data of the biomedical device, and the environmental temperature / humidity information in a smart card unit, A biomedical device having a short-range wireless transmission function, wherein a user identification process and a parameter setting process are completed.   The biomedical device having the short-range wireless transmission function further includes a power supply unit, and the power supply unit includes the measurement unit, the environment sensing unit, the data conversion unit, the micro control unit, and the display. The biomedical device having a short-range wireless transmission function according to claim 1, wherein a power source is provided to the unit and the short-range wireless communication unit. The smart card unit includes a first micro processing unit and a first micro memory unit,
The first micro processing unit is connected to the micro control unit and the short-range wireless communication unit, and the biomedical data, the user personal information, the GPS information, the time information, and the personal best setting of the biomedical device Receiving data and the environmental temperature / humidity information,
The first micro memory unit is connected to the first micro processing unit;
Among them, the data received after the first microprocessing unit received biomedical data, user personal information, GPS information, time information, personal best setting data of biomedical device, and environmental temperature / humidity information The biomedical device having a short-range wireless transmission function according to claim 1, wherein the biomedical device is stored in the first micro memory unit. The smart card includes a second micro processing unit and a second micro memory unit;
The second microprocessing unit is connected to the short-range wireless communication;
The second micro memory unit is connected to the second micro processing unit;
Among them, the second micro processing unit accesses the second micro memory unit and stores the user personal information, the GPS information, the time information, and the personal best of the biomedical device stored in the second micro memory unit. The configuration data and the ambient temperature / humidity information are read, and at the same time, the second microprocessing unit stores the biomedical data received by the second micromemory unit in the second micromemory unit. A biomedical device having the described short-range wireless transmission function.   The short-range wireless communication unit stores the user personal information in the smart card unit, and after the user identification process and the parameter setting process are completed, the user adds the object to be measured to the measurement unit. 2. The biomedical apparatus having a short-range wireless transmission function according to claim 1, wherein when connected, the analog biomedical signal of the object to be measured is measured.   After the short-range wireless communication unit stores the user personal information in the smart card unit and the user identification process and the parameter setting process are completed, the short-range wireless communication unit 4. The biomedical apparatus having a short-range wireless transmission function according to claim 3, wherein the biomedical data stored in the first micro memory unit is transmitted to the short-range wireless communication.   After the short-range wireless communication receives the biomedical data transmitted from the short-range wireless communication unit, the second microprocessing unit stores the biomedical data in the second micromemory unit, and The biomedical data, the user personal information, the GPS information, the time information, and the environmental temperature / humidity information are uploaded to a cloud server having at least one database by the communication module of the apparatus, and the cloud server The biomedical device with short-range wireless transmission function according to claim 4, wherein a medical nursing process is performed anytime and anywhere.   The short-distance wireless transmission function according to claim 1, wherein the measurement unit is one of a blood glucose test piece measurement device, a body fat measurement device, a blood pressure measurement device, and an electrocardiogram measurement device. Biomedical equipment.   The biomedical device having a short-range wireless transmission function according to claim 8, wherein the object to be measured is a blood glucose test piece or one of a human body.   The near mobile device according to claim 1, wherein the portable device is one of a smartphone, a PDA, a portable game machine, a digital photo frame, an iPAD (registered trademark), a notebook computer, and a tablet PC. Biomedical device with distance wireless transmission function. A method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device with short-range wireless transmission capability,
The method
Procedure (1) for bringing a biomedical device having a short-range wireless transmission function closer to a portable device having at least a short-range wireless communication and a smart card;
Determine whether to start communication and data exchange process between the biomedical device and the portable device, and if so, perform step (3); otherwise, perform step (26), step (2) When,
Communicatively coupling the short-range wireless communication unit of the biomedical device and the short-range wireless communication of the portable device;
Downloading user personal information, GPS information, time information, and personal best setting data of the biomedical device from the cloud server by the communication module of the portable device,
Storing the user personal information, the GPS information, the time information, and personal best setting data of the biomedical device on a smart card; and (5),
The short-range wireless communication accessing the smart card, step (6);
The short-range wireless communication transmits user personal information, GPS information, time information, personal best setting data of the biomedical device, and environmental temperature / humidity information to the short-range wireless communication unit;
The short-range wireless communication unit stores the user personal information, GPS information, time information, personal best setting data of the biomedical device, and the environmental temperature / humidity information in the smart card unit;
The biomedical device completes the parameter setting process based on the user personal information and the personal best setting data of the biomedical device, step (9);
It is determined whether to download the user's past measurement data from the cloud server by the mobile device. If downloading, the procedure (11) is performed. If not, the procedure (12) is performed.
Downloading the past measurement data of the user from the cloud server by the communication module;
It is determined whether or not to start the measurement of the analog biomedical signal of the object to be measured using the biomedical device. When the measurement is started, the procedure (13) is performed, and when the measurement is not started, the procedure (19 Step (12), and
Connecting the object to be measured to a measurement unit of a biomedical device, step (13);
Procedure (14), wherein the measurement unit measures the analog biomedical signal of the object to be measured, and at the same time the environment sensing unit detects the temperature / humidity parameters of the external environment;
A step (15) in which the data conversion unit receives the analog biomedical signal and converts it to a digital biomedical signal;
A step (16) in which a micro control unit receives the digital biomedical signal and the temperature / humidity parameters simultaneously;
Procedure (17), wherein the microcontroller unit organizes digital biomedical signals and temperature / humidity parameters and combines them into a single biomedical data;
A procedure (18) in which a micro control unit stores the biomedical data in the smart card unit;
It is determined whether or not the biomedical data stored in the smart card unit is to be transmitted to the portable device. If the biomedical data is to be transmitted, the procedure (20) is performed. If not, the procedure (25) is performed. ,
The short-range wireless communication unit transmits biomedical data to short-range wireless communication;
Short-range wireless communication stores biomedical data on a smart card, step (21);
Determine whether to upload biomedical data to the cloud server. If uploading, perform step (23). If not uploading, perform step (25).
Uploading biomedical data, user personal information, GPS information, time information, and environmental temperature / humidity information to the cloud server by the communication module of the portable device;
Procedure (24), in which the cloud server immediately executes the medical nursing process;
It is determined whether or not the communication and data exchange process between the biomedical device and the portable device is to be terminated. If so, the procedure (26) is performed. If not, the procedure (3) is performed again. The procedure (25) When,
It is determined whether or not the measurement of the analog biomedical signal of the object to be measured using the biomedical device is to be terminated. If it is to be terminated, the procedure (27) is performed. If not, the procedure (13) is performed again. , Step (26),
Separating the biomedical device having the short-range wireless transmission function from the portable device; and (27),
A method of user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device having a short-range wireless transmission function. The procedure (5)
A second microprocessing unit receives the user personal information, the GPS information, the time information, and personal best setting data of the biomedical device;
The second microprocessing unit stores user personal information, GPS information, time information, and personal best setting data of the biomedical device in a second micromemory unit (52);
12. User identification, biomedical data measurement, biomedical data upload / download, biomedical data management using the biomedical device with short-range wireless transmission function according to claim 11, and Remote medical nursing method. The procedure (6)
A second microprocessing unit reads the user personal information, GPS information, time information, and personal best setting data of the biomedical device stored in a second micromemory unit;
The second microprocessing unit transmits user personal information, GPS information, time information, and personal best setting data of the biomedical device to short-range wireless communication; and
12. User identification, biomedical data measurement, biomedical data upload / download, biomedical data management using the biomedical device with short-range wireless transmission function according to claim 11, and Remote medical nursing method. The procedure (8)
The first micro processing unit receives the user personal information, the GPS information, the time information, the personal best setting data of the biomedical device, and the environmental temperature / humidity information transmitted from the short-range wireless communication unit. , Step (81),
The first microprocessing unit stores user personal information, GPS information, time information, biomedical device personal best setting data, and environmental temperature / humidity information in the first micromemory unit; and
12. User identification, biomedical data measurement, biomedical data upload / download, biomedical data management using the biomedical device with short-range wireless transmission function according to claim 11, and Remote medical nursing method. The procedure (18)
A procedure (181) in which a first microprocessing unit receives the biomedical data transmitted from the microcontroller unit;
The first microprocessing unit stores biomedical data in a first micromemory unit, procedure (182);
12. User identification, biomedical data measurement, biomedical data upload / download, biomedical data management using the biomedical device with short-range wireless transmission function according to claim 11, and Remote medical nursing method. The procedure (21)
A procedure (211), wherein a second microprocessing unit receives the biomedical data transmitted from the near field communication;
A step (212), wherein the second microprocessing unit stores biomedical data in the second micromemory unit;
12. User identification, biomedical data measurement, biomedical data upload / download, biomedical data management using the biomedical device with short-range wireless transmission function according to claim 11, and Remote medical nursing method. The procedure (24)
Determining whether the biomedical data is accurate; if correct, perform procedure (243); otherwise, perform procedure (242);
Correcting biomedical data, procedure (242);
It is determined whether or not the biomedical data exceeds the standard value. If the biomedical data exceeds the standard value, the procedure (244) is performed. If not, the procedure (246) is performed.
A procedure (244) for identifying the actual position of the user from the GPS information;
Procedure (245), notifying a nearby medical institution, said medical institution going immediately to the actual location of the user and providing immediate relief;
Recording the biomedical data, the user personal information, the GPS information, the time information, the environmental temperature / humidity information, and the temperature / humidity parameters in a database of a cloud server; and (246),
12. User identification, biomedical data measurement, biomedical data upload / download, biomedical data management using the biomedical device with short-range wireless transmission function according to claim 11, and Remote medical nursing method.   The short-distance wireless transmission function according to claim 11, wherein the measurement unit is one of a blood glucose test piece measurement device, a body fat measurement device, a blood pressure measurement device, and an electrocardiogram measurement device. User identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing methods using biomedical devices.   12. The user identification and biomedical device using a biomedical device having a short-range wireless transmission function according to claim 11, wherein the object to be measured is one of a blood glucose test piece or a human body. Methods for data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing.   The short-range wireless transmission function according to claim 11, wherein the portable device is one of a smartphone, a PDA, a portable game machine, a digital photo frame, an iPAD, a notebook computer, and a tablet PC. For user identification, biomedical data measurement, biomedical data upload / download, biomedical data management, and remote medical nursing using a biomedical device comprising:

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