TW201233366A - Biomedical device with near field communication (NFC) function and method thereof for user identification, biomedical data measurement, biomedical data upload/download, biomedical data management, and remote medical care - Google Patents

Abstract

The present invention relates to a biomedical device with near field communication (NFC) function and a method thereof for user identification, biomedical data measurement, biomedical data upload/download, biomedical data management, and remote medical care, the biomedical device comprises: a measurement unit, a environment sensor 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 able to communicate with a portable device and a user individual information and the relative biomedical data thereof can be transmitted to the portable device, such that multi men are allowed for using the identical biomedical device and the situation about misrecording and misjudging of data would not be occurred; 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 biomedical device can be downloaded from the cloud server.

Description

201233366 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a biomedical device, in particular a line transmission function, and a medical device having a close-range, biomedical data measurement, and remote medical care. Its users identify biomedical-bee feed upload/download, biomedical data management, and methods. [Prior Art]

It is seen that various biomedical devices are widely used in human tongues, such as blood glucose machines, weight machines, sphygmomanometers, electrocardiographs, and blood: concentration measuring machines. Please refer to the first figure 'A perspective view of a conventional blood glucose machine and a computer'. As shown in the first figure, the user can insert the test piece 2 into a conventional blood glucose machine and drop a blood into the test piece 2 After a reaction zone 21', the blood glucose meter 1, that is, begins to calculate a blood glucose concentration value of the blood, and after calculating the result, displays the blood glucose concentration value on a screen 11' thereof. Typically, the blood glucose meter 1 can only display blood glucose concentration values on the screen. The user must use other electronic devices, for example, a computer to record and track daily blood glucose concentration values. As shown in the first figure, a connecting cable 12' is added to the blood glucose meter ,'. Since the connecting cable 12 has a USB connector 121', it can be connected to a computer 3, _ The jack 31' can then upload the daily blood glucose concentration value to the computer 3 through an application software installed in the computer 3'. In addition, the user can automatically execute the application software through the application software. Daily blood glucose concentration value 201233366' This is used by connecting the blood and sugar machine to the computer 3, and the daily blood glucose concentration value can be clearly recorded and tracked for the user. Although it is convenient for the user to record and track the daily blood glucose concentration value by linking the blood glucose machine to the computer 3'; however, it is inconvenient for the user to record the daily blood glucose concentration value by himself. . On the other hand, with the development of technology, 'the correlation between 3C products, biotechnology and medical services, and the increasing number of 'the' often include the technical integration of images, databases and networks. It can be seen that 'integration of biomedical devices with networks and databases for information needs is urgently needed. In view of this, the Republic of China Patent Certificate No. 12923 11 exposes a pros and cons of a remote transmission function, please refer to _: Figure, which is a remote transmission disclosed in the Republic of China Patent Certificate No. I2923 11 The architecture diagram of the biomedical measurement device. As shown in the second figure, the biometric measuring device with remote transmission function includes: a measuring unit lu, a storage unit 12a', a detecting unit 13a, a network servo unit, and a mail server unit. 15a, a webpage server unit 16a, a 1? selection unit I?. And a communication unit l8a. For the above-mentioned biometric measuring device la with remote transmission function, the measuring unit ua is used for measuring a biomedical data. The storage unit i2a can store the biomedical data. The network server unit 14a is configured to provide a connection service of the Internet, so that the medical measuring device can upload the medical information to a remote server through the network. The mail server unit 15a is used to provide a mail delivery service, so that the user can send his biomedical data to the remote server by email. The webpage server unit provides a webpage interface service, so that the remote server monitor can query the related information of the biomedical data stored in the storage unit 12a by using the webpage interface service. Please refer to the second figure. The detecting unit 13a is used to determine whether the biomedical data measured by the test exceeds the standard value range. When the biomedical data exceeds the standard value, the detecting unit 13a sends out A warning message is sent to the remote server by the mail server unit 15a. In addition, the communication unit 8a is for communicating with other biometric measuring devices and receiving various medical data of other medical measuring devices. In this way, the medical measuring device with remote transmission function disclosed in the Republic of China Patent Certificate No. I2923 11 has a considerable degree of functionality, except for the measurement of biomedical data. The measured biomedical data can be uploaded to the remote server synchronously. However, it still has the following shortcomings and deficiencies: 1. The biometric measuring device with remote transmission function is a personally used device. The 'normal' user completes the personal biomedical data through the measuring unit 11a. After the measurement program, the medical measuring device 1a uploads the biomedical data to the remote server through the web server 14a; thus, it can be seen that once the second user uses the biometric measuring device la It is bound to cause the remote server to record the error of the biomedical data. 201233366 2. The biomedical measurement device 13 has a network servo unit 14a, a mail server unit 15a, a webpage servo unit 6a, an lp selection unit, an &, and a singular % 18a' system, so that the production cost cannot be achieved. The land is lowered, and thus, the product of the biomedical measuring device la is expensive. In addition, since the smart phone system is widely used, how to make the biomedical device communicate with the smart phone, and then manage the user personalized data and the corresponding biomedical data through the smart phone, and the The uploading of these materials to remote servers has become a topic of widespread research. There is a bell in this case. The inventor of this case is trying to make a single biomedical device available to many people at the same time, and it is possible to use a smart phone to manage user personalized data and its corresponding biomedical data. The short-distance wireless transmission function of the biomedical device and its user identification, biomedical f material measurement, biomedical data uploading / squatting, biomedical data management, and remote medical care methods. [First Invention] A first object of the present invention is to provide a biomedical device with a short-range wireless transmission function, wherein a near-field communication unit communicates with a handheld device, and a smart card is used. Unit storage—the personal information of the maker and its corresponding biomedical data, # by identifying the user's personal information, can allow many people to use the same-medical device without data mis-recording and misjudgment. The second object of the present invention is to provide a biomedical device having a 201233366 transmission function, wherein a near field communication unit is communicatively coupled to a handheld device so that a user can pass through the handheld device. A communication module downloads a historical data and a humanized biomedical device optimal setting data from a cloud server, and transmits the historical data and the personalized medical device optimal setting data to the personalized medical device by means of short-range wireless transmission The biomedical device is configured to enable the biomedical device to perform a basic parameter setting procedure based on the optimal setting data of the personalized biomedical device.

A third object of the present invention is to provide a biomedical device having a short-range wireless transmission function, wherein a near-field communication unit is communicatively coupled to a handheld device to transmit a personal user through the near field communication unit. The biomedical data and the user's personal information are transmitted to the handheld device, and the biomedical data and the user information are uploaded to a cloud server by using the handheld device, so that the cloud feeding device can immediately execute a medical care program.

The fourth object of the present invention is to provide an invitation for short-range wireless transmission function _If* ro, user identification used by the device, biomedical data measurement, biomedical data upload/up/download, The biomedical data management, and the remote medical care, can make the short-distance wireless transmission serial medical device complete communication and data exchange with one of the handheld devices and through one of the handheld devices Biomedical data, user information, Gpq, greedy, time information, and ambient temperature/humidity tf to the Dick-1 P 5 server to use the cloud server to complete the data and execute it immediately - medical Care program. 201233366 Purpose and third Therefore, in order to achieve the first object of the present invention, the inventor of the present invention provides that a biomedical device having a short-range wireless transmission function can have at least one near field communication module. A - /, a smart device of a handheld device communicates with the parent to change through a short-range wireless transmission. The J " commercial device with short-range wireless transmission function includes: The measuring unit is configured to connect a test object to measure the analog medical signal; the environmental sensing unit can simultaneously detect the temperature of the external environment when the measuring unit is born in the analogy Humidity parameter; ... A data conversion unit is coupled to the measurement level 70 to receive the analog biomedical signal and convert the analog medical signal into a digit. The medical control unit is connected to the environmental sensing unit and the data conversion unit, and the micro control unit can simultaneously receive the digital medical (4) (four) temperature/humidity parameters, and can sort the digital medical signal and the temperature. / Humidity parameter to further process it as a biomedical data; and - memory unit, wire connected to the micro control unit to store the biomedical data. - Smart card unit, connected to the micro control unit to store biomedical Data: A display unit is coupled to the micro-control single Dan 〒, the visible dry ββ element can receive the biomedical data output by the micro control unit and display one: medical: value; and medical number one near field communication unit '_ Connecting to the smart card unit and using the smart card unit', and the near field communication unit can transmit the biomedical data stored in the smart card unit to the handheld device through the wireless transmission 2 201233366 a module; wherein when a user wants to connect the object to be measured to the measuring unit, the near field communication unit must first be brought close to the near field communication module of the handheld device, so that the near field communication module can Communicate with the near field communication unit, so that the near field communication module can transmit a user's personal information, a GPS information, a time information, and an ambient temperature/humidity information stored in the smart card to the near field communication. Further, the near field communication unit stores the user personal information, the GPS information, the time information, and the ambient temperature/humidity t signal in the smart card unit to complete a user identification process. In addition, in order to achieve the fourth (four) of the present invention, the inventor of the present invention proposes a user identification, biomedical data measurement, biomedical data uploading/downloading, and biomedical use for a biomedical fissure having a short-range wireless transmission function. The method for data management and remote medical care includes the following steps: () bringing a biomedical device having a short-range wireless transmission function to a handheld device having at least one near field communication module and a smart card; Determining whether to start the communication between the biomedical device and one of the handheld devices, and if so, performing step (1)), if not, performing step (26); the near field communication unit and the handheld device of the device The near field communication module communication link; 10 201233366 (4) downloading a user's personal information, a GPS information, a time information, and a life medical device from a cloud server by using a communication module of the handheld device (5) storing the user's personal information, the GPS information, the time information, and the best setting data of the personal medical device to a smart card; (6) The near field communication module accesses the smart card; 肇 (7) the near field communication module sets the user's personal information, GPS information, time §fL 'the best setting information of the personal biomedical device, and one The ambient temperature/humidity information is transmitted to the near field communication unit; (8) the near field communication unit stores the user's personal information, GPS information, time information, optimal setting information of the personal biomedical device, and the ambient temperature/humidity information storage. To a smart card unit. (9) The biomedical device is based on the user's personal information and the best setting data of the personal biomedical device to complete the - parameter setting procedure. U0) to determine whether to download the user from the cloud server through the handheld device - historical measurement data, if yes, execute step (11) 'If no, execute step (1 2 ); (11) measure the data from cloud end through the communication module; download the user's history through the server Determine whether to start using the biometric analog medical signal, if yes, the medical device to measure a test object - then perform step (13), if not, then (12) 201233366 perform the step (1 9); (13) The object to be tested is linked to the living One of the measuring units of the Emirates; (14) the measuring unit measures the cheek than the biomedical signal of the object to be tested, and at the same time, an environmental sensing unit detects the external number; ^ one of the environment temperature/humidity parameters ( 15) A beech conversion unit receives the class 4 signal and converts it into a digital health signal; (16) a micro control unit simultaneously receives the digital humidity parameter; the biomedical signal and the temperature / 17) (18) (19) 20) 21) 22) The micro control unit organizes the digital medical nickname and temperature/humidity parameters and processes it into a biomedical data step by step; the micro control unit stores the biomedical data to the smart card Unit; determining whether the biomedical data stored in the smart card unit is transmitted to the handheld device, and if so, then the right side of the employee is performing the step (20), and if not, executing the step (25); the near field communication unit Transfer the medical doctor to the near field communication module; the near field communication module will determine whether to upload the biomedical data to the cloud feeding service I: If yes, then take the steps ( 23) If no, then perform step (25); communicate through one of the handheld devices Upload biomedical data, user 'GpS Beixun, one time information, and one ambient temperature/humidity information to the cloud server; 12 (23) 201233366 (24) Cloud server instant execution (... Second care program; exchange-order 'if ', then step 2: 2) = pass and data execution step (3); right no, repeat (26) to determine whether to end the use of the biomedical signal, and if so, then execute ;:) = analogy to perform step (13); and no, repeat (27) to have a close-range unheld device. Passing the wheel work...the medical device is far away from the hand [Embodiment] In order to describe in more detail the wireless transmission function of the distance has a proximity and user identification, biomedical data measurement, biomedical data upload/download, lost Endogenous medical data management, and remote medical care

Method of Nursing The technical features of the present invention will be disclosed in detail below with reference to the drawings. Referring to Figure _ is a block diagram of a biomedical device having a short-range wireless transmission function of the present invention. As shown in the three figures, the biomedical device 1 with short-range wireless transmission function (hereinafter referred to as the biomedical device D can have a near field communication module (Near Field c〇mmunicati〇n, nfc) 21 and s hui card (smart card) 22, a handheld device 2 communicates, and the data is exchanged by means of short-distance wireless transmission. The biomedical device 1 can be a blood glucose machine, a fat machine, a blood pressure meter, and a blood oxygen. 13 201233366 Concentration meter, and an electrocardiograph machine', the handheld device 2 can be a smart phone, a PDA, a handheld game machine, a digital photo frame, an ipAD, a notebook computer, and a tablet computer; Herein, the blood glucose machine is used as the main embodiment of the biomedical device 1 having the short-range wireless transmission function of the present invention, and the smart phone is used as the handheld device 2, wherein the biomedical device 1 is The system includes: a measuring unit 11, an environment sensing unit 12, a data conversion unit 13, a micro control unit μ, a hidden unit 15, a smart card unit 16, and a display unit 17 Through-hole unit Near Field Communication (NFC) 1 8 and a power supply unit 19. The power supply unit 19 is configured to provide a power supply to the measurement unit 丨i, the environment sensing unit 12, the data conversion unit 13, and the micro control unit. 14. The display unit 17 and the near field communication unit 18. The measuring unit 11 is configured to connect a sample to be tested 3 to measure an analogy of the sample to be tested 3, wherein the object to be tested 3 is a blood glucose test piece, and the environment sensing unit 12 can detect the temperature/humidity parameter of one of the external environments while the measuring unit 11 measures the analog medical signal. The data conversion unit 13 is coupled. The micro-control unit 14 is coupled to the environment sensing unit 12 and the data conversion unit 13 , and is coupled to the environment sensing unit 12 and the data conversion unit 13 , and is coupled to the environment sensing unit 12 and the data conversion unit 13 . The micro control unit 14 can simultaneously receive the digital medical signal and the temperature/humidity parameter, and can sort the digital medical signal and the temperature/humidity parameter, and process it into a biomedical data by step 14 201233366. Continue to see the third In the figure, the memory unit 16 is simultaneously coupled to the micro control unit 14, and the smart card unit ^^^_ is used as a storage medium: the 17th is in the micro control unit 14, wherein the memory unit 14 π 17 can receive the micro control unit 14 to display the biomedical data and display the biomedical value. The near field communication unit 18 is lightly connected to the smart card and used to access the smart card unit 16 ,to

In the first device 1, the near field communication unit 18 can transmit the biomedical data stored in the smart card unit 16 to the near field communication module 21 of the handheld device 2 by wireless transmission. Continuing to refer to the third figure, and at the same time, please refer to the fourth figure, which is a perspective view of the present invention having a short-range wireless transmission function and a handheld device having a near field communication module and a smart card. As shown in the fourth figure, when the user wants to use the biomedical device i, the biomedical device must first be placed close to the handheld device 2' so that the near field communication unit 18 can approach and communicate with the near field communication. The module 21; the 'near field communication module 21 can store a user's personal information, a GPS information, a time information, a best setting data of a medical device, and an ambient temperature stored in the smart card 22. / humidity information is transmitted to the near field communication unit 18; further, the near field communication unit 18 will personalize the user information, the gPS information, the time information, the optimal setting data of the personal biomedical device, and the ambient temperature / The humidity information is stored in the smart card unit 16, so that the biometric device 1 can complete a user identification program by using the user's personal information, the optimal setting data of the personal biomedical device, and the ambient temperature/wet, 15 201233366 degree information. A parameter 嘹疋 program. Moreover, after the biomedical device 1 completes the user identification program and the parameter setting program, the user can connect the object to be tested 3 to the measuring unit 11 to measure the object to be tested through the measuring unit 11. Or the biomedical data stored in the smart card unit 16 can be transmitted to the near field communication module 21 through the near field communication unit 18 for storage on the smart card 22 of the handheld device 2 .

In addition, please refer to the fifth and sixth figures, which are a second block diagram of the biomedical device with the close-range wireless transmission function of the present invention, and a second block diagram of the handheld device. As shown in the fifth figure, the biomedical device with the short-range wireless transmission function of the present invention! The smart card unit b further includes a first micro processing unit 161 and a first micro memory unit, wherein the first micro processing unit 161 is coupled to the micro control unit and the near field communication unit. 18' to receive the biomedical data, the user's personal information, the GPS information, the time information, the best setting data of the personal biomedical device, and the ambient temperature/subsidiary information. The first micro-memory unit 162 is coupled to the first-micro-processing unit 16 to receive biomedical data, user personal information, Gps information, time information, and personal medical equipment. %—The best 5 products and the ambient temperature/wet micro memory

After the information, all received I yuan 162 will be received. As shown in the sixth figure, the smart card 22 further includes a second micro-processing unit 221 and a second micro-memory unit 222, wherein the second micro-processing unit 221 is coupled to the near-field communication. The module 21 is coupled to the second micro processing unit 221 . In the handheld device 2, the second micro processing unit 221 can access the second micro memory unit 222 to store the user personal information, the GPS information, and the time information stored in the second micro memory unit 222. The optimal setting data of the personal biomedical device and the ambient temperature/humidity information are read out, and the biomedical data storage % is stored in the second micro memory unit 222.

Please refer to the third to sixth figures. When the user connects the object to be tested 3 to the measuring unit 1 , and the measuring unit measures the analog medical signal on the object 3 , The analogy medical signal is ultimately processed by the micro control unit 14 as the biomedical data. In this case, it is necessary to specify that the biomedical data will be stored in the memory unit μ through the micro control unit 14' and that the biomedical data will be stored in the wisdom through the first micro processing unit 161. The first micro memory unit 162 in the card unit 161. Moreover, after the biomedical data is stored, the user can directly transfer the biomedical data to the handheld device 2, or re-transmit the near field communication unit when the biomedical device 1 is used next time. 18 Transfer the biomedical data to the handheld device 2. In addition, 'in order for the user (patient) to receive immediate medical care', when the near field communication module 21 of the handheld device 2 receives the biomedical data transmitted by the near field communication unit 18, The micro processing unit 17 201233366 221 stores the biomedical data in the second micro memory unit 222, and transmits the biomedical data, the user personal information, the GPS information, and the time through the communication module 23 of the handheld device 2 The information and the ambient temperature/humidity information are simultaneously uploaded to a cloud server having a database; further, the cloud server records all the data in the database, and discriminates whether the value of the biomedical data is Within the range of a standard value to confirm the current health of the user (patient). Once the cloud server finds that the current health status of the user (patient) is suspected by the value of the biomedical data, the cloud server will immediately notify a neighboring medical unit to arrange the person to the neighboring medical unit. The actual location of the user to perform immediate ambulance. In addition, before the user wants to use the biomedical device i to measure the biomedical data, the user can download the record from the cloud server through the handheld device 2 (4), and measure the data ratio. In the above description, the blood glucose machine is taken as an example to illustrate the present invention.

The user's left and right wrists can be measured by one of the user's blood pressure two sets of rings, which can be used to circle the integral fat value and a blood pressure 18 201233366 value respectively. In addition, please refer to the eighth figure, which is an electrocardiogram. The front view of the handheld device, as shown in the eighth figure, the biomedical device 1 having the short-range wireless transmission function can also be an electrocardiograph, wherein the measuring unit 丄i, the user can respectively use the index finger of the left and right hands Pressing the two electrodes, the electrocardiograph can measure one of the user's electrocardiograms. Moreover, the same as the above-described biomedical device 1 having a short-distance wireless transmission function using the blood glucose meter as an embodiment, when the body fat sphygmomanometer and the electrocardiogram measure and calculate the human body (ie, the object to be tested) After the body fat value, the blood pressure value and the electrocardiogram, the data can be stored in the smart card unit 16 and transmitted to the handheld device when the biomedical device 1 and the handheld device 2 are communicatively coupled. The biometric data can be uploaded to the cloud server through the communication module 23 of the handheld device 2 to perform data management through the cloud server and provide immediate medical care for the user. Thus, through the above, all feasible architectures and functionalities of the biomedical device having the short-range wireless transmission function of the present invention have been fully illustrated and disclosed; and the biomedical device having the short-range wireless transmission function User identification, biomedical data measurement, biomedical data uploading, biomedical data management, and remote medical care methods will be disclosed in the following condensed statements. Referring to the ninth to fifth ninth drawings, the user identification, biomedical data measurement, and platter used in the biomedical device having the near-and-line transmission function of the present invention are provided. Resource upload/download, biomedical data management, and remote

The method of medical care; ^ f, V method of flow. As shown in Figure IX to Figure IX, 19, 201233366, the identification of the near-field wireless transmission function, the measurement of biomedical data, *7, the user who uses it,] the biomedical data upload / download 'Awakening 丨 丨 丨 丨 与 与 与 与 与 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ 瘦 瘦 瘦 瘦 瘦 瘦 瘦The dry-function biomedical device is close to a hand-held radish/device 2 with a near-field communication module 21 22 . When the biomedical device 1 is close to the handheld device 2

After the method flow, the step (SG2) is executed to determine whether to start the execution of the medical device 1 and the material holding and the data exchange program, and if so, the step (S03) is performed to generate the medical device! One of the near field communication units μ is communicatively coupled to the near field communication module 21 of the handheld device i; and, the method flow continues with the step (s〇4), by the communication module 23 of the handheld device 2 from a cloud The server downloads a user's personal information, a GPS information, a time information, and a best setting data of a medical device; and then proceeds to step (S05) 'the user's personal information, the GPS information, the time The information and the best setting data of the personal biomedical device are stored to a smart card 22. After the step (S05) is completed, the method flow continues to execute the step (s〇6), the near field communication module 21 accesses the smart card 22; then, the method flow then performs the step (S07), the near field communication module 21 Transmitting user personal information, GPS information, time information, optimal setting data of the personal biomedical device, and an ambient temperature/humidity information to the near field communication unit 18; then, the method flow continues with the step (S08)' The near field communication unit 18 will optimally set the data and card unit 16 for 20 201233366 user personal information. , GPS information, time information, personal biomedical device and the ambient temperature/humidity information are stored to a smart*»Hai step (S08) is completed, then, the method flow continues to perform the step (S09) 'The biomedical device i is used according to The personal information and the best setting information of the personal biomedical device to complete a parameter setting procedure; then proceed to step (4) 0) to determine whether to download one of the user's historical measurement data from the cloud server through the handheld device' If yes, execute step (s"), download the historical measurement data of the user from the cloud server through the communication module, group 23, and then execute (4) (S12); and, in the judgment of step (si〇) If the judgment knot is "No", the step (1) is directly executed to determine whether to start using the medical device i 1 to measure the analog data of the sample to be tested 3. In the judgment formula of the above step (SU), if the determination result is "YES", the step (S13) is performed, and the object to be tested 3 is connected to the measuring unit 11 of the biomedical device 1; The process continues with the step (SW), the measuring unit 11 measures the analog medical signal of the object to be tested 3, and at the same time, the environment sensing unit 12 detects a temperature/humidity parameter of the external environment; then, the method flow Continuing with the step (S15), a data conversion unit Η receives the analog medical signal ' and converts it into a digital medical signal. After the analog medical signal is converted into the digital medical signal, the method flow then performs the step (S16). A micro control unit 14 simultaneously receives the digital medical signal 21 201233366 and the temperature/humidity parameter. After completing the step (S 16 ), the method flow continues to execute the step (s丨7)

The micro control unit 14 sorts the digital medical signal and the temperature/humidity parameter, and further processes it into the biomedical data; then, the method flow performs the step (S18), and the micro control unit 14 treats the biomedical The data is stored in the smart card unit and then the method flow is performed (si9) to determine whether the biomedical data stored in the smart card list & 16 is transmitted to the handheld device 2, and if yes, the step (S2G) is performed. The near field communication yuan _ biomedical data is transmitted to the near field communication module 2, when the near field communication module is connected to the biomedical data, the method flow continues to perform the step (s2i), the near field communication module 21 Store the biomedical data to the smart card 22. After Yuancheng stores the biomedical data to the smart card 22, the method flow is executed (4) (S22) to determine whether the biomedical data is uploaded to the cloud server, and if so, the target> ? & Step (10)), through the communication module 23 of the handheld split 2, the biomedical data, the user personal information, the (four) information, the time information, the "clothing brother" degree / humidity information Upload to the cloud server; then, the seeker is executed immediately - the medical care program ^ end feed execution + earn f U good, the method flow continues the track step (S25), judge 'not Wang Jin device 1 and hand pull The communication and data exchange procedure, Ί ^ θ 疋 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Water m < 显生生医讯 right 疋 仃 ( ( ( ( ( ( ( ( ( ( ( ( ( ( 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋 蒋In the method of user identification, biomedical data measurement, biomedical data uploading biomedical data management, and remote medical care used by the biomedical device for short-range wireless transmission function, when the step (S02) is judged as " No, the method flow is performed (S26); Moreover, when the determination result of the step (S12) is "NO", it means that the user does not need to use the biomedical device i to measure the analog medical signal of the test object 3, (4), and the method flow performs the step (S19). 'Inquiring whether the user wants to transfer the biomedical data stored in the smart card unit 16 to the handheld device 2. In addition, when the determination result of the step (3) 9) and the step (S22) is "NO", the step (S25) is performed; and "When the judgment result of the step (S25) is "NO", the step of performing the repetition (S03) is repeated; Finally, when the decision result of the step (S26) is "NO", the step (S13) is repeatedly executed. In addition, in the method for user identification, biomedical data measurement, biomedical data uploading/downloading, biomedical data management, and remote medical care used by the biomedical device having the short-range wireless transmission function of the present invention, The step (S05), the step (S06), the step (s〇8) 'the step (Μ), the step (S21), and the step (S24) have at least two detailed steps. The figure is a method flow chart of the detailed steps of the step (s〇5). As shown in the tenth figure, the step (s〇5) comprises two detailed steps: step (S051), a second micro processing unit 221 Receiving the personal information of the user, the GPS information, the time information, and the optimal setting of the personal biomedical device, and the step (S052), the second micro processing unit 221 will personalize the user, The Gps information, the time information, and the optimal setting data of the personal biomedical device are stored in a second micro memory unit 222.

And 'please refer to the eleventh figure, the method flow chart of the detailed steps of the step (S06)' as shown in the tenth figure, the step (S06) also includes two detailed steps · step (S061), the The second micro processing unit 221 reads the user personal information, the GPS information, the time information, and the optimal setting data of the personal biomedical device stored in the second micro memory unit 222, and the step (s) 62) The second micro processing unit 221 transmits the user personal information 'GPS information, time information, and the best setting data of the personal biomedical device to the near field communication module 21. And, referring to the twelfth figure, the method flow chart of the detailed steps of the step (s〇8) is as shown in the twelfth figure, and the step (s〇) also includes two detailed steps: the step (s〇 81) A first micro processing unit 接收6ι receives the user personal information transmitted by the near-% communication unit 18, the GPS information, the time information, the optimal setting data of the personal biomedical device, and the environment zm degree/ Humidity information readout; and step (s〇82), the first micro processing unit 161 stores user personal information, GPS information, time information, optimal setting data of the personal biomedical device, and ambient temperature and humidity information to A first micro memory unit 162. Further, please refer to the thirteenth figure, the method flow chart 'as shown in the thirteenth figure is the detailed step of the step (S18), the step (S18) also includes 24 201233366 Two detailed steps: step (3) 81), the first micro processing unit i6i receives the biomedical data transmitted by the micro control unit 14; and the step (3) (2), the first micro processing ... 61 stores the biomedical data to the first micro Memory unit 162 Please refer to FIG. 14 again, which is a flowchart of a method for the detailed steps of step (S21). As shown in FIG. 14, the step (S21) also includes two detailed steps: step (S211), the second The micro processing unit 221 receives the biometric data transmitted by the near field communication module 21; and the step (7) (1), the second micro processing unit 221 stores the biomedical data to the second micro memory unit 222. User identification, biomedical data measurement, and medical data uploading used by biomedical devices with short-range wireless transmission functions: biomedical data management, and remote medical care methods in this step (S24) is the cloud The server immediately performs the steps of the medical care program, and therefore, it has more complicated detailed steps, please refer to the fifteenth A picture and the fifteenth E picture, which is a method flow chart of the detailed steps of the step (S24). 15th and 15th, the step (S24) includes the following detailed steps of first performing the step (S241), and determining whether the biomedical data is correct or not (step S243) Health care If the threshold value is more than one threshold, then step (S244) is performed. 'The actual location of only one of the users is determined by the GPS information; then, the step flow is performed by the step (S245) to notify the neighboring medical unit, and the medical unit is immediately To the user 矣 25 201233366 x χ perform immediate ambulance; then, the step procedure is to perform the step (S246) 'the biomedical data, the user's personal information, the gPs

The information, the time information, the ambient temperature/humidity information, and the temperature/humidity parameter are recorded in a database of the cloud server. Further, when the determined result of the step (S241) is "No J, the step (S242) is performed, the biomedical data is corrected, and the subsequent steps are continuously performed; and, when the judgment result of the step (S243) is NO", the step The process directly performs the step (S246). «°This, via the above, the hair of the '--- ^ ^ ^; force month t* 4 device and its user identification, biomedical data measurement, biomedical upload / download, biomedical data management, The method of remote medical care has been completely and clearly disclosed in the embodiments, and it can be known from the related description that the present invention has the following advantages: 1. The present invention will be - Zhisheng + also «The card 7C and a near field communication unit are integrated in the biomedical device, such as · A, . Blood glucose machine, so that when the blood glucose meter measures and calculates the biomedical data of the test object, the stupid biomedical data It can be stored in the smart card unit, and the γβ '% communication unit can transmit the biomedical data to a handheld device, such as a smart phone, to upload the biomedical data to the cloud β M through the handheld device. The cloud server can record information such as 'imported medical care at the same time. According to the first point mentioned above, the invention is characterized in that the biomedical device can be downloaded from the cloud servo 26 201233366 by using the biomedical device and the handheld device. Information and the best setting data for personalized biomedical devices. Such biomedical devices can be executed based on user information and optimal settings of personal biomedical devices - user identification procedures and parameter setting procedures. 3. According to the above point 2, by recognizing the user's personal information, the biomedical device can recognize the identity of the current user' and automatically perform the optimized parameter β, such as & This makes the same biomedical device can be used by many people's. In the case of data mis-recording and misjudgment, the use of such biomedical devices is quite smart and economical. In the first point, when the biomedical device is in near-field communication with the handheld device, the biomedical device can download personal historical measurement data from the cloud server through the handheld device for comparison with the measurement data. 5. The present invention further provides a method for user identification, biomedical data measurement, biomedical data uploading/downloading, biomedical data management, and remote medical care used by a biomedical device having a short-range wireless transmission function. The method enables the biomedical device with the short-range wireless transmission function to complete the communication and data exchange process with a handheld device, and through the handheld I-communication module, the biomedical data, the user personal information, the GPS The f-message, the inter-beat, and the ambient temperature/humidity information are uploaded to the cloud server: to use the cloud server to complete the data interpretation and execute the protection sequence in real time. At present, everyone has at least one handheld device, such as: smart hand 27 201233366 machine or tablet computer, because smart phones and tablets have remote communication functions; therefore, different from the conventional technology The medical measuring device for remote transmission function, the spirit of the invention lies in: designing a simple and cost-effective biomedical device, and enabling the biomedical device to communicate with the handheld device, thereby using the handheld device and the cloud server The communication enables the cloud server to receive the biomedical data uploaded by the biomedical device, so that the cloud server can provide real-time user care according to the biomedical data received by the cloud server. The detailed description of the present invention is intended to be illustrative of the preferred embodiments of the invention, and the invention is not intended to limit the scope of the invention. In the scope of patents. [Simple description of the diagram] The first picture

A perspective view of a conventional blood glucose meter and a computer; an architectural diagram of a medical measuring device with a remote transmission function disclosed in the Republic of China Patent Certificate No. 129231 1; A block diagram of a biomedical device having a short-range wireless transmission function; a stereoscopic view of a biomedical device having a short-range wireless transmission function of the present invention and a handheld device having a near-field communication module and a ... 28 201233366 Figure 5 is a sixth block diagram of the present invention having a short-range wireless-passing functional device; a second block diagram of the handheld device; A stereoscopic view of a sphygmomanometer and a handheld device; a stereogram of an electrocardiograph and a handheld device;

The method flow is the user identification, the biomedical data measurement, the biomedical data uploading/downloading, the biomedical data, and the remote medical treatment used by the biomedical device with the short-range wireless transmission function of the present invention. Method of care ts] · Hey,

The tenth figure - the twelfth figure, the thirteenth figure, the fourteenth figure is the detailed step (S06) of the step (S06), the detailed step (S08), the detailed step (S18), the detailed steps (S18) S 21 ) Details and steps of the method flow · circumference, step method flow chart; step method flow chart; step method flow chart; step method flow chart; 15th A picture and 15th B picture system Step (S24) [Description of main component symbols] Flow chart of detailed steps The method has a close-range wireless 偯 "The ice wheel function is a habit of blood glucose machine 29 201233366 la Medical measuring device with remote transmission function 11 Measuring unit ll5 Screen 11a measuring unit 12 environment sensing unit \T connection cable 12a storage unit 121, USB connector 13 data conversion unit 13a detection unit 14 micro control unit 14a network servo unit 15 memory unit 15a mail server unit 16 smart card Unit 16a Webpage Serving 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 30 201233366

19 Power unit 2 Handheld device 2, test strip 21 Near field communication module 21, reaction area 22 smart card 221 first micro processing unit 222 second micro memory unit 23 communication module 3 object to be tested 3, computer 3 Γ USB plug Holes S01 to S03, S04 to S09, S10 to S14, S15 to S21, S26 to S27, S051 to S052, S061 to S062, S081 'S22 to S25, to S082, S181

~S182, S211~S212, S241~S243, S244~S246 Method Step 31

Claims (1)

201233366 VII. Patent application scope: 1. A biomedical device with short-range wireless transmission function, which can communicate with a handheld device having at least one near field communication module and a smart card for further transmission through short-range wireless transmission. For data exchange, the biomedical device with short-range wireless transmission function includes: a measuring unit for connecting a sample to be measured to measure an analog medical signal of the object to be tested; an environmental sensing unit And measuring the temperature/humidity parameter of the external environment while the measuring unit measures the analog medical signal; a data conversion unit is coupled to the measuring unit to receive the analog biomedical signal, and The analog control signal is converted into a digital medical signal; a micro control unit is coupled to the environmental sensing unit and the data conversion unit, and the micro control unit can simultaneously receive the digital medical signal and the temperature/humidity Parameters, and can organize digital health signals and 'windness/humidity parameters to further process them into one biomedical data; one memory unit, coupled The micro-control unit is used as a storage medium; a smart card 70 is coupled to the micro control unit as a storage medium; 32 201233366 a display unit is coupled to the micro control unit, wherein the display unit can receive The biomedical data output by the micro control unit displays a biomedical value; and the smart card unit is coupled to the near field communication unit and coupled to the smart access smart card unit, and the near field communication unit is wireless Transmitting the biomedical data stored in the smart card unit to the near field communication module of the handheld device; wherein when a user wants to connect the object to be measured to the measuring unit, the system must first The near field communication unit is adjacent to the near field communication module of the handheld device, so that the near field communication module can communicate with the near field communication unit, so that the near field communication module can be used in the smart card. Personal information, -Gps information, one-time information, the best language for the medical device, and one The ambient temperature/humidity information is transmitted to the near field communication unit; further, the near field communication unit will personalize the user, the information, the time information, the optimal setting data of the personal biomedical device, and the ambient temperature The humidity information is stored in the smart card unit to complete a user identification program and a parameter setting program. 2. The biomedical device having the short-range wireless transmission function as described in the scope of claim i further includes: a power supply unit Providing a power supply to the measuring unit, the environment sensing unit, the data conversion unit, the micro control unit, the display unit, and the near field communication unit. ^ 33 201233366 The biomedical device having the short-range wireless transmission function, wherein the smart card unit further comprises: a first micro-processing unit coupled to the micro-control unit and the near-field communication 7C to receive the biomedical Data, the user's personal information, the GPS information, the time information, the personal health device's t-settings#, and the ambient temperature/humidity information And the first micro-recovery unit is coupled to the first micro-processing unit, wherein 'when the first micro-processing unit receives biomedical data, user personal information, GPS information, time information, personal medical device After the optimal setting data and the ambient temperature/humidity information, the data received by the user is stored in the first micro memory unit. 4. The biomedical device with short-range wireless transmission function as described in claim 1 The device of the device includes: the first micro processing unit is coupled to the near field communication module; and the first micro cell is coupled to the second micro processing unit, wherein The second micro memory unit can access the second micro memory unit to store the user personal information stored in the first micro memory unit, the GPS information, the time information, the optimal setting data of the personal biomedical device, and The ambient temperature/humidity information is read out, and at the same time, the second micro-processing is opened and stored in the second micro-memory unit. 34 201233366 5. The biomedical device having the short-range wireless transmission function according to Item 1, wherein the near field communication unit stores the user personal information in the smart card unit and completes the user identification program and the parameter setting program Thereafter, the user can connect the object to be tested to the measuring unit to measure the analog medical signal of the object to be tested. 6. The short-range wireless transmission function as described in claim 3 a biomedical device of φ, wherein the near field communication unit stores the user personal information in the smart card unit and completes the user identification program and the parameter setting program, and transmits the near field communication through the first micro processing unit The unit can transmit the biomedical data stored in the first micro memory unit to the near field communication module. 7. The biomedical device having the short-range wireless transmission function according to claim 4, wherein After the near field communication module receives the biometric data transmitted by the near field communication unit, the second micro processing unit stores the biomedical data in the second micro memory unit. And uploading the biomedical data, the personal information of the user, the GPS resource, the time information, and the ambient temperature/humidity information to the communication device through a communication module of the handheld device. Take the stomach to carry out a medical care program anytime, anywhere through the cloud feeding device. 8. The biomedical device having the short-range wireless transmission function according to claim 1, wherein the measuring unit can be any one of the following: a blood glucose test piece measuring device, a body fat measuring device, and a Blood pressure measuring device, and a 35 201233366 electrocardiogram measuring device. 9. The biomedical device of the patent application scope, wherein the tablet and the human body. The item 8 has the function of short-distance wireless transmission, and the object to be tested may be any one of the following: blood glucose test 10. The biomedical device having the near (four) wireless transmission function as described in the patent application (4), t, The handheld device can be any of the following: smart phones, PDAs, handheld game consoles, digital photo frames, ipA files, notebook computers, and tablets. The following methods are used for the biomedical device with short-range wireless transmission function: identification, biomedical data measurement, biomedical data uploading/downloading, biomedical data management, and remote medical care. (1) bringing a biomedical device having a short-range wireless transmission function to a handheld device having at least one near field communication module and a smart card; (2) determining that the biomedical device and the handheld device are executed - communication and data exchange procedures, if yes, perform step (3), if $, then perform step (21); One of the near field communication units of the device communicates with the near field communication module of the handheld device; the communication module is downloaded from a cloud device by one of the handheld devices - user personal information, one end servo GPS information, inter-information, and The best setting for a medical device is 36 (4) 20l233366; (5) store the user's personal information, the GPS information, the time information, and the best setting information of the personal medical device to a smart card. (6) the near field communication module accesses the smart card; (7) The near field communication module transmits the user's personal information, GPS information, time information, optimal setting data of the personal biomedical device, and an ambient temperature/humidity information to the near field communication unit; (8) Near field The communication unit stores user personal information, GpS information, time information, optimal setting data of the personal biomedical device, and the ambient temperature/humidity information to the / smart card unit; (9) The raw S device is completed according to the user's personal information and the best information of the personal inflammation device - parameter setting sequence; 1)) determining whether one of the users is downloaded from the cloud server through the handheld device Historical measurement data, if yes, perform step (11), if not, then J vanadium step (12); 11) download the user's historical measurement data from the 毋 π end server through the communication module; ) to determine whether to start using the soil device to measure the analogy of the sample, and if so, execute step (13), if not, execute the step (^ $ ); : 13) The test object is connected to one measurement unit of the biomedical device; [14) the unit measures the analog medical signal of the test object, and the 'one environmental sensing unit measures one temperature/humidity parameter of the external environment; U" - the data conversion unit receives the analog biomedical signal and converts it into a digital medical signal; (16) a micro control unit simultaneously receives the digital medical signal and the temperature/humidity parameter; (17) the micro control The unit organizes the digital medical signal and the temperature/humidity parameter, and processes it into a biomedical data step by step; ((1) The micro control unit stores the biomedical data to the smart card unit; (19) determines whether the biomedical data stored in the smart card & U white sputum tl is transmitted to the handheld device, if the county clothes are straight疋, the step (2〇) is performed, if not, step (25) is performed; (2〇) the near field communication unit transmits the biomedical data to the near field communication module; (21) the near field communication module will be a medical doctor The data is stored to the smart card; (22) to determine whether the medical doctor will terminate the server, if 38 201233366 is 'then perform step (23), if the end is no, then step (25); (23) through the hand Device communication Wang Hao data, user personal information, GPS information, time gate, daytime information, and ambient temperature/humidity information are uploaded to the cloud server; (24) Cloud server instant execution _ medical care program; (25) judging whether to end the communication and data exchange procedure of the biomedical identification device, if it is Shijie, proceeding to step (26), and if not, repeating step (3). (26) determining whether to end the use of the living The medical device measures the analog medical signal of the test object, and if so, performs step (27), if not, repeats step (13); and (27) the medical doctor with the short-range wireless transmission function The device is remote from the handheld device. User identification, biomedical data measurement, biomedical data upload/download, biomedical data management, and remote medical treatment used by biomedical devices with short-range wireless transmission functions as described in U.S. Patent Application 帛U The method of nursing, wherein the step (5) further comprises: (51) - the second micro processing unit receives the personal information of the user, the GPS information, the time information, and the optimal setting data of the personal medical device And (52) the second micro processing unit stores the user personal information, Gps 39 201233366 information, time information, and optimal setting data of the personal biomedical device in a second micro memory unit. User identification, biomedical data measurement, biomedical data upload/download, biomedical data management, and far-reaching used by biomedical devices with short-range wireless transmission power as described in the third paragraph of the patent scope of the patent application The method of the medical care of the medical care unit, wherein the step (6) further comprises: (61) - the second micro processing unit stores the personal information of the user, the GPS information, the time information, and the information stored in a second micro memory unit. And the best setting information of the personal biomedical device; and (62) the second micro processing unit transmits the user personal information, the Gps information, the time information, and the optimal setting data of the personal biomedical device to the near field communication module . 14. User identification, biomedical data measurement, biomedical data upload/download, biomedical data management, and use of biomedical devices with short-range wireless transmission functions as described in item 丨i of the patent scope The remote medical care method 'where' the step (8) further comprises: (81) - the first micro processing unit receives the user personal information transmitted by the near field communication unit, the GPS information, the time information, the individual The optimal setting data of the biomedical device and the ambient temperature/humidity information; and (82) the first micro processing unit sets the user personal information, Gps 201233366 information, time information, optimal setting information of the personal biomedical device, And the ambient temperature/humidity information is stored to a first-micro memory unit. 15. User identification, biomedical data measurement, and raw use of a biomedical device having a short-range wireless transmission function as described in the scope of claim U Medical data uploading/downloading, biomedical data management, and remote medical care method 'where' the step (18) further comprises: - the first micro processing unit receives the biomedical data transmitted by the micro control unit; and 182) The first micro processing unit stores the biomedical data to a first micro memory unit. 6'If the biomedical device with the short-range wireless transmission function described in the scope of patent application 帛丨i is identified by the system, the biomedical data measurement, the biomedical data upload/download, the biomedical data management, And the method of remote medical care', wherein the step (21) further comprises: 211 - the second microprocessor unit receives the delivery of the biomedical data by the field communication module; and 212 to the second microprocessor unit The biomedical data stores the first micro memory unit. The user's identification of the medical device used by the doctors can be used for the user identification of the biomedical device of the wireless transmission. The biomedical data upload/download, the biomedical device, the medical treatment, and the remote medical care. 17. As described in claim n, there is a life of 41 201233366 method 'where 'this step (24) further includes: (241) determining whether the biomedical data is correct, right 疋, then performing step (243), If not, proceed to step (242); (242) to correct the biomedical data; (243) to determine whether the biomedical data exceeds a standard-b resistance, if yes, perform step (244) 'If no, perform steps (246); (244) locating the user's actual location by the GPS information, (245) notifying a neighboring healthcare unit and directing the medical unit to the actual location of the user to perform immediate ambulance; and 246) recording the biomedical data, the user personal information, the GPS information, the time information, the ambient temperature/humidity information, and the temperature/humidity parameter in a database of the cloud feeding device. 18, such as the user identification, biomedical data measurement, biomedical data uploading/submarine, biomedical data management, and biomedical data used by the biomedical device with short-range wireless transmission function as described in the scope of the patent application scope. The remote medical care method, wherein the measuring unit can be any one of the following: a blood glucose test piece measuring device, a body fat measuring device, a blood pressure measuring device, and an electrocardiogram measuring device. 'The short-distance wireless transmission work described in item U of the patent scope of the patent π 201233366 The amount of raw materials for raw materials, raw and remote medical care: the use of blood glucose test strips and human health devices Identification, medical data uploading/downloading, biomedical data management, method 'where' the object to be tested can be any of the following - body 0 2〇\ as described in the scope of patent application 帛U, with short-range wireless transmission The user identification used by the biomedical device, the biomedical data measurement raw material uploading/downloading, the biomedical data management, and the remote medical care method, wherein the handheld device can be any of the following: a smart phone, Military-type game consoles 'digital photo frames, ipAD, notebook computers, and tablets. 43