TWM445429U - Active physiological parameter acquisition system by using mobile device - Google Patents

Description

System for actively obtaining physiological parameters using mobile devices

The present invention relates to a system for actively obtaining physiological parameters by using a mobile device, and particularly relates to a system capable of actively controlling and obtaining physiological parameters by using a mobile device.

In today's society, due to changes in eating habits and lifestyles, chronic diseases have seriously affected the health of modern people. Especially high blood sugar, high blood pressure and high blood fat are one of the precursors of chronic diseases. Therefore, regular doses Measuring physiological data seems to become one of the common sense that modern people must have.

The current physiological measuring instrument can be mainly divided into three categories: a physiological measuring unit 1, a micro control module 2, and an input/output module 3, wherein the physiological measuring unit 1 mainly obtains an instant physiological signal by measuring the human body. The micro control module 2 is used for controlling the physiological measurement unit 1 and the input/output module 3, and the input/output module 3 has a display screen capable of displaying data, an operation interface for the operator to operate, and for outputting or storing data. The physiological measurement unit 1 is configured to obtain an immediate physiological signal by measuring the human body, and the signal is processed into an instant physiological data via the micro control module 2, and the instant physiological data is displayed in the The output is displayed on the display screen of the module 3 for the tester to read, store or print into a report.

As the physiological measuring instruments gradually turn toward the direction of personalization and customization, the manufacturing and design cost of the physiological measuring instruments is high, especially the display of the input and output modules is expensive, and the size is getting larger and larger, and the price thereof It is also prone to violent fluctuations, so that the operator can not effectively control the cost. In addition, the physiological data that each measurer needs to pay attention to due to different physical conditions is relatively different. Therefore, the operator has to bother to develop an operation that meets the needs of various measurers. Interface, however, the operational interface that meets the requirements is too complex, and for the unfamiliar measurer, there are many operational problems invisibly.

With the popularization and popularity of powerful mobile devices and the maturity of downloading platforms for related software, how to effectively use the current mobile device to solve the above-mentioned physiological measuring instrument manufacturing cost is too high and provide a customized or even Personalized interface for each measurement It is a subject of research and development that can be easily acquired and carried with the physiological data of its own measurement.

The main purpose of the present invention is to provide a system for actively obtaining physiological parameters by using a mobile device, which actively controls a physiological measurement module and obtains physiological data by using a mobile device, and stores and actively displays physiological data on a display screen of the mobile device. The system comprises: a system for actively acquiring physiological parameters by using a mobile device, the system comprising: a main control software, wherein the mobile device has a mobile device with a display screen, the mobile device has at least a first wireless communication module, and the main control software The first wireless communication module of the mobile device actively transmits the main control signal and receives the display wireless physiological signal; and a physiological measurement module, the physiological measurement module does not include an internal display, and the physiological measurement module Obtaining at least one physiological data by measuring the human body, the physiological measurement module has at least a second wireless communication module, and the second wireless communication module has at least one physiological signal transmitting unit, and the physiological data is transmitted as one The wireless signal is received by the first wireless communication module of the mobile device and transmitted to the main control software. Master software and the physiologically active data store and displayed on the display screen of the mobile device; a control signal receiving unit, on the initiative of the mobile device receiving the control signal and the active transmitter trigger module for measuring human physiological measurements.

According to the above main features, the mobile device can be a smart mobile phone, a tablet computer, a notebook computer or a simple computer.

According to the foregoing main features, the first wireless communication module and the second wireless communication module may be a wireless Bluetooth (BLUE TOOTH), an infrared (IR), a WIFI wireless network, or a radio frequency identification (Radio Frequency IDentification). RFID) or wireless communication modules such as Near Field Communication (NFC).

According to the above main features, the master software can input personal data.

According to the above main features, the physiological data includes: body temperature, pulse rate, blood pressure, blood glucose, blood oxygen saturation concentration, electrocardiogram and respiratory parameters.

In view of the above, the preferred embodiments and the drawings are used to illustrate the technical means and effects of the present invention.

The mobile device D described in the present application is not limited to what kind of device, and only the information device (the information device with the central processing unit and the memory device) having the wireless communication module that is easy to carry and has the display screen can be Create the mobile device, such as a smart phone, tablet, laptop or simple computer (eg EeePC).

As shown in Fig. 2, Fig. 2 is a schematic diagram of a system architecture for actively acquiring physiological parameters using a mobile device.

As shown in the figure, the present invention provides a system for actively acquiring physiological parameters by using a mobile device, the system comprising: a main control software 40 and a physiological measurement module 50, wherein the physiological measurement module 50 does not include an internal display, the physiological The measurement module 50 has a second wireless communication module 51. The mobile device D has at least one first wireless communication module D1. The main control software 40 actively controls the first wireless communication module D1 of the mobile device D. The physiological measurement module 50 measures the measurement person, and then returns the data to the mobile device D for storage, display and analysis by the second wireless communication module 51. In more detail, the main control software 40 is When the main control software 40 is successfully installed in the mobile device D, the main control software 40 actively defines the wireless communication module on the mobile device D as the first wireless communication module D1. The wireless physiological signal used to actively transmit the main control signal and receive the physiological measurement module 50.

When the main control software 40 is actually triggered (executed), the first wireless communication module D1 actively searches for the second wireless communication module 51 in the vicinity of the pairing. After the pairing is completed, the first wireless communication module D1 is The physiological measurement module 50 is actively controlled by the active emission main control signal.

a physiological measurement module 50, wherein the module obtains at least one physiological data by measuring the human body, and the physiological data includes: body temperature, pulse rate, blood pressure, blood sugar, blood oxygen saturation concentration, electrocardiogram, and respiratory parameters, that is, The physiological measurement module includes: a thermometer, a pulsometer, a sphygmomanometer, a blood glucose meter, a blood oxygen saturation concentration meter, a heart rate meter, or a respiratory parameter, but does not include a display device, and further, the physiological measurement module The group 50 has at least a second wireless communication module 51, and the module has at least a physiological signal transmitting unit 511 and a control signal receiving unit 512; wherein the physiological signal transmitting unit 511 transmits the physiological data as a wireless signal, and the physiological data is received by the first wireless communication module D1 of the mobile device. Passing to the main control software 40, the main control software 40 stores and actively displays the physiological data on the display screen of the mobile device D; and the control signal receiving unit 512 actively receives the mobile device D to actively transmit the mobile device D. The control signal is triggered and the physiological measurement module 50 is triggered to perform body measurement.

The first wireless communication module D1 and the second wireless communication module 51 can be a wireless Bluetooth (BLUE TOOTH), an infrared (IR), a WIFI wireless network, or a radio frequency identification (RFID). It is a wireless communication module such as Near Field Communication (NFC).

The execution mode of the authoring system can be divided into a pre-stage and a post-stage; the so-called pre-stage is when the main control software 40 is triggered (executed), the main control software 40 actively triggers the pairing function of the first wireless communication module D1. Actively search for the second wireless communication module 51 in the vicinity of the pair. As for how to search for the pairing, it is not the focus of the creation. Therefore, the first wireless communication module D1 actively sends out the control signal to actively control the physiological quantity. After the measurement module 50 (generally referred to as initialization), the measurer cooperates with the measurement mode of the physiological measurement module 50, and uses the main control software 40 on the mobile device D to actively transmit the first wireless communication module D1. The main control signal triggers the physiological measurement module 50 to perform measurement.

In the latter stage, when the physiological measurement module 50 successfully obtains an instant physiological data, the physiological signal transmitting unit 511 of the second wireless communication module 51 transmits the data as a wireless signal, and the mobile device D The wireless communication module D1 receives the physiological data and transmits the physiological data to the main control software 40. The main control software 40 stores the physiological data and actively displays it on the display screen 46 of the mobile device D.

In a preferred embodiment, the physiological signal transmitting unit 511 encrypts and transmits the physiological data acquired by the physiological measuring module 50 into a wireless signal, and the first wireless communication module D1 of the mobile device D receives the wireless data. The physiological data is decrypted and restored, and the physiological data is transmitted to the main control software 40. The main control software 40 stores the physiological data and actively displays it on the display screen 46 of the mobile device D. on. In a suitable embodiment, the mobile device D includes a speaker that emits a voice of physiological data, so that the user can more easily obtain the measured physiological data by voice.

In a preferred embodiment, the mobile device D can input data and transmit the input data from the first wireless communication module D1 to the physiological measurement module 50, and store the data in the physiological measurement module 50. Enter the data.

In a preferred embodiment, the physiological measurement module 50 can input data and transmit it from the second wireless communication module 51 to the mobile device D, and store the input data in the mobile device D.

In a suitable embodiment, the master software 40 can automatically identify the physiological data of the different measuring components and perform corresponding control.

In a suitable embodiment, the main control software 40 can automatically identify the physiological data of different measurement components and wirelessly connect one or more physiological measurement modules 50 and perform corresponding control.

In a preferred embodiment, the main control software 40 can control the operation of the physiological measurement module 50, for example, display on the screen of the main control software 40 by means of a graphic, a screen, a text, or a voice indication. The various steps of blood pressure allow the user to easily operate on the mobile device D.

In addition, in addition to actively transmitting control signals and receiving wireless physiological signals, the main control software 40 of this creation also has the function of storing historical data or inputting personal data (such as measuring height, age, gender or Is the BMI value expected by the measurer, etc., and the master software 40 can list the physiological parameter history record, and perform data analysis operations on the physiological parameter history record to list various statistical tables or graphs for the measurement person to grasp. a condition; wherein the physiological parameter history, for example, may be a list of measurement results of the morning and evening of one week of blood pressure, wherein the statistical table or graph of the physiological parameter, for example, may measure blood pressure daily for one week The long bar chart of the value allows the user to clearly see the changes and trends in blood pressure.

In a suitable embodiment, the master software 40 can manage at least one physiological parameter for an individual.

In a preferred embodiment, the main control software 40 further includes medical data related to the physiological parameter, for example, a range of normal blood pressure values determined by the World Health Organization (WHO), and a precautionary measure when measuring blood glucose levels. Wait.

From the above description, it can be known that this creation has the following two advantages:

1. Whether the creation is in the pre-stage or the post-stage, the control or display of the physiological data during the execution is controlled and displayed by the measuring device, that is, the physiological measuring module 50 described in the present creation does not An additional display screen 46 or an operation interface is required to effectively save the manufacturing cost of the operator.

2. The main control software 40 of this creation can also be designed according to the needs of each measurer, such as: medical professionals such as doctors, general surveyers or seniors, can design and display a variety of physiological data for professional Analyze and judge, or design a single data or a single operation screen for easy use.

The present invention has been described in more detail by the above-described preferred embodiments, but the present invention is not limited to the above-exemplified embodiments, and various changes and modifications are made to the structures within the scope of the technical idea disclosed in the present disclosure. Still within the scope of this creation.

D‧‧‧ mobile device

D1‧‧‧1st wireless communication module

40‧‧‧Master software

50‧‧‧Physiological measurement module

51‧‧‧2nd wireless communication module

511‧‧‧physical signal transmitting unit

512‧‧‧Control signal receiving unit

46‧‧‧ display screen

Figure 1 is a schematic view showing the structure of a conventional physiological measuring instrument.

The second figure is a schematic diagram of the system architecture for actively acquiring physiological parameters using the mobile device.

D‧‧‧ mobile device

D1‧‧‧1st wireless communication module

40‧‧‧Master software

50‧‧‧Physiological measurement module

51‧‧‧2nd wireless communication module

511‧‧‧physical signal transmitting unit

512‧‧‧Control signal receiving unit

46‧‧‧ display screen

Claims (16)

A system for actively obtaining physiological parameters by using a mobile device, the system comprising: a main control software device, wherein the mobile device has at least one first wireless communication module, and the main control soft system passes the The first wireless communication module of the mobile device actively transmits the main control signal and receives the display wireless physiological signal; and a physiological measurement module, the physiological measurement module does not include an internal display, and the physiological measurement module is Measuring the human body to obtain at least one physiological data, the physiological measurement module has at least a second wireless communication module, and the second wireless communication module has at least one physiological signal transmitting unit, and the physiological data is transmitted as a wireless signal. The physiological data is received by the first wireless communication module of the mobile device and transmitted to the main control software, and the main control software stores and actively displays the physiological data on the display screen of the mobile device; a control signal receiving unit The system actively receives the control signal actively emitted by the mobile device and triggers the physiological measurement module to perform the human body measurement. A system for actively obtaining physiological parameters by using a mobile device according to the first aspect of the patent application, wherein the physiological data includes: body temperature, pulse rate, blood pressure, blood glucose, blood oxygen saturation concentration, electrocardiogram, and respiratory parameters. A system for actively obtaining physiological parameters by using a mobile device according to the first application of the patent scope, wherein the mobile device is a smart mobile phone, a tablet computer, a notebook computer or a simple computer. The system for actively obtaining physiological parameters by using the mobile device according to the first aspect of the patent application, wherein the physiological signal transmitting unit encrypts and transmits the physiological data acquired by the physiological measuring module into a wireless signal, and the mobile device is 1 The wireless communication module receives the physiological data, and decrypts and restores the physiological data to the main control software. The main control software stores the physiological data and actively displays it on the display screen of the mobile device. A system for actively obtaining physiological parameters by using a mobile device according to the first aspect of the patent application, wherein the mobile device includes a speaker capable of emitting a voice of physiological data. The system for actively obtaining physiological parameters by using the mobile device according to the first application of the patent scope, wherein the first wireless communication module and the second wireless communication module can be wireless Bluetooth (BLUE TOOTH), infrared (IR), WIFI wireless Wireless communication module such as network, radio frequency identification (RFID) or Near Field Communication (NFC). A system for actively obtaining physiological parameters by using a mobile device according to claim 1 of the patent application scope, wherein the mobile device can input data and transmit the data from the first wireless communication module to the physiological measurement module, and the physiological measurement is performed The module stores the input data. A system for actively obtaining a physiological parameter by using a mobile device according to claim 1, wherein the physiological measurement module can input data and transmit the data from the second wireless communication module to the mobile device, and store the mobile device in the mobile device Enter the data. A system for actively obtaining physiological parameters by using a mobile device according to claim 1 of the patent application scope, wherein the main control software can automatically identify physiological data of different measuring components and perform corresponding control. A system for actively obtaining physiological parameters by using a mobile device according to claim 1 of the patent application scope, wherein the main control software can automatically identify physiological data of different measuring components, and wirelessly connect one or more physiological measuring modules, and perform corresponding control. A system for actively obtaining physiological parameters by using a mobile device according to the first aspect of the patent application, wherein the main control software can control the operation of the physiological measurement module. A system for actively obtaining physiological parameters by using a mobile device according to the first aspect of the patent application, wherein the main control software can input personal data. A system for actively obtaining physiological parameters by using a mobile device according to claim 1 of the patent application scope, wherein the main control software can list physiological parameter historical records. A system for actively obtaining physiological parameters by using a mobile device according to claim 1 of the patent application scope, wherein the main control software can list statistical tables or graphs of historical records of physiological parameters. A system for actively obtaining physiological parameters using a mobile device according to claim 1 of the scope of the patent application, wherein the master software can manage at least one physiological parameter for an individual. A system for actively obtaining physiological parameters by using a mobile device according to claim 1 of the scope of the patent application, The main control software further includes medical data related to the physiological parameter.