CN103892815B - A kind of Human Physiology Monitoring Indexes method and monitoring system - Google Patents

Abstract

The invention discloses a method and system for monitoring human physiological indicators. The system includes a mobile terminal, and a human body physiological index data acquisition module (100) embedded in the mobile terminal. The human physiological index data acquisition module (100) is used for detecting a trigger signal generated by the touch between the mobile terminal and the human body, and sending the trigger signal to the mobile terminal. The mobile terminal is configured to control the human body physiological data acquisition module (100) to perform human body physiological index data collection work when receiving the trigger signal, and receive the human body physiological index collected by the human body physiological index data acquisition module (100) data. The mobile terminal is also used to compare the human physiological index data with the pre-stored human physiological index health reference data, and perform corresponding operations according to the comparison result. The invention not only greatly reduces the use cost of the user, but also improves the added value and operating pleasure of the mobile terminal.

Description

A method and system for monitoring human physiological indicators

technical field

The invention relates to the technical field of monitoring human physiological indicators, and more specifically, relates to a monitoring method and a monitoring system for human physiological indicators.

Background technique

With the development of electronic technology, major manufacturers have successively launched a variety of electronic products on the market for monitoring various physiological indicators of the human body, such as smart watches, smart bracelets, and smart running shoes. However, this type of electronic product has the following three main disadvantages. 1. As wearing accessories, such electronic products must keep in contact with the user's body to work normally. Once such electronic products are separated from the user's body, they will lose the function of collecting data on human physiological indicators. 2. This type of electronic product is often sold at a high price because it has not been available for a long time, and it is difficult to popularize it in a short period of time, and the cost of early adopters for users is relatively high; Niche user needs.

Therefore, how to develop a low-cost, easy-to-use human physiological index monitoring method and system that can meet the needs of popular users has become an urgent problem to be solved.

Contents of the invention

The technical problem to be solved by the present invention is to provide a monitoring method and a monitoring system for human physiological indicators in view of the above-mentioned defects of the prior art.

The technical scheme adopted by the present invention to solve its technical problems is: construct a kind of human body physiological index monitoring method, comprise the steps:

S1) If the trigger signal generated by the touch between the mobile terminal and the human body is detected, the human physiological index monitoring program is started, and the human physiological index data collection work is performed;

S2) Comparing the collected various human physiological indicators with the health reference value of the human physiological indicators used to measure the physiological health of the human body, and performing corresponding operations according to the comparison results.

In the above-mentioned human physiological index monitoring method of the present invention, the following steps are also included before the step S1:

S0) set the health baseline of human physiological indicators, and the normal fluctuation range and dangerous fluctuation range of various physiological indicators of the human body relative to the health baseline of the human physiological indicators; set the first step for judging whether to close the monitoring program of human physiological indicators A time threshold T1, and a second time threshold T2 for judging whether to stop the sampling operation of human physiological indicators.

In the above method for monitoring human physiological indicators of the present invention, the step S1 further includes: if the trigger signal generated by the touch between the mobile terminal and the human body is not detected within the first time threshold T1, then stop the background human physiological indicator monitoring program running.

In the above-mentioned method for monitoring human physiological indicators of the present invention, the step S1 further includes: if a trigger signal generated by the touch between the mobile terminal and a specific part of the human body is detected, starting the human physiological indicator data related to the specific part collection work.

In the above-mentioned human physiological index monitoring method of the present invention, the step of comparing the various human physiological indexes collected in the step S2 with the human physiological index reference data for measuring the physiological health status of the human body also includes:

S21) Extracting the highest and lowest values of various human physiological indicators collected within the second time threshold T2;

S22) Find the corresponding reference value of each human physiological index on the healthy baseline of the human physiological index;

S23) Comparing the highest value and the lowest value of each human physiological index with the corresponding reference value of the human physiological index on the human physiological health baseline.

In the above-mentioned human physiological index monitoring method of the present invention, the following steps are also included after the step S23:

S24) If it is judged that the maximum value of the difference between the highest value and the lowest value of a certain human physiological index within the second time threshold T2 and the reference value of the human physiological index in the reference baseline of the human physiological index is located in the item Within the normal fluctuation range of the human physiological index, a curve for reflecting the change of the human physiological index along the time axis is generated based on the data of the human physiological index collected within the second time threshold T2, and the bar is stored for To reflect the change curve of the physiological index of the human body along the time axis;

If it is judged that the maximum value of the difference between the highest value and the lowest value of a certain human physiological index within the second time threshold T2 and the reference value of the human physiological index in the health baseline of the human physiological index exceeds the maximum value of the human physiological index For the normal fluctuation range of the index, a curve is generated to reflect the change curve of the human physiological index along the time axis based on the data of the human physiological index collected within the second time threshold T2, and the bar pops up on the display screen. At the same time, it sends out early warning signals indicating abnormalities in human physiological indicators.

In the above-mentioned human physiological index monitoring method of the present invention, the following steps are also included after the step S24:

S25) Judging whether the maximum value of the difference between the highest value and the lowest value of the human physiological index within the second time threshold T2 and the reference value of the human physiological index on the health baseline of the human physiological index exceeds the maximum value The dangerous fluctuation range of the physiological indicators of the human body.

In the above-mentioned human physiological index monitoring method of the present invention, if it is judged that the highest value and the lowest value of the human physiological index in the second time threshold T2 in the step S25 and the human physiological index are within the health standard of the human physiological index When the maximum value of the difference between the reference values on the line exceeds the dangerous fluctuation range of the human physiological index, the warning signal will continue to be issued and the following steps will be performed:

S26) run the map program, open the electronic map;

S27) Acquiring the current location information of the mobile terminal;

S28) Searching for relevant hospital information using the physiological index of the human body and the current location information of the mobile terminal as keywords;

S29) Screen out several hospitals that are closer to the current location of the mobile terminal from all the searched hospitals, and mark the specific location information of the screened hospitals on the electronic map.

The present invention also constructs a human body physiological index monitoring system, including a mobile terminal, and a human body physiological index data acquisition module embedded in the mobile terminal;

The human physiological index data acquisition module is used to detect a trigger signal generated by the touch between the mobile terminal and the human body, and send the trigger signal to the mobile terminal;

The mobile terminal is configured to send a human physiological index data collection instruction to the human physiological index data acquisition module when receiving the trigger signal;

The human physiological index data acquisition module is also configured to execute the collection of human physiological index data according to the received human physiological index data collection instruction, and transmit the collected human physiological index data to the mobile terminal.

The mobile terminal is also used to compare the received human physiological index data with the pre-stored human physiological index health reference data for measuring the physiological health of the human body, and perform corresponding operations according to the comparison results.

In the above-mentioned human physiological index monitoring system of the present invention, the human physiological index data acquisition module includes a touch sensing unit and a human physiological index acquisition unit; the mobile terminal includes a human physiological index monitoring module, and the human physiological index monitoring module Separately electrically connected storage module, abnormal human physiological index early warning module, GPS module, search module and display screen;

The touch sensing unit is used to detect a trigger signal generated by the touch between the mobile terminal and the human body, and send the trigger signal to the mobile terminal;

The human physiological index collection unit is used to receive the human physiological index data collection instruction issued by the human physiological index monitoring module of the mobile terminal, execute the human physiological index data collection work, and collect the collected human physiological index data input to said mobile terminal;

The storage module is used to store the health reference data of the human physiological indicators;

The human physiological index monitoring module is also used to receive various human physiological index data input by the human physiological index data acquisition module, and compare the received various human physiological index data with the human physiological index health reference data When it is determined that one or more of the human physiological indicators are abnormal according to the comparison result, an early warning instruction for human physiological indicators or a hospital query instruction is generated;

The abnormal human physiological index early warning module is used to issue an early warning voice and generate vibration when receiving a human physiological index early warning instruction from the human physiological index monitoring module;

The GPS module is used to receive the positioning instruction of the human physiological index monitoring module, obtain the location information of the mobile terminal, and send the obtained location information of the mobile terminal to the search module;

The search module is used to search for relevant hospital information using the location information of the mobile terminal and abnormal human physiological indicators as keywords when receiving the hospital query instruction from the human physiological index monitoring module;

The display screen is used to display an electronic map, and the relevant hospital information searched by the search module is marked on the electronic map.

Since the human physiological index monitoring method and system of the present invention adopts the method of integrating and packaging various human physiological index sensors into the same IC chip, and embedding the IC chip into the back shell or frame of the mobile terminal based on the IOS system or the Android system Therefore, it overcomes the existing technology that can only monitor and display human physiological index data through electronic devices (such as smart bracelets and smart watches) that are in direct contact with human skin, which increases user costs and results in a small audience. The defects of the mobile terminal realize the beneficial effects of saving the user's use cost, increasing the added value of the mobile terminal and operating fun.

Description of drawings

The present invention will be further described below in conjunction with accompanying drawing and embodiment, in the accompanying drawing:

Fig. 1 is the structural block diagram of the human body physiological index monitoring system that the preferred embodiment of the present invention provides;

Fig. 2 is a structural block diagram of a human body physiological index acquisition module included in the human body physiological index monitoring system shown in Fig. 1;

Fig. 3 is the structural block diagram of the early warning module of the abnormal human physiological index included in the human physiological index monitoring system shown in Fig. 1;

Fig. 4 is the structural block diagram of the human body physiological index acquisition module that the human body physiological index monitoring system shown in Fig. 1 comprises;

Fig. 5 is a flowchart of a method for monitoring human physiological indicators provided by a preferred embodiment of the present invention.

detailed description

In order to solve the defects existing in the prior art that human physiological index data can only be monitored and displayed through additional electronic devices (such as smart bracelets) that are in direct contact with human skin, resulting in increased user costs and small audience groups, the present invention The main innovations are: 1) Integrate and package various human physiological index sensors into the same IC chip, and embed the IC chip into the back shell or frame position of the mobile terminal based on the IOS system or the Android system, so as to reduce the hardware and software development costs, shortening the development cycle; 2) the interaction between the user and the mobile terminal is flexible and diverse, which increases the entertainment of the mobile terminal; For the deviation of the reference value of the human physiological index, the change curve of the abnormal human physiological index along the time axis will pop up on the display screen 600, and an early warning signal will be issued, or the distance from the user's current position can be searched by using the abnormal human physiological index as a keyword Nearer relevant hospital information, and mark this hospital information and suggested route on the electronic map of display screen 600.

Since the present invention adopts the design that various human physiological index sensors are integrated and packaged into an IC chip, and the IC chip is embedded in the back shell or frame position of the mobile terminal based on the IOS or Android operating system, it solves the problem of In the prior art, human physiological index data can only be obtained through additional electronic devices that are in direct contact with human skin, which increases user costs and leads to technical problems with a small audience. Various human physiological index sensors monitor various physiological index data of the human body when the mobile terminal is in contact with the human skin, conduct a preliminary diagnosis of the health status of the mobile terminal user according to the monitoring results of the human physiological index, and pop up an abnormal human body on the display screen 600 The change curve of physiological indicators with the time axis, and provide relevant reference suggestions (such as the location information of the hospital or treatment medicine) according to the user's physical health status, so as to achieve the purpose of improving the added value and operating pleasure of the mobile terminal.

In order to make the purpose of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

As shown in FIG. 1 , the human body physiological index monitoring system of the present invention includes a mobile terminal and a human body physiological index acquisition module embedded in the mobile terminal. The mobile terminal further includes a human physiological index monitoring module 300 , an abnormal human physiological index early warning module 500 electrically connected to the human physiological index monitoring module 300 , a search module 200 , a storage module 400 , a GPS module 700 and a display screen 600 . Wherein, the human physiological index acquisition module 100 can communicate with the mobile terminal based on protocols such as I ² C, SPI, or MIPI. In a preferred embodiment of the present invention, the human body physiological index acquisition module 100 communicates with the mobile terminal through the I ² C bus.

The human physiological index acquisition module 100 is used to detect the trigger signal generated by the contact between the mobile terminal and the human body, send the sensed trigger signal to the human physiological index monitoring module 300, and receive the trigger signal from the human physiological index monitoring module 300. The generated human physiological index collection instruction is used to perform the sampling work of human physiological index data, and input the human physiological index data collected within the second time threshold T2 to the human physiological index monitoring module 300 .

The storage module 400 is used for storing the benchmark data of human physiological indicators for measuring the health status of human physiological indicators.

The human physiological index monitoring module 300 is also used to generate a curve reflecting the change of the physiological index of the human body along the time axis according to the received data of the physiological index of the human body, and store the curve for reflecting the change of the physiological index of the human body along the time axis to the storage module 400.

The human physiological index monitoring module 300 is also used to extract the maximum value and minimum value of each item of human physiological index data, and calculate the difference between the maximum value and minimum value and the corresponding human physiological index reference data of the human physiological index. value.

If the human physiological index monitoring module 300 judges that the maximum value of the above difference does not exceed the normal floating range of the human physiological index, then the human physiological index monitoring module 300 obtains the conclusion that all the physiological indexes of the user are normal, and does not execute any operate.

If the human physiological index monitoring module 300 judges that the maximum value of the above difference is within the dangerous floating range of the human physiological index, the human physiological index monitoring module 300 reads the change of the human physiological index in the storage module 400 along the time axis Curve, and the change curve of the human physiological index along the time axis is sent to the display screen 600 for display, and at the same time, an early warning signal for indicating abnormal human physiological index is sent to the abnormal human physiological index early warning module 500, so that the Abnormal Human Physiological Indicators The early warning module 500 for abnormal human physiological indicators sends out early warning voices and generates vibrations to remind users.

If the human physiological index monitoring module 300 judges that the maximum value in the above difference exceeds the normal floating range and dangerous floating range of the human physiological index at the same time, the human physiological index monitoring module 300 controls the GPS module 700 to locate the mobile terminal, Acquire the location information of the mobile terminal. The human physiological indicator monitoring module 300 is also used to input the location information of the mobile terminal from the GPS module 700 and abnormal human physiological indicators into the search module 200 , and send a hospital search instruction to the search module 200 .

The search module 200 is used to use the received location information of the mobile terminal and abnormal human physiological indicators as keywords to search for relevant hospital information through the Internet, and send the searched hospital information back to the human physiological indicator monitoring module 300 .

The human physiological index monitoring module 300 is also used to filter out the hospital closest to the user's current location from the received hospitals, and mark the specific location information of the hospital on the electronic map of the display screen 600 .

Wherein, the human body physiological index acquisition module may be various human body physiological index sensors integrated and packaged in the same IC chip. The mobile terminal may be a mobile phone or a tablet computer based on an IOS system or an Android system. The human physiological index monitoring module 300 and the searching module 200 may be the CPU of a mobile phone or a tablet computer.

As shown in FIG. 2 , the human physiological index acquisition module includes a touch sensing unit 101 and a human physiological index acquisition unit 102 electrically connected to the touch sensing unit 101 . The touch sensing unit 101 is used to detect the trigger signal generated by the touch between the mobile terminal and the human body. The human physiological index collection unit 102 is used for activating and executing the human physiological index data collection work when the touch sensing unit 101 detects the above-mentioned trigger signal.

As shown in FIG. 3 , the early warning module 500 for abnormal human physiological indicators includes a speaker unit 501 for issuing a warning voice indicating abnormal human physiological indicators, and a vibration unit 502 for generating vibrations. The speaker unit 501 may be a speaker of a mobile phone or a tablet computer, and the vibration unit 502 may be a vibration motor of a mobile phone or a tablet computer.

As shown in FIG. 4 , the human physiological index collection module includes a heart rate sensor 201 for measuring the user's heart rate, a blood pressure sensor 202 for measuring the user's blood pressure, and a temperature sensor 203 for measuring the user's body temperature.

The following will take the preferred embodiment of the present invention as an example to illustrate the method for monitoring human physiological indicators of the present invention:

As shown in Figure 5, in step S101, the user opens the human body physiological index setting option of the mobile terminal, selects the various human body physiological index health reference data set by the system by default in the setting option, and the normal dialing of each human body physiological index. Adjust the dynamic range and dangerous range, or make appropriate adjustments to the values, normal fluctuation range and dangerous fluctuation range of the above-mentioned health benchmark data of various human physiological indicators according to needs, so as to make it more in line with the user's personal situation. After the user exits the above settings, open the setting option of the mobile terminal again, and set the first time threshold T1 for judging whether to close the human physiological index monitoring program, and the first time threshold T1 for judging whether to stop the human physiological index sampling operation in the setting option. The second time threshold T2. In a preferred embodiment of the present invention, the first time threshold T1 is 2 minutes, and the second time threshold T2 is 10 seconds.

In step S102, the touch sensing unit 101 detects a trigger signal generated by the touch between the mobile terminal and the human body, and sends a human physiological index monitoring instruction to the mobile terminal. After receiving the human physiological index monitoring instruction, the mobile terminal executes the human physiological index monitoring program, and executes the human physiological index data collection work through the human physiological index collection unit 102 .

In the present invention, if the touch sensing unit 101 detects a trigger signal generated by the touch between the mobile terminal and a specific part of the human body (for example, the wrist), the touch sensing unit 101 only sends the signal of the specific part of the human body to the mobile terminal. Physiological indicator monitoring instructions. After receiving the instruction, the mobile terminal executes the human physiological index monitoring program, and collects the human physiological index data (corresponding to human heart rate data) related to the specific part of the human body through the human physiological index acquisition unit 102.

After the mobile terminal starts the human physiological index monitoring program, if the touch sensing unit 101 has not detected the trigger signal generated by the touch between the mobile terminal and the human body within the first time threshold T1, it will send a stop human physiological index to the mobile terminal. The monitoring command causes the mobile terminal to stop the human physiological index monitoring program running in the background, so as to reduce system power consumption and prolong the standby time.

In step S103, the human physiological index monitoring module 300 receives various human physiological index data collected by the human physiological index collection unit 102 within the human physiological index data collection time T2, and based on the received various human physiological index data A curve representing the variation of various human physiological indicators along the time axis is generated, and the variation curve of the human physiological indicators along the time axis is stored in the storage module 400 .

In step S104, the human physiological index monitoring module 300 first extracts the maximum value and minimum value of each human physiological index within the data collection time T2 of the human physiological index, and then reads the values of each human physiological index on the health reference curve of the human physiological index. Finally, calculate the difference between the maximum value and minimum value of each human physiological index and the reference value of the human physiological index, and select the maximum value of the obtained difference.

In step S105, if the human physiological index monitoring module 300 judges that the maximum value of the difference between a certain human physiological index and its reference value does not exceed the normal fluctuation range of the human physiological index, return to step S102.

In step S105, if the human physiological index monitoring module 300 judges that the maximum value of the difference between a certain human physiological index and its reference value exceeds the normal fluctuation range of the human physiological index, skip to the next step S106.

In step S106, the human physiological index monitoring module 300 judges that the maximum value of the difference between the human physiological index and its reference value does not exceed the dangerous fluctuation range of the human physiological index.

In step S107, the human physiological index monitoring module 300 searches for the change curve of the abnormal human physiological index along the time axis stored in the storage module 400, and sends the curve to the display screen 600 for display, and at the same time reports the abnormal human physiological index The early warning module 500 for abnormal human physiological indicators sends out early warning signals for abnormal human physiological indicators. Abnormal Human Physiological Index Abnormal Human Physiological Index Early Warning Module 500 After receiving the early warning signal for abnormal human physiological index, it plays the early warning voice through the speaker module and generates vibration through the vibration unit 502 .

In step S106, the human physiological index monitoring module 300 judges that the maximum value of the difference between the human physiological index and its reference value has exceeded the dangerous fluctuation range of the human physiological index.

In step S108 , the human physiological index monitoring module 300 runs a map program, displays an electronic map on the display screen 600 , and sends a mobile terminal positioning instruction to the GPS module 700 . After receiving the instruction, the GPS module 700 acquires the location information of the mobile terminal, and returns the acquired location information of the mobile terminal to the human physiological index monitoring module 300 . The human physiological index monitoring module 300 inputs the received location information of the mobile terminal and the abnormal human physiological index to the search module 200 . The search module 200 uses the received location information of the mobile terminal and abnormal human physiological indicators as keywords to search for hospital information associated with the keyword through the Internet, and screens out the location information of the mobile terminal from all the hospitals searched. the nearest hospital, and further search for a suggested route from the current location of the mobile terminal to the target hospital.

In step S109 , the search module 200 transmits the location information of the selected hospitals and the suggested route back to the human physiological index monitoring module 300 . The human physiological index monitoring module sends the received location information and suggested route of the hospital to the display screen 600, so that the display screen 600 marks the specific location information and suggested route of the hospital on the electronic map.

In the present invention, the user can also use the interactive method of slightly shaking the mobile phone to send the mobile terminal a human physiological information after briefly touching the mobile terminal with the body (it needs to be ensured that the contact time is greater than or equal to the second time threshold T2, that is, 10 seconds). Index query command. The mobile terminal collects various human physiological index data through the above-mentioned steps of the present invention, and generates a change curve of the human physiological index along the time axis based on the human physiological index data collected within the second time threshold T2, and pops up on the display screen 600 The change curve of the human physiological index along the time axis is for the user to view.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. within range.

Claims (6)

1. a Human Physiology Monitoring Indexes method, is characterized in that, comprises the steps:

S0) the healthy datum line of Human Physiology index is set, and relative to the normal fluctuation range of the every physical signs of human body of the healthy datum line of this Human Physiology index and dangerous fluctuation range; Very first time threshold value T1 for judging whether to close Human Physiology Monitoring Indexes program and the second time threshold T2 for judging whether stopping Human Physiology index sampling operation is set;

S1) mobile terminal is when receiving it and human body touches the triggering signal produced, and starts Human Physiology Monitoring Indexes program, and sends Human Physiology achievement data acquisition instructions to Human Physiology index selection module (100);

S2) Human Physiology index selection module (100) performs human body data of physiological index collecting work according to the Human Physiology achievement data acquisition instructions received, and the Human Physiology achievement data of collection is sent to mobile terminal;

S3) the every Human Physiology index in the Human Physiology achievement data received and the healthy reference value of the Human Physiology index being used for weighing Human Physiology health status compare by mobile terminal, perform corresponding operating according to comparative result;

Wherein, described in described step S3, the step that the every Human Physiology index collected and the Human Physiology indexed basis data being used for weighing Human Physiology health status compare also is comprised:

S31) peak and the minimum of the every Human Physiology index collected is extracted in the second time threshold T2;

S32) reference value of the correspondence of every Human Physiology index on the healthy datum line of Human Physiology index is searched;

S33) reference value corresponding on the healthy datum line of this Human Physiology with this Human Physiology index to the peak of each Human Physiology index and minimum is compared;

S34) maximum as the difference judging the peak of a certain Human Physiology index in the second time threshold T2 and minimum and the reference value of this Human Physiology index in this Human Physiology index basis reference line is positioned at the normal fluctuation range of this Human Physiology index, then generate one for reflecting the change curve of this Human Physiology index along time shaft based on this Human Physiology achievement data collected in this second time threshold T2, and store this for reflecting the change curve of this Human Physiology index along time shaft;

Maximum as the difference judging the peak of a certain Human Physiology index in the second time threshold T2 and minimum and this Human Physiology index reference value in the healthy datum line of this Human Physiology index exceedes the normal fluctuation range of this Human Physiology index, then generate one for reflecting the change curve of this Human Physiology index along time shaft based on this Human Physiology achievement data collected in this second time threshold T2, and at this curve of the upper ejection of display screen (600), send the early warning signal for representing Human Physiology Indexes Abnormality simultaneously.

2. Human Physiology Monitoring Indexes method according to claim 1, it is characterized in that, described step S1 also comprises: as do not detect in very first time threshold value T1 by mobile terminal and human body touch the triggering signal that produces, then stop the operation of the Human Physiology Monitoring Indexes program on backstage.

3. Human Physiology Monitoring Indexes method according to claim 1, it is characterized in that, described step S1 also comprises: as detect by the touching of mobile terminal and human body specific part the triggering signal that produces, then send the Human Physiology achievement data acquisition instructions of this human body specific part to Human Physiology index selection module (100).

4. Human Physiology Monitoring Indexes method according to claim 1, is characterized in that, also comprise the steps: after described step S34

S35) judge whether the maximum in the difference of the peak of this Human Physiology index in the second time threshold T2 and minimum and this Human Physiology index reference value on the healthy datum line of this Human Physiology index exceedes the dangerous fluctuation range of this Human Physiology index.

5. Human Physiology Monitoring Indexes method according to claim 4, it is characterized in that, as the maximum in the difference of the peak of this Human Physiology index in step S35 as described in judging in the second time threshold T2 and minimum and the reference value of this Human Physiology index on the healthy datum line of this Human Physiology index exceed the dangerous fluctuation range of this Human Physiology index time, then continue send described early warning signal and perform following steps:

S36) run mapping program, open electronic chart;

S37) current location information of mobile terminal is obtained;

S38) using the current location information of this Human Physiology index and this mobile terminal as keyword search relevant hospital information;

S39) from all hospitals searched, filter out a number of hospitals that the current location of distance mobile terminal is nearer, and on electronic chart, indicate the more specific location information of the hospital of screening.

6. a Human Physiology index monitoring system, is characterized in that, comprises mobile terminal and embeds the Human Physiology achievement data acquisition module (100) of described mobile terminal;

Described Human Physiology achievement data acquisition module (100) touches by described mobile terminal and human body the triggering signal produced for detecting, and this triggering signal is sent to described mobile terminal;

When described mobile terminal is used for receiving this triggering signal, send Human Physiology achievement data acquisition instructions to described Human Physiology achievement data acquisition module (100);

The Human Physiology achievement data of collection also for performing the collecting work of human body data of physiological index according to the Human Physiology achievement data acquisition instructions received, and is transferred to described mobile terminal by described Human Physiology achievement data acquisition module (100);

The healthy benchmark data of the Human Physiology index that be used for weigh Human Physiology health status of described mobile terminal also for being prestored with it by the every Human Physiology achievement data received compares, and performs corresponding operating according to comparative result;

Wherein, described Human Physiology achievement data acquisition module (100) comprises touching sensing unit (101) and Human Physiology index collection unit (102); Described mobile terminal comprises Human Physiology Monitoring Indexes module (300), be electrically connected respectively with described Human Physiology Monitoring Indexes module (300) memory module (400), Human Physiology Indexes Abnormality warning module (500), GPS module (700), search module (200) and display screen (600);

Described touching sensing unit (101) touches by mobile terminal and human body the triggering signal produced for detecting, and this triggering signal is sent to described Human Physiology Monitoring Indexes module (300);

Described Human Physiology index collection unit (102) is for receiving the Human Physiology achievement data acquisition instructions sent by described Human Physiology Monitoring Indexes module (300), perform human body data of physiological index collecting work, and the Human Physiology achievement data collected is input to described Human Physiology Monitoring Indexes module (300);

Described memory module (400) is for storing the healthy benchmark data of described Human Physiology index;

Described Human Physiology Monitoring Indexes module (300) is for comparing the Human Physiology achievement data inputted by described Human Physiology index collection unit (102) and the healthy benchmark data of described Human Physiology index, when determining that wherein one or more Human Physiology index exists abnormal according to comparative result, generate Human Physiology forewarning index instruction or hospital's query statement;

When described Human Physiology Indexes Abnormality warning module (500) is for receiving the Human Physiology forewarning index instruction from described Human Physiology Monitoring Indexes module (300), sends early warning voice and producing vibration;

Described GPS module (700) is for receiving the positioning instruction of described Human Physiology Monitoring Indexes module (300), obtain the positional information of mobile terminal, and search module (200) described in being sent to by the positional information of the mobile terminal got;

Described when searching module (200) for receiving hospital's query statement of described Human Physiology Monitoring Indexes module (300), using the positional information of mobile terminal and abnormal Human Physiology index as keyword search relevant hospital information;

Described display screen (600) for showing electronic chart, and searches the relevant hospital information that module (200) searches described in indicating on this electronic chart.