CN115525157A - Physiological sign parameter monitoring and displaying method and intelligent watch - Google Patents

Abstract

The embodiment of the application provides a physiological sign parameter monitoring and displaying method and an intelligent watch, which are used for visually displaying historical and current physiological sign parameters, and the method comprises the following steps: displaying a dial interface and a monitoring interface, wherein the monitoring interface comprises N annular areas, and the N annular areas are concentrically nested by taking the hour hand rotation point of the dial interface as the center; monitoring parameter values of N physiological sign parameters of a target object at the current moment; determining a target color corresponding to the parameter value; and filling and displaying a target color corresponding to the physiological sign parameter according to the rotation position of the hour hand. And determining different health grades according to the parameter values of the physiological sign parameters, wherein the different health grades correspond to different colors. And in the annular region corresponding to each physiological sign parameter, filling and displaying a target color corresponding to the physiological sign parameter along with the rotation position of the hour hand, so that historical monitoring data and current monitoring data are simply and visually displayed.

Description

Physiological sign parameter monitoring and displaying method and intelligent watch

Technical Field

The embodiment of the application relates to the field of data acquisition, in particular to a physiological sign parameter monitoring and displaying method and an intelligent watch.

Background

The existing intelligent watch can not only display time, but also monitor human health data. For example, a case portion of a smart watch is provided with a human health data monitoring sensor and a measurement circuit thereof, and human health data is displayed in a digital form on a touch screen dial. The human health data are switched through the monitoring button, the monitoring button is pressed, the human health data are displayed on the touch screen dial plate, and the human health data automatically jump to an environmental parameter monitoring interface after being loosened. The human health data monitored by the human health data monitoring sensor comprises heart rate, body temperature, blood pressure and activity.

The touch screen dial plate of the intelligent watch only displays the current human health data, and cannot display the whole human health data from the historical moment to the current moment.

Disclosure of Invention

The embodiment of the application provides a physiological sign parameter monitoring and displaying method and an intelligent watch, which are used for visually displaying historical and current physiological sign parameters.

The first aspect of the embodiments of the present application provides a method for monitoring and displaying physiological sign parameters, which is applied to a smart watch, and the method includes:

displaying a dial interface and a monitoring interface, wherein the monitoring interface comprises N annular areas, the N annular areas are concentrically nested by taking the hour hand rotation point of the dial interface as the center, and each annular area corresponds to one physiological sign parameter; n is greater than or equal to 1;

responding to a current monitoring instruction, and monitoring parameter values of N physiological sign parameters of the target object at the current moment;

determining a target color corresponding to the parameter value according to the parameter value of each physiological sign parameter;

and in the annular region corresponding to each physiological sign parameter, filling and displaying a target color corresponding to the physiological sign parameter from the region position corresponding to the current moment to the next monitoring instruction along with the rotation position of the hour hand.

In an implementation manner of the embodiment of the application, the current monitoring instruction is a monitoring instruction which is input by a user through a smart watch or remotely.

In an implementation manner of the embodiment of the application, a plurality of preset monitoring time points are set in a cycle of days, and the current monitoring instruction is an instruction generated by the smart watch when the preset monitoring time point is reached.

In an implementation manner of the embodiment of the present application, if a plurality of preset monitoring time points are set according to a monitoring period;

after monitoring the parameter values of the N physiological sign parameters of the target subject at the current time, the method further includes:

if the parameter value of any one of the N physiological sign parameters is abnormal, shortening the monitoring period of the target physiological sign parameter from a first time length to a second time length until the parameter value of any one physiological sign parameter becomes normal;

the target physiological sign parameter is a physiological sign parameter of the N physiological sign parameters.

In an implementation manner of the embodiment of the application, the target physiological sign parameter is a physiological sign parameter associated with the abnormal physiological sign parameter; or the like, or a combination thereof,

the target physiological sign parameter is an abnormal physiological sign parameter; or the like, or a combination thereof,

the target physiological sign parameters are all physiological sign parameters in the N physiological sign parameters.

In an implementation manner of the embodiment of the present application, determining a target color corresponding to a parameter value includes:

determining a target parameter interval corresponding to the parameter value in a plurality of preset parameter intervals; wherein different parameter value intervals correspond to different preset colors;

and determining the preset color corresponding to the target parameter interval as the target color corresponding to the parameter value according to the corresponding relation between the preset color and the parameter value interval.

In an implementation manner of the embodiment of the present application, the method further includes:

and for each physiological sign parameter, if the parameter value of the physiological sign parameter reaches a preset alarm threshold value corresponding to the physiological sign parameter, displaying alarm information corresponding to the physiological sign parameter on a monitoring interface.

In an implementation manner of the embodiment of the application, displaying alarm information corresponding to the physiological sign parameter on the monitoring interface includes:

and determining a target annular area corresponding to the parameter value reaching the preset alarm threshold value in the plurality of annular areas, and flashing and displaying the target annular area.

In an implementation manner of the embodiment of the present application, the method further includes:

acquiring a physical sign icon corresponding to each physiological physical sign parameter;

and aiming at each physiological sign parameter, displaying a sign icon corresponding to the physiological sign parameter in an annular area corresponding to the physiological sign parameter.

A second aspect of the embodiments of the present application provides a smart watch, including: a watch body and a band, the watch body performing the method according to the first aspect.

According to the technical scheme, the embodiment of the application has the following advantages:

in the embodiment of the application, the intelligent watch is used for displaying the dial plate interface and the monitoring interface, the dial plate interface displays time, and the monitoring interface displays relevant information of physiological sign parameters of a user. The annular area of the monitoring interface corresponds to the hour hand scale of the dial interface, different positions of the annular area represent different times, and relevant information of physiological sign parameters monitored at different times is displayed at different positions of the annular area. And determining different health grades according to the parameter values of the physiological sign parameters, wherein the different health grades correspond to different colors. In the annular region corresponding to each physiological sign parameter, the target color corresponding to the physiological sign parameter is filled and displayed along with the rotation position of the hour hand, so that continuous monitoring data from a certain historical moment to the current moment can be simply and intuitively displayed.

Drawings

Fig. 1 is a flowchart of a physiological parameter monitoring and displaying method according to an embodiment of the present application;

FIG. 2 is another flowchart of a method for monitoring and displaying physiological parameters according to an embodiment of the present application;

fig. 3 is another flowchart of a physiological parameter monitoring and displaying method according to an embodiment of the present application;

FIG. 4 is another flowchart of a method for monitoring and displaying physiological parameters according to an embodiment of the present application;

fig. 5 is a display example diagram of a physiological sign parameter monitoring and displaying method according to an embodiment of the present application.

Detailed Description

The health (physical sign) indexes include various indexes such as heart rate, blood pressure and body temperature. In daily life, a user wants to know whether the health state is normal or abnormal in real time by looking at collected data of these health indicators.

As shown in fig. 1, the present application provides a method for monitoring and displaying physiological parameters, which includes steps 101 to 104.

101. Display dial interface and monitoring interface.

The monitoring interface comprises N annular areas, the N annular areas are concentrically nested by taking the hour-hand rotation point of the dial interface as the center, and each annular area corresponds to one physiological sign parameter. N is greater than or equal to 1. The annular region may also be referred to as an annular display region, an annular region, or a color wheel.

The dial interface may include hour, minute and second hands, as well as dials and calendars, etc. The dial interface is used for displaying time, date and the like. The monitoring interface is used for displaying the health status of the user. The main body of the monitoring interface is an annular region, and N annular regions are nested concentrically. The annular region may be a circular ring or a square ring, etc.

102. And in response to the current monitoring instruction, monitoring the parameter values of the N physiological sign parameters of the target object at the current moment.

The current monitoring instruction may be a monitoring instruction input by a user through the smart watch. The monitoring instruction can be a monitoring instruction triggered by a user, is more flexible, and can be conveniently monitored by the user at any time and any place to know the self health state. The user can be through pressing the entity button of intelligent wrist-watch, touching the touch-sensitive screen of intelligent wrist-watch, giving down modes such as voice indication to intelligent wrist-watch and input monitoring instruction. The current monitoring instruction can be a monitoring instruction which is remotely input by a user through other intelligent terminals, such as a smart phone. The user inputs a monitoring instruction to the smart phone, and the smart phone sends the monitoring instruction to the smart watch to control the smart watch to monitor. And the user is allowed to carry out remote operation, so that the monitoring is more convenient.

A plurality of preset monitoring time points are set by taking days as a period, and the current monitoring instruction can also be an instruction generated by the smart watch when the preset monitoring time points are reached. And after the preset monitoring time point is reached, a monitoring instruction is automatically generated, so that automatic monitoring is realized, the user does not need to manually monitor the health state of the user in real time.

The interval between the preset detection time points may be uniform, for example, monitored every 4 hours, or may be non-uniform, for example, for each of 0. The preset detection time can be dynamically adjusted, and can be adjusted according to the current health state of the user, so that the monitoring frequency is increased or decreased.

103. And determining the target color corresponding to the parameter value according to the parameter value of each physiological sign parameter.

The parameter values of the physiological sign parameters can be divided into a plurality of health grades, and the colors correspond to the health grades. The health grade can be determined according to medical science, and can be specially set for users with special requirements.

104. And in the annular region corresponding to each physiological sign parameter, filling and displaying a target color corresponding to the physiological sign parameter from the region position corresponding to the current moment to the next monitoring instruction along with the rotation position of the hour hand.

The movement of the hour hand and the filling of the annular area are synchronous, so that the cooperation between the dial interface and the monitoring interface is realized. The color filled in the annular area records the historical health state in a period of time, and the color filled in the annular area currently shows the current health state.

Steps 102 to 104 are executed circularly to realize continuous monitoring of the health state of the user and all-weather health monitoring.

In the embodiment of the application, the intelligent watch is used for displaying the dial plate interface and the monitoring interface, the dial plate interface displays time, and the monitoring interface displays relevant information of physiological sign parameters of a user. The annular area of the monitoring interface corresponds to the hour hand scale of the dial interface, different positions of the annular area represent different times, and relevant information of physiological sign parameters monitored at different times is displayed at different positions of the annular area. And determining different health grades according to the parameter values of the physiological sign parameters, wherein the different health grades correspond to different colors. In the annular region corresponding to each physiological sign parameter, the target color corresponding to the physiological sign parameter is filled and displayed along with the rotation position of the hour hand, so that the historical monitoring data and the current monitoring data are simply and visually displayed.

In addition, the state represented by the health index acquisition time/index value is usually displayed in a list mode at present, and a user needs to check the state one by one to know the overall health state, so that the intelligent watch is quite non-intuitive. As shown in table 1, the body temperature was recorded as 37.5 ° at user 12, normal body temperature; blood pressure at 16 ℃ and 00 ℃ was 220/120, and blood pressure was abnormal.

TABLE 1

12:00	Body temperature	37.5°	Normal body temperature
				16:00	Blood pressure	220/120	Blood pressure abnormality

The overall health state displayed in the dial plate is not concise and clear enough, and the relation between the health state and a specific time point is not visual enough. However, in the embodiment of the present application, the health index and the corresponding health status are displayed completely and clearly by the display method of combining the color ring and the dial, so that the user can directly know the overall health status within a certain period of time in the past by looking at the health index and the corresponding health status at a glance.

As shown in fig. 2, the present application provides a method for monitoring and displaying physiological parameters, which includes steps 201 to 209.

201. Display dial interface and monitoring interface.

Step 201 is similar to step 101 and will not be described herein.

202. And acquiring a physical sign icon corresponding to each physiological physical sign parameter.

For example, the heart rate sign icon may be an electrocardiogram. The sign icon for blood pressure is a drop of blood. The physical signs icon for body temperature is a thermometer. The sign icon may also carry text, or contain only text. A sign icon, such as heart rate, may be "heart rate. The sign icon for blood pressure is "blood pressure". The sign icon for body temperature is "body temperature". Other icons are also possible.

203. And aiming at each physiological sign parameter, displaying a sign icon corresponding to the physiological sign parameter in an annular area corresponding to the physiological sign parameter.

In order to visually mark the physiological sign parameters corresponding to each annular area, different sign icons are displayed in different annular areas. For example, a thermometer is displayed in the outermost ring-shaped region, a blood drop is displayed in the innermost ring-shaped region, and an electrocardiographic line graph is displayed in the middle ring-shaped region. The specific display arrangement can be arbitrarily adjusted, and is not limited herein.

Steps 202 to 203 are optional steps and may not be performed.

204. And in response to the current monitoring instruction, monitoring the parameter values of the N physiological sign parameters of the target object at the current moment.

Step 204 is similar to step 102 and will not be described herein.

205. If the parameter value of any one of the N physiological sign parameters is abnormal, the monitoring period of the target physiological sign parameter is shortened from a first time length to a second time length until the parameter value of any one physiological sign parameter becomes normal.

The first duration is greater than the second duration. The plurality of preset monitoring time points are set according to a monitoring period. The monitoring period is the time interval between two monitoring. The target physiological sign parameter is a physiological sign parameter of the N physiological sign parameters.

The target physiological sign parameter is an abnormal physiological sign parameter. One physiological sign parameter is abnormal, and only the monitoring period of the physiological sign parameter is adjusted: when the abnormal body temperature is monitored, the monitoring period of the body temperature is shortened from 4 hours in the first time period to 1 hour in the second time period. The monitoring period may also be other values, and is not limited.

The target physiological sign parameter is a physiological sign parameter associated with the abnormal physiological sign parameter. One physiological sign parameter is abnormal, and the monitoring period of the relevant physiological sign parameters is modulated as follows: when abnormal heart rate is monitored, the monitoring period of the heart rate and the blood pressure is shortened from 4 hours in the first time period to 1 hour in the second time period.

The target physiological sign parameters are all physiological sign parameters in the N physiological sign parameters. One physiological sign parameter is abnormal, and the monitoring periods of all physiological sign parameters are adjusted: when abnormal heart rate is monitored, the monitoring period of the body temperature, the heart rate and the blood pressure is shortened from a first time length of 4 hours to a second time length of 1 hour.

It should be noted that the monitoring period of the target physiological parameters may be adjusted in steps, for example, 4 hours is used initially, and the monitoring period is shortened to 2 hours when a mild abnormality is detected, where the first time duration is 4 hours and the second time duration is 2 hours. And taking 2 hours as a monitoring period after the mild abnormality is monitored, and if the abnormality is further monitored, shortening the monitoring period to 1 hour, wherein the first time duration is 2 hours, and the second time duration is 1 hour. And taking 1 hour as a monitoring period after the abnormality is monitored, and if serious abnormality is further monitored, shortening the monitoring period to half an hour, wherein the first time is 1 hour, and the second time is half an hour.

Step 205 is an optional step and may not be performed.

206. And determining a target parameter interval corresponding to the parameter value in a plurality of preset parameter intervals. Wherein different parameter value intervals correspond to different preset colors.

Specific numerical values of preset parameter intervals are determined according to medical standards, and different parameter intervals correspond to normal, slight abnormality, abnormal and other health states or health grades. The preset color may be green for normal, yellow for light abnormality, and red for abnormality. The correspondence between the color and the health status, that is, the correspondence between the color and the parameter value interval may be other, and is not particularly limited.

207. And determining the preset color corresponding to the target parameter interval as the target color corresponding to the parameter value according to the corresponding relation between the preset color and the parameter value interval.

After the physiological sign parameters are monitored, the health state and the corresponding color are determined according to the parameter values and displayed in the annular area, so that a user can intuitively know the current health state of the user.

208. And in the annular region corresponding to each physiological sign parameter, filling and displaying a target color corresponding to the physiological sign parameter from the region position corresponding to the current moment to the next monitoring instruction along with the rotation position of the hour hand.

Step 208 is similar to step 104 and will not be described herein.

209. And for each physiological sign parameter, if the parameter value of the physiological sign parameter reaches a preset alarm threshold value corresponding to the physiological sign parameter, displaying alarm information corresponding to the physiological sign parameter on a monitoring interface.

The alarm threshold is determined according to medicine, and the physiological sign parameters exceed the preset alarm threshold, which represents that the health state of the user has a serious problem, and alarm information needs to be displayed to the user to prompt the user.

And determining a target annular area corresponding to the parameter value reaching the preset alarm threshold value in the plurality of annular areas, and flashing and displaying the target annular area.

For example, when the blood pressure reaches a preset alarm threshold, the displayed annular area corresponding to the blood pressure is flashed to prompt the user to pay attention. Besides the flashing display, the words of 'hypertension' and 'hypotension' can be displayed on the monitoring interface.

Besides displaying alarm information, the system can also carry out sound alarm through a loudspeaker or send help seeking information through a network.

Step 209 is an optional step that may not be performed.

As shown in fig. 3, a method for monitoring and displaying physiological parameters includes steps 301 to 306.

301. The health state of the human body is monitored to obtain the collected data.

The human health state may be represented by body temperature, heart rate, blood oxygen saturation, respiration rate, blood pressure, or the like. The human body is monitored using sensors to obtain the collected data.

302. Acquiring the acquired data within a preset time length.

The dial plate receives collected data sent by the sensor, and the collected data are generated within a preset time length. The dial plate can acquire all acquired data within a preset time at one time, and also can acquire and store the acquired data in real time.

303. And determining the monitoring time of the acquired data.

And the dial plate determines the monitoring time of the acquired data according to the time information carried in the acquired data or the time for acquiring the acquired data. The monitoring time refers to the time when the collected data is generated.

304. And displaying the acquired data in the annular display area according to the corresponding relation between the monitoring time and the dial time.

An annular display area is provided on the dial. When the collected data is displayed, the monitoring time corresponds to the dial time one by one. On the dial, the dial time at a certain position is the time represented when the hour hand points to the position. The position of the collected data on the dial is thus the position of the hour hand at the monitoring time.

It should be noted that step 304 may be subdivided into one or more of steps 3041 to 3045.

3041. And determining different colors corresponding to different numerical values of the acquired data.

Different values of the collected data represent different health states. Setting a health index threshold value, and directly associating different values of the acquired data with different health states. As shown in FIG. 4, the collected data is first obtained, compared to a threshold health indicator, and based on the comparisonResultsAnd matching corresponding colors, and continuously displaying the health state on the dial plate with corresponding colors along with the dial plate hour hand. The acquired data may also be referred to as parameter values of the physiological sign parameters.

As shown in fig. 5, the health status and the color are associated: different colors represent different health states. Such as: red for abnormalities, green for normality and yellow for mild abnormalities. Color may also be referred to as color circle color. As shown in table 2 below, the collected data is X, the threshold value of the health index is Q, abnormality below Q1, Q1 to Q2 are mild abnormality, Q2 to Q3 are normal, Q3 to Q4 are mild abnormality, abnormality above Q4, a may be red, B may be yellow, and C may be green.

TABLE 2

3042. And displaying the acquired data in different colors in the annular display area.

The health status can be visually displayed in different colors at different positions of the annular display area.

3043. The end point of the annular display area is the position of the hour hand, and the annular display area is updated in real time along with the movement of the hour hand.

The end point of the annular display area is the position of the hour hand. The annular display area can be a closed ring or an open ring. Can be a circular ring, an elliptical ring, a spiral ring or a rectangular ring. The starting point of the annular display area can be the position of the hour hand, can also be the position with a fixed interval from the position of the hour hand, and can also be a fixed position. As time passes, the hour hand moves forward and the annular display area is updated in real time.

3044. The preset time is 12 hours or 24 hours, and the acquired data within 12 hours or 24 hours are displayed in the annular display area.

The preset time period may be 12 hours, 24 hours, or any other preset value. The dial time is correlated with the monitoring time of the real-time health status, the overall health status within 12 hours is visually displayed and continuously/real-time updated over time.

3045. The annular display area is divided into a plurality of annular sub-areas which respectively display different acquired data, and the plurality of annular sub-areas have the same center.

In order to be able to display a plurality of different acquisition data simultaneously, a plurality of concentric annular subregions are divided in the annular display region, and each annular subregion displays one acquisition data. The color ring is combined with the dial plate, and the health states corresponding to various health indexes are uniformly displayed on the same dial plate by using different concentric color rings.

It should be noted that steps 3042 through 3045 are not related in time sequence, and can be executed in any order or simultaneously.

305. And determining an alarm threshold value of the collected data.

And determining normal values, abnormal values and alarm thresholds of the acquired data according to the medical reference values.

306. And when the acquired data exceeds the alarm threshold value, displaying alarm information.

When the collected data exceeds the alarm threshold, alarm information is displayed on the dial plate, and voice alarm can be performed through the sound box. For example, when the heart rate in the collected data is greater than the alarm threshold, the alarm information is "heart rate too fast". When the blood pressure in the collected data is larger than the alarm threshold value, the alarm information is 'overhigh blood pressure'. When the body temperature in the collected data is larger than the alarm threshold value, the alarm information is 'hyperthermia' and the like.

The embodiment of the application provides a smart watch, include: the watch body executes a physiological sign parameter monitoring and displaying method.

It should be understood that, although the steps in the flowcharts related to the above embodiments are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not limited to being performed in the exact order illustrated and, unless explicitly stated herein, may be performed in other orders. Moreover, at least a part of the steps in the flowcharts related to the above embodiments may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or stages is not necessarily sequential, but may be performed alternately or alternately with other steps or at least a part of the steps or stages in other steps.

Claims (10)

1. A physiological sign parameter monitoring and displaying method is applied to a smart watch, and comprises the following steps:

displaying a dial interface and a monitoring interface, wherein the monitoring interface comprises N annular areas, the N annular areas are concentrically nested by taking the hour-hand rotation point of the dial interface as the center, and each annular area corresponds to one physiological sign parameter; n is greater than or equal to 1;

responding to a current monitoring instruction, and monitoring parameter values of N physiological sign parameters of a target object at the current moment;

according to the parameter value of each physiological sign parameter, determining a target color corresponding to the parameter value;

and in the annular region corresponding to each physiological sign parameter, filling and displaying a target color corresponding to the physiological sign parameter from the region position corresponding to the current moment to the next monitoring instruction along with the rotation position of the hour hand.

2. The method for monitoring and displaying physiological parameters according to claim 1,

the current monitoring instruction is a monitoring instruction input by a user through the intelligent watch or remotely.

3. The method for monitoring and displaying physiological sign parameters of claim 1, wherein a plurality of preset monitoring time points are set in a day cycle, and the current monitoring command is a command generated by the smart watch when the preset monitoring time points are reached.

4. The method for monitoring and displaying physiological sign parameters of claim 3, wherein if the plurality of preset monitoring time points are set according to a monitoring period;

after monitoring the parameter values of the N physiological sign parameters of the target subject at the current moment, the method further comprises:

if the parameter value of any one of the N physiological sign parameters is abnormal, shortening the monitoring period of the target physiological sign parameter from a first time length to a second time length until the parameter value of any one physiological sign parameter becomes normal;

wherein the target physiological sign parameter is a physiological sign parameter of the N physiological sign parameters.

5. The method for monitoring and displaying physiological parameters according to claim 4,

the target physiological sign parameter is a physiological sign parameter associated with an abnormal physiological sign parameter; or the like, or, alternatively,

the target physiological sign parameter is the abnormal physiological sign parameter; or the like, or, alternatively,

the target physiological sign parameters are all physiological sign parameters in the N physiological sign parameters.

6. The method for monitoring and displaying physiological sign parameters according to claim 1, wherein said determining a target color corresponding to the parameter value comprises:

determining a target parameter interval corresponding to the parameter value in a plurality of preset parameter intervals; wherein different parameter value intervals correspond to different preset colors;

and determining the preset color corresponding to the target parameter interval as the target color corresponding to the parameter value according to the corresponding relation between the preset color and the parameter value interval.

7. The method for monitoring and displaying physiological sign parameters according to claim 1, further comprising:

and for each physiological sign parameter, if the parameter value of the physiological sign parameter reaches a preset alarm threshold value corresponding to the physiological sign parameter, displaying alarm information corresponding to the physiological sign parameter on the monitoring interface.

8. The method for monitoring and displaying physiological sign parameters according to claim 7, wherein displaying alarm information corresponding to the physiological sign parameters on the monitoring interface includes:

and determining a target annular region corresponding to the parameter value reaching the preset alarm threshold value in the N annular regions, and flashing and displaying the target annular region.

9. The method for monitoring and displaying physiological sign parameters according to claim 1, further comprising:

acquiring a physical sign icon corresponding to each physiological physical sign parameter;

and for each physiological sign parameter, displaying a sign icon corresponding to the physiological sign parameter in an annular area corresponding to the physiological sign parameter.

10. A smart watch, comprising: watch body and wristband, the watch body performing the method according to any one of claims 1 to 9.

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