Search

CN-116831542-B - Rotary display method, device and medium for blood pressure measurement

CN116831542BCN 116831542 BCN116831542 BCN 116831542BCN-116831542-B

Abstract

The invention discloses a rotation display method, equipment and medium related to blood pressure measurement, belongs to the technical field of data display, and is used for solving the technical problems that an existing arm type integrated machine is in a fixed direction in the measurement and use process, lacks flexibility and observability of use for users and is unfavorable for use experience of the users. The method comprises the steps of carrying out wearing action analysis on the arm type integrated equipment according to a fitting curve of acceleration change data in the arm type integrated equipment to obtain equipment wearing state, carrying out angle value calculation on the inclined direction of the arm type integrated equipment according to the equipment wearing state and based on current acceleration data to determine an inclined angle value, determining a screen rotation display mode of the arm type integrated equipment based on the inclined angle value, carrying out picking action analysis on the arm type integrated equipment after the screen rotation display mode is determined and based on equipment picking state and corresponding acceleration data to determine a test result checking display mode of the arm type integrated equipment.

Inventors

  • ZHU WANGWANG
  • HUANG ZHIJUN
  • WEI HE

Assignees

  • 江苏鱼跃医疗设备股份有限公司
  • 南京鱼跃软件技术有限公司

Dates

Publication Date
20260505
Application Date
20230630

Claims (9)

  1. 1. A method of rotational display in relation to blood pressure measurements, the method comprising: According to a fitting curve of acceleration change data in the arm type integrated equipment, carrying out wearing action analysis on the arm type integrated equipment to obtain equipment wearing state, wherein the method specifically comprises the following steps of: Based on a main control unit in the arm type integrated equipment, identifying and extracting change data in an acceleration sensor to obtain acceleration change data, wherein the acceleration sensor exists in the main control unit; performing curve fitting of gesture characteristics on the acceleration change data to obtain a fitting curve related to the acceleration change data; Performing curve comparison processing on the fitted curve and a history fitted curve in the main control unit, and determining comparison result information; the method comprises the steps of comparing the information of the equipment with the information of the equipment wearing state of the equipment, carrying out wearing action analysis on the arm type integrated equipment according to the information of the comparison result, obtaining the equipment wearing state based on starting measurement data in the arm type integrated equipment, and determining a corresponding default screen display mode according to the equipment wearing state; The default screen display mode is an initial screen display direction based on the starting measurement data, wherein the equipment wearing state comprises a left hand wearing state and a right hand wearing state; According to the equipment wearing state and based on current acceleration data, calculating an angle value of the arm type integrated equipment in the inclined direction, and determining an inclined angle value; determining a screen rotation display mode of the arm type integrated equipment based on the inclination angle value; After the screen rotation display mode is determined, based on the equipment picking state and corresponding acceleration data, the arm type integrated equipment is subjected to picking action analysis, and the test result checking display mode of the arm type integrated equipment is determined.
  2. 2. The method according to claim 1, wherein the calculating of the angle value of the tilt direction of the arm-type integrated device according to the wearing state of the device and based on the current acceleration data, and the determining of the tilt angle value comprise: generating a three-dimensional coordinate system related to gravity acceleration by taking the current acceleration data as a reference through a main control unit in the arm type integrated equipment, wherein the current acceleration data is posture space change data of the arm type integrated equipment; acquiring current acceleration data corresponding to the wearing posture of the current arm type integrated equipment through the main control unit; according to the current acceleration data, decomposing the axial component of the gravity acceleration in the current arm type integrated equipment relative to a three-dimensional coordinate system, and calculating the angle value of the inclination direction of the decomposed axial component to obtain the inclination angle value.
  3. 3. The method for rotating and displaying blood pressure measurement according to claim 1, wherein determining the screen rotation and display mode of the arm-type integrated device based on the inclination angle value comprises: Axially dividing the gravitational acceleration corresponding to the current acceleration data based on a three-dimensional coordinate system to obtain axial component data, wherein the three-dimensional coordinate system comprises an X axis, a Y axis and a Z axis, the Z axis is a component axis of the gravitational acceleration, and the X axis and the Y axis are used for judging the axial division of the gravitational acceleration; judging the component positions of the axial component data; If the components of the gravity acceleration are on the positive X-axis half shaft and the negative Y-axis half shaft, determining the inclination angle value as an inclination angle value corresponding to the forward wearing of the left hand, and obtaining forward rotation data of the left hand; And determining left-hand forward display according to the left-hand forward rotation data based on starting measurement data, wherein the screen rotation display mode of the arm type integrated equipment comprises left-hand forward display, left-hand reverse display, right-hand forward display and right-hand reverse display.
  4. 4. A rotation display method relating to blood pressure measurement according to claim 3, wherein the determination of the screen rotation display mode of the arm-integrated device based on the inclination angle value further comprises: If the components of the gravity acceleration are positioned on the X-axis negative half shaft and the Y-axis positive half shaft, determining the inclination angle value as an inclination angle value corresponding to left-hand reverse wearing, and obtaining left-hand reverse rotation data; and determining left-hand reverse display according to the left-hand reverse rotation data based on the starting measurement data and the screen rotation display mode of the arm type integrated equipment.
  5. 5. A rotation display method relating to blood pressure measurement according to claim 3, wherein the determination of the screen rotation display mode of the arm-integrated device based on the inclination angle value further comprises: if the components of the gravity acceleration are positioned on the X-axis positive half shaft and the Y-axis positive half shaft, determining the inclination angle value as an inclination angle value corresponding to right-hand forward wearing, and obtaining right-hand forward rotation data; And based on the starting measurement data, and according to the right-hand forward rotation data, determining a right-hand forward display according to a screen rotation display mode of the arm type integrated equipment.
  6. 6. A rotation display method related to blood pressure measurement according to claim 3, wherein the determination of the screen rotation display mode of the arm-type integrated device based on the inclination angle value specifically comprises: If the components of the gravity acceleration are on the X-axis negative half shaft and the Y-axis negative half shaft, determining the inclination angle value as an inclination angle value corresponding to right-hand reverse wearing, and obtaining right-hand reverse rotation data; And determining the right-hand reverse display according to the screen rotation display mode of the arm type integrated equipment based on the starting measurement data and according to the right-hand reverse rotation data.
  7. 7. The method according to claim 1, wherein after determining that the screen rotation display mode is subsequent to the determination, performing extraction action analysis on the arm-type integrated device based on a device extraction state and corresponding acceleration data, and determining a test result viewing display mode of the arm-type integrated device, specifically comprising: identifying and extracting acceleration change data after the screen rotation display mode is operated according to a main control unit in the arm type integrated equipment to obtain extraction acceleration data based on equipment extraction state; comparing and analyzing a fitting curve corresponding to the extraction acceleration data with a fitting curve corresponding to the extraction action, and determining the current equipment posture of the arm type integrated equipment as the equipment extraction state; Performing rotation judgment on a screen display mode in the equipment picking state; If the arm type integrated equipment is in the equipment picking state, carrying out axial division on the gravity acceleration corresponding to the picking acceleration data to obtain an inclination angle value meeting the picking acceleration data; And determining the test result checking display mode which accords with the test result checking gesture of the user based on the inclination angle value, wherein the test result checking display mode comprises a horizontal display mode and a vertical display mode.
  8. 8. A rotary display device for blood pressure measurements, the device comprising: at least one processor, and A memory communicatively coupled to the at least one processor, wherein, The memory stores instructions executable by the at least one processor to enable the at least one processor to perform a rotational display method in connection with blood pressure measurements according to any one of claims 1-7.
  9. 9. A non-volatile computer storage medium, characterized in that the storage medium is a non-volatile computer readable storage medium storing at least one program, each of the programs comprising instructions, which when executed by a terminal, cause the terminal to perform a rotational display method relating to blood pressure measurements according to any of claims 1-7.

Description

Rotary display method, device and medium for blood pressure measurement Technical Field The present application relates to the field of data display, and in particular, to a method, an apparatus, and a medium for displaying blood pressure measurement. Background Currently, the upper arm type sphygmomanometer is most widely used, but because the machine is separated from the air bag, the upper arm type sphygmomanometer is inconvenient to carry and has larger volume. The arm type integrated sphygmomanometer is convenient to measure and use and carry out by fixing the machine and the air bag together. But because of its integrity, it also presents problems such as certain discomfort to the user during the measurement and to view the measurement results. Therefore, a portable integrated blood pressure measuring device is also favored, and a cuff and a main body are integrally designed, so that a lightweight and compact design is a trend and mainstream. However, because the measurement is just faced with a certain problem at the same time, most of the existing portable sphygmomanometers are in a solidified design, and are difficult to set according to the measurement scene, the measurement gesture of the user and the habit of the user, so that the user is easy to have inconvenience in viewing the display result. Meanwhile, in the daily use process of the arm type integrated machine, the user can only pick up the sphygmomanometer in a fixed mode due to the fixed display direction, and the flexibility is lacking. Disclosure of Invention The embodiment of the application provides a rotation display method, equipment and medium related to blood pressure measurement, which are used for solving the technical problems that the display direction of the existing arm type integrated machine is a fixed direction in the measurement and use processes, so that the use flexibility and observability are lacking for users, and the use experience of the users is not facilitated. The embodiment of the application adopts the following technical scheme: On one hand, the embodiment of the application provides a rotation display method related to blood pressure measurement, which comprises the steps of carrying out wearing action analysis on an arm type integrated device according to a fitting curve of acceleration change data in the arm type integrated device to obtain a device wearing state, wherein the device wearing state comprises a left hand wearing state and a right hand wearing state, carrying out angle value calculation on the inclination direction of the arm type integrated device according to the device wearing state and based on current acceleration data to determine an inclination angle value, determining a screen rotation display mode of the arm type integrated device based on the inclination angle value, carrying out picking action analysis on the arm type integrated device after the screen rotation display mode is determined based on the device picking state and corresponding acceleration data, and determining a test result checking display mode of the arm type integrated device. According to the embodiment of the application, through real-time monitoring of acceleration change data in the arm type integrated equipment, the display direction of a measuring process and other display states can be changed or the postures of the measuring process and other display states can be judged, and the blood pressure display content can be dynamically adjusted according to the postures of the blood pressure measuring device. The user can conveniently and correctly see the display content in different wearing directions and postures, and the user can customize the display mode. In a feasible implementation mode, wearing action analysis is conducted on the arm type integrated equipment according to a fitting curve of acceleration change data in the arm type integrated equipment to obtain equipment wearing state, and the method specifically comprises the steps of identifying and extracting change data in an acceleration sensor based on a main control unit in the arm type integrated equipment to obtain acceleration change data, wherein the acceleration sensor exists in the main control unit, conducting curve fitting of gesture characteristics on the acceleration change data to obtain a fitting curve related to the acceleration change data, conducting curve comparison processing on the fitting curve and a history fitting curve in the main control unit to determine comparison result information, conducting wearing action analysis on the arm type integrated equipment according to the comparison result information, obtaining equipment wearing state based on starting measurement data in the arm type integrated equipment, and determining a corresponding default screen display mode according to the equipment wearing state, wherein the default screen display mode is an initial screen display direction based on the starting measurement data. I