CN111883244A - Method and device for constructing display interface of trend information of anesthesia monitor - Google Patents

Abstract

The invention relates to the technical field of anesthesia medical treatment, in particular to a method and a device for constructing a display interface of trend information of an anesthesia monitor. The method and the device send the received operation instruction input by the user to the server through the client, and receive the visual operation interface information which is provided by the server and is matched with the category identification in the operation instruction through the client; the client analyzes the received trend information interface, the trend information dynamic display image data, the parameter information and the associated information, and establishes an interface model of the trend information interface on the client according to the analyzed data; the invention discloses a method for constructing a trend information display interface of an anesthesia monitor, which is used for dynamically displaying trend information of the anesthesia monitor.

Description

Method and device for constructing display interface of trend information of anesthesia monitor

Technical Field

The invention relates to the technical field of anesthesia medical treatment, in particular to a method and a device for constructing a display interface of trend information of an anesthesia monitor.

Background

With the development of medical reform, the number of times of patients in hospitals increases year by year, the operation amount and the operation difficulty are continuously increased, patients are almost needed to be anesthetized in the operation, the anesthesia has great significance in the popularization of the medicine, the pain of the patients is effectively relieved, the smooth operation of operation treatment is facilitated, for example, medical care personnel generally monitor and diagnose the change of trend information through an anesthesia monitor, namely, the change of important life functions caused by various factors (anesthesia, operation and the like and primary diseases) in the operation period and the anesthesia recovery period of the patients, and treat the disease, so that an anesthetist can judge whether the operation is smooth or not, whether the patients have abnormal appearance or not, and the safety of perioperative patients can be ensured by using the basic and clinical medical multidisciplinary knowledge of pathophysiology, pharmacology, medicine, internal medicine, surgery, women, anesthesia and the like, the functions of respiration, heart rate, blood pressure, heart, nervous system, liver and kidney, etc. are maintained and managed, and the painless and life-safe state during operation is maintained.

But the trend information of the anesthesia monitor is displayed only singly at present. For example, the display is immovable and fixed, the display screen is relatively simple, the actual display operation is relatively complex, and the operation of many display functions can be continuously used only by the repeated operation of medical staff or the comparison of systems and professional training.

Disclosure of Invention

The embodiment of the invention provides a method and a device for constructing a display interface of trend information of an anesthesia monitor, which at least solve the technical problem of immovable and fixed display of the trend information of the traditional anesthesia monitor.

According to an embodiment of the invention, a method for constructing a display interface of trend information of an anesthesia monitor is provided, which comprises the following steps:

the method comprises the steps that a client receives an operation instruction input by a user, wherein the operation instruction at least carries a category identification of trend information of the anesthesia monitor;

the client sends the operation instruction to the server;

the client receives visual operation interface information which is provided by the server and matched with the category identification, wherein the visual operation interface information at least carries a trend information interface, trend information dynamic display image data, parameter information and associated information;

the client analyzes the received trend information interface, the trend information dynamic display image data, the parameter information and the associated information to obtain analysis data;

the client establishes an interface model of a trend information interface on the client according to the analysis data;

the interface model is dynamically adjusted to optimize the display of dynamic changes of the trend information interface.

Further, the client building an interface model of the trend information interface on the client according to the analysis data includes:

the client establishes a three-dimensional model of a dynamic change area in a trend information interface according to the dynamic display image data;

and the client acquires the positions of all construction points for constructing the three-dimensional model of the dynamic change area according to the parameter information, and establishes particles at the positions of all the construction points.

Further, the method further comprises:

the client determines a non-dynamic target point in a non-dynamic change area in a trend information interface;

determining the display size of the particles on the trend information interface based on the position relation between the non-dynamic target point and each particle;

the method for dynamically adjusting the interface model to optimize the display of the dynamic changes of the trend information interface specifically comprises the following steps:

the client dynamically adjusts the three-dimensional model of the dynamically changing region to optimize the dynamically changing display of the trend information interface.

Further, the step of dynamically adjusting the three-dimensional model of the dynamically changing area by the client to optimize the dynamically changing display of the trend information interface specifically includes the following steps:

rotating the three-dimensional model of the dynamic change area, and recording the position of each particle in real time;

calculating the real-time distance between each particle and the non-dynamic target point according to the position of each particle and the position of the non-dynamic target point recorded in real time;

determining the display size of each particle on the trend information interface at the corresponding moment based on the real-time distance between each particle and the non-dynamic target point;

judging whether the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment;

if the display size of each particle on the trend information interface at the corresponding moment does not meet the preset display condition at the corresponding moment, continuously adjusting the three-dimensional model at the corresponding moment;

and if the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment, determining the three-dimensional model at the corresponding moment as an optimized three-dimensional model and using the optimized three-dimensional model.

Further, the dynamic change region is a region where particles are distributed in the trend information interface.

Further, the non-dynamic change area is an area where particles are not distributed in the trend information interface;

the client determines an unmoving target point in an unmoving change area in the trend information interface, and specifically includes:

and the client determines any position point in the area without the distributed particles in the trend information interface as a non-dynamic target point.

Further, the server provides the visual operation interface information to the client through the interface generating script.

According to another embodiment of the present invention, there is provided an apparatus for constructing a display interface of trend information of an anesthesia monitor, including:

the operation instruction receiving module is used for receiving an operation instruction input by a user at a client, and the operation instruction at least carries a category identifier of trend information of the anesthesia monitor;

the operation instruction sending module is used for sending the operation instruction to the server by the client;

the interface information receiving module is used for receiving the visual operation interface information which is provided by the server and is matched with the category identification, wherein the visual operation interface information at least carries a trend information interface, trend information dynamic display image data, parameter information and associated information;

the information analysis module is used for analyzing the received trend information interface, the trend information dynamic display image data, the parameter information and the associated information by the client to obtain analysis data;

the interface model building module is used for the client to build an interface model of a trend information interface on the client according to the analysis data;

and the interface model adjusting module is used for dynamically adjusting the interface model so as to optimize the display of the dynamic change of the trend information interface.

Further, the interface model building module comprises:

the three-dimensional model establishing unit is used for establishing a three-dimensional model of a dynamic change area in the trend information interface by the client according to the dynamic display image data;

and the particle establishing unit is used for acquiring the positions of all the construction points of the three-dimensional model for constructing the dynamic change area according to the parameter information and the associated information by the client, and establishing particles at the positions of all the construction points.

Further, the apparatus further comprises:

the non-dynamic target point determining module is used for determining a non-dynamic target point in a non-dynamic change area in the trend information interface by the client;

the display size determining module is used for determining the display size of the particles on the trend information interface based on the position relation between the non-dynamic target point and each particle;

the interface model adjusting module specifically comprises:

and the three-dimensional model adjusting unit is used for dynamically adjusting the three-dimensional model of the dynamic change area by the client so as to optimize the display of the dynamic change of the trend information interface.

According to the method and the device for constructing the display interface of the trend information of the anesthesia monitor, the client sends the received operation instruction input by the user to the server, and receives the visual operation interface information which is provided by the server and is matched with the category identification in the operation instruction, so that the client can directly, quickly and accurately acquire the relevant information of the visual interface which is suitable for the user requirement according to the category of the trend information which the user wants to check; furthermore, the client analyzes the received trend information interface, trend information dynamic display image data, parameter information and associated information, and establishes an interface model of the trend information interface on the client according to the analyzed data, and can quickly establish the interface model of the trend information interface according to the acquired related information of the visual interface which is adaptive to the requirements of the user so as to realize the dynamic change of the trend information interface, and the trend information interface can be quickly acquired without the operation of other display functions by the user, so that the trend information interface is simple to operate and convenient and easy to use; and then dynamically adjusting the interface model to continuously improve the interface model so as to optimize the dynamic change display of the trend information interface.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a flow chart of a method for constructing a display interface for trend information of an anesthesia monitor according to the present invention;

FIG. 2 is a model construction flow chart of a construction method of a display interface of trend information of an anesthesia monitor according to the present invention;

FIG. 3 is a flow chart of the establishment of the non-dynamic target point of the method for displaying trend information of the anesthesia monitor according to the present invention;

FIG. 4 is a flow chart of a dynamic adjustment model of a method for constructing a display interface of trend information of an anesthesia monitor according to the present invention;

FIG. 5 is a block diagram of an apparatus for displaying trend information of an anesthesia monitor according to the present invention;

FIG. 6 is a block diagram of a model construction module of the device for displaying trend information of an anesthesia monitor according to the present invention;

FIG. 7 is a block diagram of the non-dynamic target point establishment module of the device for displaying trend information of an anesthesia monitor according to the present invention;

FIG. 8 is a block diagram of a dynamic adjustment model of a device for constructing a display interface of trend information of an anesthesia monitor according to the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example 1

According to an embodiment of the present invention, a method for constructing a display interface of trend information of an anesthesia monitor is provided, and referring to fig. 1, the method includes the following steps:

s1: the client receives an operation instruction input by a user, wherein the operation instruction at least carries a category identifier of the trend information of the anesthesia monitor.

In this embodiment, the operation instruction input by the user is a corresponding instruction generated by inputting relevant parameter information at the client according to the trend information that the user wants to view, that is, the trend information that the user needs to show on the display interface of the anesthesia monitor; the category identification is used for uniquely marking each trend information, and the category identification and the visual operation interface information are in one-to-one correspondence in the database of the server, so that the subsequent server can quickly and accurately match the visual operation interface information in the database according to the category identification.

The category identifier may be a letter number, a number, or a character label, and is not limited herein.

S2: the client sends the operation instruction to the server;

s3: the client receives visual operation interface information which is provided by the server and matched with the category identification, wherein the visual operation interface information at least carries a trend information interface, trend information dynamic display image data, parameter information and associated information;

in this embodiment, the information of the visual operation interface is script data of the visual operation interface suitable for trend information of each type, which is set in advance according to sample data in a sample database of the big data platform and according to the type of the trend information contained in the anesthesia, so that a subsequent client can quickly read and analyze the script data; the trend information interface is an editable display basic interface which is set for trend information of each type so as to be adjusted or optimized according to actual application requirements; the trend information dynamic display image data is image type related data used for displaying trend information, such as a line graph, a bar graph and the like, so that the trend information can be conveniently and visually displayed and can be conveniently checked by medical staff; the parameter information and the associated information are used for improving the relevant data of the trend information interface so as to realize the dynamic change of the trend information interface.

It should be noted that the visualized operation interface information and the category identifier are stored in the database of the server in a one-to-one correspondence manner, so that the server can quickly and accurately index the visualized operation interface information matched with the category identifier in the database according to the category identifier.

Specifically, the client sends the operation instruction to the server, so that the server can quickly and accurately index the visual operation interface information matched with the category identification in the database according to the corresponding relationship according to the category identification in the received operation instruction, and send the visual operation interface information to the client, so that the client can quickly and accurately acquire the relevant information of the visual interface adapted to the user requirement, and the construction efficiency of the display interface of the trend information of the anesthesia monitor can be improved to a certain extent.

S4: and the client analyzes the received trend information interface, the trend information dynamic display image data, the parameter information and the associated information to obtain analysis data.

In this embodiment, in order to reduce the complexity of reading and analyzing the obtained visual operation interface information by the client, and simplify the difficulty of constructing dynamic changes of the trend information interface, the embodiment stores the visual operation interface information in the form of an interface generation script in the server, so that the client can analyze the received trend information interface, trend information dynamic display image data, parameter information, and associated information according to script syntax and protocol rules to obtain an analyzed interface script, so that a subsequent client can operate according to the analyzed interface script, and quickly generate a corresponding interface model.

S5: and the client establishes an interface model of a trend information interface on the client according to the analysis data.

Specifically, the client performs sequential execution according to the analyzed interface script obtained in step S4 to quickly generate a corresponding interface model according to the configuration in the analyzed interface script, where the interface model includes building points for model building, and each building point is provided with particles for displaying dynamic changes.

S6: the interface model is dynamically adjusted to optimize the display of dynamic changes of the trend information interface.

Specifically, according to step S5, in this embodiment, the position of each particle in the interface model is changed by rotating the interface model, and then the state of the interface model corresponding to the particle is determined by screening out the position of the better particle, so as to realize the display of the dynamic change of the optimized trend information interface, and ensure the effect of dynamically displaying the display interface of the trend information of the anesthesia monitor.

According to the method for constructing the display interface of the trend information of the anesthesia monitor, the client sends the received operation instruction input by the user to the server, and receives the visual operation interface information which is provided by the server and is matched with the category identification in the operation instruction, so that the client can directly, quickly and accurately acquire the relevant information of the visual interface which is suitable for the user requirement according to the category of the trend information which the user wants to check; furthermore, the client analyzes the received trend information interface, trend information dynamic display image data, parameter information and associated information, and establishes an interface model of the trend information interface on the client according to the analyzed data, and can quickly establish the interface model of the trend information interface according to the acquired related information of the visual interface which is adaptive to the requirements of the user so as to realize the dynamic change of the trend information interface, and the trend information interface can be quickly acquired without the operation of other display functions by the user, so that the trend information interface is simple to operate and convenient and easy to use; then, the interface model is dynamically adjusted, so that the interface model can be continuously improved to optimize the dynamic change display of the trend information interface.

In a preferred technical solution, referring to fig. 2, further, the establishing, by the client, an interface model of the trend information interface on the client according to the analysis data includes:

s501: and the client establishes a three-dimensional model of a dynamic change area in the trend information interface according to the dynamic display image data.

In this embodiment, a three-dimensional model of a dynamic change area in a trend information interface is established according to dynamic display image data, specifically, the established three-dimensional model may be determined according to characteristics of the dynamic display image data, and a client may use MATLAB simulation modeling software to model an interface script of the analyzed characteristics of the dynamic display image data, so as to establish the three-dimensional model of the dynamic change area.

S502: and the client acquires the positions of all construction points for constructing the three-dimensional model of the dynamic change area according to the parameter information, and establishes particles at the positions of all the construction points.

In this embodiment, the client may determine a modeling algorithm matched with the three-dimensional model according to the three-dimensional model established in step S501 and script data of the parsed parameter information by using MATLAB simulation modeling software, then determine coordinates of each building point for constructing the three-dimensional model of the dynamic triple-change region by using the algorithm, so as to determine the position of each building point, and then establish the particle at the position of each building point.

It should be noted that, in order to present a display effect meeting the user requirement on the trend information interface, the client renders the shape, color, and transparency of the created particles by using the fragment shader, so as to enrich the dynamic change of the trend information interface.

In a preferred embodiment, referring to fig. 3, the method further includes:

s7: the client determines a non-dynamic target point in a non-dynamic change area in the trend information interface.

In the embodiment, the non-dynamic change area is an area where particles are not distributed in the trend information interface; the non-dynamic target point determines any position point in the non-dynamic change region, so that when the three-dimensional model of the dynamic change region is subsequently dynamically adjusted, the embodiment can use the non-dynamic target point as an observation point to determine the positions of other changed particles, thereby implementing dynamic adjustment of the three-dimensional model.

S8: determining the display size of the particles on the trend information interface based on the position relation between the non-dynamic target point and each particle;

in this embodiment, the display size of the particle on the trend information interface is determined based on the position relationship between the non-dynamic target point and each particle, which may specifically be determined by using a position calculation formula in MATLAB simulation modeling software, where the position calculation formula is specifically as follows:

the size is the display size of the particles on the trend information interface, d is the distance between each particle and the non-dynamic target point, a, b and c are parameters of a quadratic equation, if the size of the set point is required to be linearly changed along with the change of the distance according to the requirement of a user, a and c can be set to be 0, b can be set to be a non-0 constant value, and the value obtained through calculation of a position calculation formula is the size value of the particles.

Step S6 specifically includes the following steps:

s601: the client dynamically adjusts the three-dimensional model of the dynamically changing region to optimize the dynamically changing display of the trend information interface.

In the embodiment, the position change of each particle in the dynamic change area is realized through the rotation of the three-dimensional model of the dynamic change area, so that the position of a better particle can be screened out by observing the position change of the particle, the state of the three-dimensional model corresponding to the better particle is determined, the dynamic change display of the optimized trend information interface is realized, and the dynamic display effect of the display interface of the trend information of the anesthesia monitor is ensured.

As a preferred technical solution, referring to fig. 4, the step of dynamically adjusting the three-dimensional model of the dynamically changing area by the client to optimize the dynamically changing display of the trend information interface specifically includes the following steps:

s6011: and rotating the three-dimensional model of the dynamic change area, and recording the position of each particle in real time.

S6012: calculating the real-time distance between each particle and the non-dynamic target point according to the position of each particle and the position of the non-dynamic target point recorded in real time;

s6013: determining the display size of each particle on the trend information interface at the corresponding moment based on the real-time distance between each particle and the non-dynamic target point;

s6014: judging whether the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment;

s6015: if the display size of each particle on the trend information interface at the corresponding moment does not meet the preset display condition at the corresponding moment, continuously adjusting the three-dimensional model at the corresponding moment;

s6016: and if the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment, determining the three-dimensional model at the corresponding moment as an optimized three-dimensional model and using the optimized three-dimensional model.

Specifically, in the embodiment, the position of each particle is changed in real time by dynamically rotating the three-dimensional model of the dynamically changing area, and the coordinates of the position of each particle are recorded in real time; then, calculating the real-time distance between each particle and the non-dynamic target point according to a space distance calculation formula through the coordinates of the position of each particle and the coordinates of the position of the non-dynamic target point which are recorded in real time; and meanwhile, calculating the display size of each particle at the current moment through a position calculation formula.

Further, dynamic change of the trend information interface can be realized through continuous change of the display size of the particles, in order to further enrich the display effect of the dynamic change of the trend information interface, the embodiment judges whether the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment, the display condition is set according to the actual application requirement, and no specific limitation is made here.

Further, if the display size of each particle on the trend information interface at the corresponding moment does not meet the preset display condition at the corresponding moment, it can be understood that the three-dimensional model at the current moment cannot meet the display effect of dynamic change of the trend information interface, and the three-dimensional model at the current moment can be adjusted; if the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment, the display effect of dynamic change of the trend information interface can be further enriched by the three-dimensional model at the current moment, the three-dimensional model at the corresponding moment can be determined as an optimized three-dimensional model and used, so that the dynamic rotation of the three-dimensional model in a dynamic change area, such as uniform rotation, rotation with acceleration and deceleration firstly, or rotation with acceleration and deceleration firstly, is realized, the angle change of the three-dimensional model during rotation is in linear distribution, different dynamic effects are presented, and the requirements of different users are met.

In a preferred embodiment, the dynamic change region is a region in which particles are distributed in the trend information interface.

In this embodiment, the dynamic adjustment of the three-dimensional model of the dynamic change region can be conveniently realized by setting the region in which the particles are distributed in the trend information interface as the dynamic change region.

Further, in this embodiment, any one of the construction points in the dynamic change region may be determined as the dynamic reference point, so that when the three-dimensional model of the dynamic change region is dynamically adjusted, the positions of the construction points in the three-dimensional model of the dynamic change region all change, and the position of the dynamic reference point dynamically changes with the rotation of the three-dimensional model, that is, the position change of the particle at each construction point is realized.

Further, when the client performs dynamic rotation of the three-dimensional model of the dynamic change area, the change of the position of each particle can be realized, the position of each particle is recorded, then, the real-time distance between each particle and the dynamic reference point is calculated according to a spatial distance calculation formula based on the coordinates of the position of each particle and the coordinates of the position of the dynamic reference point recorded in real time, further, the display transparency of each particle at the current moment can be calculated by adopting MATLAB simulation modeling software by adopting a smoothness calculation formula, the edge blurring effect presented by the interface is realized, and the display effect of the dynamic change of the trend information interface can be enriched to a certain extent.

In a preferred technical scheme, the non-dynamic change area is an area without distributed particles in a trend information interface;

step S7 specifically includes: and the client determines any position point in the area without the distributed particles in the trend information interface as a non-dynamic target point.

In the embodiment, the non-dynamic change area is an area where particles are not distributed in the trend information interface; the non-dynamic target point determines any position point in the non-dynamic change area, so that when the client dynamically adjusts the three-dimensional model of the dynamic change area, the position of the non-dynamic target point is always unchanged, and the non-dynamic target point is always used as an observation point or a reference point, so that the positions of other changed particles can be quickly determined, and the dynamic adjustment of the three-dimensional model can be realized.

In a preferred technical solution, the server provides the visual operation interface information to the client through the interface generation script.

In this embodiment, in order to reduce the complexity of reading and analyzing the obtained visual operation interface information by the client, and simplify the difficulty of constructing dynamic changes of the trend information interface, the embodiment stores the visual operation interface information in the form of an interface generation script in the server, where the interface generation script is a line interface script that is sequentially executed, the line interface script is a linear structure script, and can be sequentially executed in a non-sequential manner during citation, and there is no complex process of multi-level citation and constructing a tree data structure.

Example 2

According to another embodiment of the present invention, there is provided an apparatus for constructing a display interface of trend information of an anesthesia monitor, referring to fig. 5, including:

an operation instruction receiving module 501, configured to receive an operation instruction input by a user at a client, where the operation instruction at least carries a category identifier of trend information of an anesthesia monitor;

in this embodiment, the operation instruction input by the user is a corresponding instruction generated by inputting relevant parameter information at the client according to the trend information that the user wants to view, that is, the trend information that the user needs to show on the display interface of the anesthesia monitor; the category identification is used for uniquely marking each trend information, and the category identification and the visual operation interface information are in one-to-one correspondence in the database of the server, so that the subsequent server can quickly and accurately match the visual operation interface information in the database according to the category identification.

The category identifier may be a letter number, a number, or a character label, and is not limited herein.

An operation instruction sending module 502, configured to send an operation instruction to a server by a client;

the interface information receiving module 503 is configured to receive, by the client, the visual operation interface information matched with the category identifier, where the visual operation interface information at least carries a trend information interface, trend information dynamic display image data, parameter information, and associated information, and is provided by the server;

in this embodiment, the information of the visual operation interface is script data of the visual operation interface suitable for trend information of each type, which is set in advance according to sample data in a sample database of the big data platform and according to the type of the trend information contained in the anesthesia, so that a subsequent client can quickly read and analyze the script data; the trend information interface is an editable display basic interface which is set for trend information of each type so as to be adjusted or optimized according to actual application requirements; the trend information dynamic display image data is image type related data used for displaying trend information, such as a line graph, a bar graph and the like, so that the trend information can be conveniently and visually displayed and can be conveniently checked by medical staff; the parameter information and the associated information are used for improving the relevant data of the trend information interface so as to realize the dynamic change of the trend information interface.

It should be noted that the visualized operation interface information and the category identifier are stored in the database of the server in a one-to-one correspondence manner, so that the server can quickly and accurately index the visualized operation interface information matched with the category identifier in the database according to the category identifier.

Specifically, the client sends the operation instruction to the server, so that the server can quickly and accurately index the visual operation interface information matched with the category identification in the database according to the corresponding relationship according to the category identification in the received operation instruction, and send the visual operation interface information to the client, so that the client can quickly and accurately acquire the relevant information of the visual interface adapted to the user requirement, and the construction efficiency of the display interface of the trend information of the anesthesia monitor can be improved to a certain extent.

The information analysis module 504 is used for analyzing the received trend information interface, trend information dynamic display image data, parameter information and associated information by the client to obtain analysis data;

in this embodiment, in order to reduce the complexity of reading and analyzing the obtained visual operation interface information by the client, and simplify the difficulty of constructing dynamic changes of the trend information interface, the embodiment stores the visual operation interface information in the form of an interface generation script in the server, so that the client can analyze the received trend information interface, trend information dynamic display image data, parameter information, and associated information according to script syntax and protocol rules to obtain an analyzed interface script, so that a subsequent client can operate according to the analyzed interface script, and quickly generate a corresponding interface model.

An interface model building module 505, configured to build, by the client, an interface model of a trend information interface on the client according to the analysis data;

specifically, the client performs sequential execution according to the analyzed interface script obtained in the information analysis module 504, so as to quickly generate a corresponding interface model according to the configuration in the analyzed interface script, where the interface model includes each construction point used for model construction, and each construction point is provided with particles used for displaying dynamic changes.

An interface model adjustment module 506 for dynamically adjusting the interface model to optimize the dynamically changing display of the trend information interface.

Specifically, as can be seen from the interface model building module 505, in this embodiment, the position of each particle in the interface model is changed by rotating the interface model, and then the state of the interface model corresponding to the particle is determined by screening out the position of the better particle, so as to realize the display of the dynamic change of the optimized trend information interface, so as to ensure the effect of dynamically displaying the display interface of the trend information of the anesthesia monitor.

According to the device for constructing the display interface of the trend information of the anesthesia monitor, the client sends the received operation instruction input by the user to the server, and receives the visual operation interface information which is provided by the server and is matched with the category identification in the operation instruction, so that the client can directly, quickly and accurately acquire the relevant information of the visual interface which is suitable for the user requirement according to the category of the trend information which the user wants to check; furthermore, the client analyzes the received trend information interface, trend information dynamic display image data, parameter information and associated information, and establishes an interface model of the trend information interface on the client according to the analyzed data, and can quickly establish the interface model of the trend information interface according to the acquired related information of the visual interface which is adaptive to the requirements of the user so as to realize the dynamic change of the trend information interface, and the trend information interface can be quickly acquired without the operation of other display functions by the user, so that the trend information interface is simple to operate and convenient and easy to use; then, the interface model is dynamically adjusted, so that the interface model can be continuously improved to optimize the dynamic change display of the trend information interface.

In a preferred embodiment, referring to fig. 6, the interface model building module 505 includes:

a three-dimensional model establishing unit 5051, which is used for the client to establish a three-dimensional model of a dynamic change area in the trend information interface according to the dynamic display image data;

in this embodiment, a three-dimensional model of a dynamic change area in a trend information interface is established according to dynamic display image data, specifically, the established three-dimensional model may be determined according to characteristics of the dynamic display image data, and a client may use MATLAB simulation modeling software to model an interface script of the analyzed characteristics of the dynamic display image data, so as to establish the three-dimensional model of the dynamic change area.

The particle establishing unit 5052 is configured to, according to the parameter information and the associated information, obtain positions of each of the establishment points of the three-dimensional model for establishing the dynamic change region, and establish a particle at the position of each of the establishment points.

In this embodiment, the client may determine a modeling algorithm matching the three-dimensional model according to the three-dimensional model established in the three-dimensional model establishing unit 5051 and script data of the parameter information analyzed by MATLAB simulation modeling software, then determine coordinates of each construction point for constructing the three-dimensional model of the dynamic triple region by the algorithm to determine the position of each construction point, and then establish a particle at the position of each construction point.

It should be noted that, in order to present a display effect meeting the user requirement on the trend information interface, the client renders the shape, color, and transparency of the created particles by using the fragment shader, so as to enrich the dynamic change of the trend information interface.

In a preferred embodiment, referring to fig. 7, the apparatus further comprises:

the non-dynamic target point determining module 701 is used for determining a non-dynamic target point in a non-dynamic change area in a trend information interface by a client;

in the embodiment, the non-dynamic change area is an area where particles are not distributed in the trend information interface; the non-dynamic target point determines any position point in the non-dynamic change region, so that when the three-dimensional model of the dynamic change region is subsequently dynamically adjusted, the embodiment can use the non-dynamic target point as an observation point to determine the positions of other changed particles, thereby implementing dynamic adjustment of the three-dimensional model.

A display size determination module 702, configured to determine a display size of the particle on the trend information interface based on a position relationship between the non-dynamic target point and each particle;

in this embodiment, the display size of the particle on the trend information interface is determined based on the position relationship between the non-dynamic target point and each particle, which may specifically be determined by using a position calculation formula in MATLAB simulation modeling software, where the position calculation formula is specifically as follows:

the size is the display size of the particles on the trend information interface, d is the distance between each particle and the non-dynamic target point, a, b and c are parameters of a quadratic equation, if the size of the set point is required to be linearly changed along with the change of the distance according to the requirement of a user, a and c can be set to be 0, b can be set to be a non-0 constant value, and the value obtained through calculation of a position calculation formula is the size value of the particles.

The interface model adjustment module 506 specifically includes:

and the three-dimensional model adjusting unit 5061 is used for dynamically adjusting the three-dimensional model of the dynamic change area by the client so as to optimize the display of the dynamic change of the trend information interface.

In the embodiment, the position change of each particle in the dynamic change area is realized through the rotation of the three-dimensional model of the dynamic change area, so that the position of a better particle can be screened out by observing the position change of the particle, the state of the three-dimensional model corresponding to the better particle is determined, the dynamic change display of the optimized trend information interface is realized, and the dynamic display effect of the display interface of the trend information of the anesthesia monitor is ensured.

In a preferred embodiment, referring to fig. 8, the three-dimensional model adjusting unit 5061 includes:

a model rotation subunit 801, configured to rotate the three-dimensional model of the dynamic change region, and record the position of each particle in real time;

a distance calculating subunit 802, configured to calculate a real-time distance between each particle and the non-dynamic target point according to the position of each particle and the position of the non-dynamic target point recorded in real time;

a size determining subunit 803, configured to determine, based on a real-time distance between each particle and the non-dynamic target point, a display size of each particle on the trend information interface at the corresponding time;

a condition determining subunit 804, configured to determine whether a display size of each particle on the trend information interface at the corresponding time meets a preset display condition at the corresponding time;

the model adjusting subunit 805 is configured to, if the display size of each particle on the trend information interface at the corresponding time does not meet the preset display condition at the corresponding time, continue to adjust the model by the three-dimensional model at the corresponding time;

and the model determining subunit 806 is configured to determine and use the three-dimensional model at the corresponding time as the optimized three-dimensional model if the display size of each particle on the trend information interface at the corresponding time meets a preset display condition at the corresponding time.

Specifically, in the embodiment, the position of each particle is changed in real time by dynamically rotating the three-dimensional model of the dynamically changing area, and the coordinates of the position of each particle are recorded in real time; then, calculating the real-time distance between each particle and the non-dynamic target point according to a space distance calculation formula through the coordinates of the position of each particle and the coordinates of the position of the non-dynamic target point which are recorded in real time; and meanwhile, calculating the display size of each particle at the current moment through a position calculation formula.

Further, dynamic change of the trend information interface can be realized through continuous change of the display size of the particles, in order to further enrich the display effect of the dynamic change of the trend information interface, the embodiment judges whether the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment, the display condition is set according to the actual application requirement, and no specific limitation is made here.

Further, if the display size of each particle on the trend information interface at the corresponding moment does not meet the preset display condition at the corresponding moment, it can be understood that the three-dimensional model at the current moment cannot meet the display effect of dynamic change of the trend information interface, and the three-dimensional model at the current moment can be adjusted; if the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment, the display effect of dynamic change of the trend information interface can be further enriched by the three-dimensional model at the current moment, the three-dimensional model at the corresponding moment can be determined as an optimized three-dimensional model and used, so that the dynamic rotation of the three-dimensional model in a dynamic change area, such as uniform rotation, rotation with acceleration and deceleration firstly, or rotation with acceleration and deceleration firstly, is realized, the angle change of the three-dimensional model during rotation is in linear distribution, different dynamic effects are presented, and the requirements of different users are met.

In a preferred embodiment, the dynamic change region is a region in which particles are distributed in the trend information interface.

In this embodiment, the dynamic adjustment of the three-dimensional model of the dynamic change region can be conveniently realized by setting the region in which the particles are distributed in the trend information interface as the dynamic change region.

Further, in this embodiment, any one of the construction points in the dynamic change region may be determined as the dynamic reference point, so that when the three-dimensional model of the dynamic change region is dynamically adjusted, the positions of the construction points in the three-dimensional model of the dynamic change region all change, and the position of the dynamic reference point dynamically changes with the rotation of the three-dimensional model, that is, the position change of the particle at each construction point is realized.

Further, when the client performs dynamic rotation of the three-dimensional model of the dynamic change area, the change of the position of each particle can be realized, the position of each particle is recorded, then, the real-time distance between each particle and the dynamic reference point is calculated according to a spatial distance calculation formula based on the coordinates of the position of each particle and the coordinates of the position of the dynamic reference point recorded in real time, further, the display transparency of each particle at the current moment can be calculated by adopting MATLAB simulation modeling software by adopting a smoothness calculation formula, the edge blurring effect presented by the interface is realized, and the display effect of the dynamic change of the trend information interface can be enriched to a certain extent.

In a preferred technical scheme, the non-dynamic change area is an area without distributed particles in a trend information interface;

the non-dynamic target point determining module 701 specifically includes: and the client determines any position point in the area without the distributed particles in the trend information interface as a non-dynamic target point.

In the embodiment, the non-dynamic change area is an area where particles are not distributed in the trend information interface; the non-dynamic target point determines any position point in the non-dynamic change area, so that when the client dynamically adjusts the three-dimensional model of the dynamic change area, the position of the non-dynamic target point is always unchanged, and the non-dynamic target point is always used as an observation point or a reference point, so that the positions of other changed particles can be quickly determined, and the dynamic adjustment of the three-dimensional model can be realized.

In a preferred technical solution, the server provides the visual operation interface information to the client through the interface generation script.

In this embodiment, in order to reduce the complexity of reading and analyzing the obtained visual operation interface information by the client, and simplify the difficulty of constructing dynamic changes of the trend information interface, the embodiment stores the visual operation interface information in the form of an interface generation script in the server, where the interface generation script is a line interface script that is sequentially executed, the line interface script is a linear structure script, and can be sequentially executed in a non-sequential manner during citation, and there is no complex process of multi-level citation and constructing a tree data structure.

Compared with the existing trend information interface display method of the anesthesia monitor, the method, the device and the system for constructing the display interface of the trend information of the anesthesia monitor have the advantages that:

1. according to the method and the device, the matched visual operation interface information can be quickly and accurately indexed in the server according to the category identification in the operation instruction through the pre-established corresponding relation, so that the client can directly and quickly and accurately acquire the relevant information of the visual interface which is suitable for the user requirement according to the category of the trend information which the user wants to check, and the use complexity of the user is reduced;

2. according to the method and the device, the interface model of the trend information interface can be quickly established according to the acquired related information of the visual interface which is adaptive to the user requirements, so that the dynamic change of the trend information interface is realized, the trend information interface can be quickly acquired without the operation of other display functions of the user, and the method and the device are simple to operate and convenient to use;

3. the embodiment can continuously optimize the interface model by dynamically adjusting the interface model so as to enrich the display effect of the dynamic change of the trend information interface.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described system embodiments are merely illustrative, and for example, a division of a unit may be a logical division, and an actual implementation may have another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that it is obvious to those skilled in the art that various modifications and improvements can be made without departing from the principle of the present invention, and these modifications and improvements should also be considered as the protection scope of the present invention.

Claims (10)

1. A construction method of a display interface of trend information of an anesthesia monitor is characterized by comprising the following steps:

the method comprises the steps that a client receives an operation instruction input by a user, wherein the operation instruction at least carries a category identification of trend information of the anesthesia monitor;

the client sends the operating instruction to the server;

the client receives visual operation interface information which is provided by the server and matched with the category identification, wherein the visual operation interface information at least carries a trend information interface, trend information dynamic display image data, parameter information and associated information;

the client analyzes the received trend information interface, the trend information dynamic display image data, the parameter information and the associated information to obtain analysis data;

the client establishes an interface model of a trend information interface on the client according to the analysis data;

dynamically adjusting the interface model to optimize the dynamically changing display of the trend information interface.

2. The method for constructing a display interface of trend information of an anesthesia monitor according to claim 1, wherein the step of establishing an interface model of a trend information interface on the client by the client according to the analytic data comprises:

the client establishes a three-dimensional model of a dynamic change area in the trend information interface according to the dynamic display image data;

and the client acquires the positions of all construction points for constructing the three-dimensional model of the dynamic change area according to the parameter information, and establishes particles at the positions of all the construction points.

3. The method for constructing a display interface of trend information of an anesthesia monitor according to claim 2, after the step of obtaining, by the client, the positions of the construction points for constructing the three-dimensional model of the dynamically changing region according to the parameter information and the associated information, and establishing particles at the position of each of the construction points, the method further comprising:

the client determines a non-dynamic target point in a non-dynamic change area in the trend information interface;

determining the display size of the particles on the trend information interface based on the position relation between the non-dynamic target point and each particle;

the dynamically adjusting the interface model to optimize the dynamically changing display of the trend information interface specifically comprises the following steps:

the client dynamically adjusts the three-dimensional model of the dynamically changing region to optimize the dynamically changing display of the trend information interface.

4. The method for constructing a display interface of trend information of an anesthesia monitor according to claim 3, wherein the step of dynamically adjusting the three-dimensional model of the dynamically changing region by the client to optimize the dynamically changing display of the trend information interface comprises the following steps:

rotating the three-dimensional model of the dynamic change area and recording the position of each particle in real time;

calculating the real-time distance between each particle and the non-dynamic target point according to the position of each particle and the position of the non-dynamic target point recorded in real time;

determining the display size of each particle on the trend information interface at the corresponding moment based on the real-time distance between each particle and the non-dynamic target point;

judging whether the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment;

if the display size of each particle on the trend information interface at the corresponding moment does not accord with the preset display condition of the corresponding moment, continuing to adjust the three-dimensional model at the corresponding moment;

and if the display size of each particle on the trend information interface at the corresponding moment meets the preset display condition at the corresponding moment, determining the three-dimensional model at the corresponding moment as an optimized three-dimensional model and using the optimized three-dimensional model.

5. The method as claimed in claim 3, wherein the dynamic change area is an area in the trend information interface where the particles are distributed.

6. The method for constructing a display interface of trend information of an anesthesia monitor according to claim 3, wherein the non-dynamic change region is a region in the trend information interface where the particles are not distributed;

the client determines a non-dynamic target point in a non-dynamic change area in the trend information interface, and specifically includes:

and the client determines any position point in the area without the particles in the trend information interface as a non-dynamic target point.

7. The method for constructing a display interface of trend information of an anesthesia monitor according to claim 1, wherein the server provides the visual operation interface information to the client through an interface generation script.

8. A device for constructing a display interface of trend information of an anesthesia monitor is characterized by comprising:

the system comprises an operation instruction receiving module, a data processing module and a data processing module, wherein the operation instruction receiving module is used for receiving an operation instruction input by a user at a client side, and the operation instruction at least carries a category identifier of trend information of the anesthesia monitor;

an operation instruction sending module, configured to send the operation instruction to the server by the client;

the interface information receiving module is used for receiving visual operation interface information which is provided by the server and is matched with the category identification by the client, wherein the visual operation interface information at least carries a trend information interface, trend information dynamic display image data, parameter information and associated information;

the information analysis module is used for analyzing the received trend information interface, the trend information dynamic display image data, the parameter information and the associated information by the client to obtain analysis data;

the interface model building module is used for building an interface model of a trend information interface on the client by the client according to the analysis data;

and the interface model adjusting module is used for dynamically adjusting the interface model so as to optimize the display of the dynamic change of the trend information interface.

9. The apparatus for constructing display interface of trend information of anesthesia monitor of claim 8, wherein said interface model constructing module comprises:

the three-dimensional model establishing unit is used for establishing a three-dimensional model of a dynamic change area in the trend information interface by the client according to the dynamic display image data;

and the particle establishing unit is used for acquiring the positions of all establishment points for establishing the three-dimensional model of the dynamic change area by the client according to the parameter information and the associated information, and establishing particles at the positions of all the establishment points.

10. The apparatus for constructing display interface of trend information of anesthesia monitor according to claim 8, further comprising:

the target point determining module is used for determining a non-dynamic target point in a non-dynamic change area in the trend information interface by the client;

the display size determining module is used for determining the display size of the particles on the trend information interface based on the position relation between the non-dynamic target point and each particle;

the interface model adjusting module specifically comprises:

and the three-dimensional model adjusting unit is used for dynamically adjusting the three-dimensional model of the dynamic change area by the client so as to optimize the display of the dynamic change of the trend information interface.

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