CN116386831B - Data visual display method and system based on intelligent hospital management platform - Google Patents

Abstract

The invention relates to the technical field of data visualization, in particular to a data visualization display method and system based on an intelligent hospital management platform, wherein the method comprises the following steps: the intelligent hospital management system comprises a smart hospital management platform, a data visualization unit, a data verification unit, a basic configuration unit, a network configuration unit and a data verification unit, wherein the intelligent hospital management platform is connected with the data visualization unit according to a data visualization generation instruction, the data visualization unit comprises the basic configuration unit, the basic configuration unit is used for performing basic display configuration on the data visualization unit to obtain solidified display content, the network configuration unit is used for performing network configuration on the data visualization unit to obtain network configuration content, the network configuration content is used for pulling out the data of each department from the intelligent hospital management platform to obtain the data of the diagnosis source, the data verification unit is used for performing data verification on the data of the diagnosis source, and after the verification is passed, the visual operation is performed on the data of the diagnosis source to obtain the visual view of the data of the diagnosis source. The invention can improve the visual fluency of the medical treatment data.

Description

Data visual display method and system based on intelligent hospital management platform

Technical Field

The invention relates to the technical field of data visualization, in particular to a data visualization display method and system based on an intelligent hospital management platform.

Background

Along with the development of scientific technology, intelligent management is also gradually popularized, and particularly under the conditions of people stream accumulation and data index generation in hospitals, how to efficiently realize data visualization is important, so that the management in hospitals or medical research is facilitated.

The current common data visual display method based on the intelligent hospital management platform mainly relies on pre-writing a visual program, taking acquired treatment data as the input of the visual program, and running the visual program to realize the visualization of the treatment data.

Although the above method can realize data visualization, the flexible configuration of the visualization program is lacking, wherein the flexible configuration comprises a basic configuration, a network configuration and a received treatment data configuration, so that the operation of the visualization program is extremely easy to be blocked, and especially when the treatment data is large in scale, the operation of the visualization program is even crashed. Therefore, a method for improving the visual smoothness of medical treatment data is lacking.

Disclosure of Invention

The invention provides a data visualization display method and system based on an intelligent hospital management platform, and mainly aims to improve the visualization smoothness of medical treatment visit data.

In order to achieve the above purpose, the data visualization display method based on the intelligent hospital management platform provided by the invention comprises the following steps:

receiving a data visualization generation instruction, and connecting an intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital, and can acquire the treatment data of each department;

creating a visual component of the doctor-seeing data, and entering a component configuration page corresponding to the visual component of the doctor-seeing data, wherein the component configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit;

performing basic display configuration on the treatment data visualization component by using the basic configuration unit to obtain a solidified display content;

according to the network configuration unit, carrying out network configuration on the treatment data visualization component to obtain network configuration content;

pulling the diagnosis data of each department from the intelligent hospital management platform by utilizing the network configuration content to obtain diagnosis source data;

And executing data verification on the visit source data according to the data verification unit, and executing visualization operation on the visit source data after verification is passed, so as to obtain a visit data visual view.

Optionally, the creating a medical data visualization component includes:

analyzing the data visualization generation instruction to obtain a data source port set and one or more visualization types, wherein the visualization types comprise two-dimensional graph visualization, two-dimensional table visualization, three-dimensional graph visualization and three-dimensional table visualization;

writing a visual component blank program, wherein the visual component blank program comprises a data source port connection function, an intelligent hospital management platform connection function and a blank visual function;

binding the visual type and the empty visual function to obtain a data visual function;

acquiring the port IP of each data source port in the data source port set, and taking the port IP of each data source port as an entry of a data source port connection function;

connecting the intelligent hospital management platform by utilizing the intelligent hospital management platform connection function, and acquiring a data processing function from the intelligent hospital management platform;

packaging the data processing function, a data source port connection function comprising a port IP and a data visualization function to obtain a visualization component generation program;

And running the visualization component generating program to obtain the treatment data visualization component.

Optionally, the performing network configuration on the treatment data visualization component according to the network configuration unit to obtain network configuration content includes:

according to the network configuration unit, acquiring all servers capable of serving the visit data visualization component to acquire the visit data in the current time period;

sequentially collecting a plurality of groups of task processing records of each server in the current time period, and constructing a task processing matrix of each server based on the plurality of groups of task processing records;

according to the task processing matrix, calculating the busyness of each group of servers, and selecting the server with the minimum busyness as a response server of the service visit data visualization component;

and configuring the response server to obtain network configuration content, wherein the network configuration content comprises the step of adjusting an access network of the treatment data visualization component and the response server to belong to the same wireless network, and the step of performing point-to-point connection between the response server and the intelligent hospital management platform.

Optionally, the sequentially collecting multiple sets of task processing records of each server in the current time period includes:

Setting task acquisition starting point time and task acquisition ending point time of a current time period;

acquiring all task history records processed by each server in the task acquisition starting point time and the task acquisition ending point time;

extracting each task from the task history record in turn, wherein each task has a task rule, and the task rule comprises time consumed for completing the task, CPU (central processing unit) duty ratio of a server during task processing, working voltage and current frequency and memory consumption value;

and summarizing each task comprising the task rules according to the time sequence to obtain the task processing record.

Optionally, the constructing a task processing matrix of each server based on the multiple sets of task processing records includes:

constructing a task empty matrix of each server, wherein the dimension of the task empty matrix is determined by the total number of task processing records of each server;

and sequentially importing the task rules of each group of task processing records into a task space matrix to obtain the task processing matrix, wherein the task processing matrix is expressed as follows:

wherein ,X_i A task processing matrix, x, representing an ith server _mn The nth data value in the task rule representing the mth task processing record includes the time consumed to complete the task, the CPU duty of the server during processing of the task, the voltage current frequency of the work, and the memory consumption value.

Optionally, the calculating, according to the task processing matrix, the busyness of each group of servers includes:

inputting a task processing matrix of each server into a pre-trained busyness calculation model, wherein the busyness calculation model is constructed by an XGBoost model, and the concentration prediction model is trained on the XGBoost model before being used;

and calculating the busyness of each server by using the busyness calculation model.

Optionally, the pulling, by using the network configuration content, the diagnosis data of each department from the intelligent hospital management platform to obtain diagnosis source data includes:

the port information of each data source port in the data source port set is sent to a response server, wherein each data source port corresponds to a department;

according to the port information of each data source port, sequentially accessing whether the corresponding data source port works abnormally or not through the response server;

if an abnormal data source port exists, an alarm instruction for generating pull data is returned to an initiator of the data visualization generation instruction;

if no abnormal data source port exists, forwarding port information of each data source port to an intelligent hospital management platform;

Receiving the diagnosis data pulled from the port information of each data source port by using a response server by using the intelligent hospital management platform;

and summarizing the visit data of each data source port to obtain the visit source data.

Optionally, the performing data verification on the visit source data according to the data verification unit includes:

inputting source data verification conditions in a data verification unit, wherein the source data verification conditions comprise data repetition verification, data attribute verification and data deletion verification;

generating a source data verification program according to the source data verification conditions;

and running the source data verification program to perform data verification on the visit source data to obtain a verification result, wherein the verification result comprises non-abnormal source data or abnormal source data.

Alternatively, the busyness calculation model may be replaced by a random forest or a support vector machine.

In order to solve the above problems, the present invention further provides a data visualization display system based on an intelligent hospital management platform, the system comprising:

the intelligent hospital management platform connection module is used for receiving the data visualization generation instruction, connecting the intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital, and can acquire the treatment data of each department;

The system comprises a visual component creation module, a data verification module and a data verification module, wherein the visual component creation module is used for creating a visual component of the treatment data and entering a component configuration page corresponding to the visual component of the treatment data, and the component configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit;

the basic configuration module is used for carrying out basic display configuration on the treatment data visualization component by utilizing the basic configuration unit to obtain solidified display content;

the network configuration module is used for carrying out network configuration on the visual component of the treatment data according to the network configuration unit to obtain network configuration content;

and the data visualization module is used for pulling the diagnosis data of each department from the intelligent hospital management platform by utilizing the network configuration content to obtain diagnosis source data, executing data verification on the diagnosis source data according to the data verification unit, and executing visualization operation on the diagnosis source data after verification is passed to obtain a diagnosis data visual view.

In order to solve the above-mentioned problems, the present invention also provides an electronic apparatus including:

a memory storing at least one instruction; a kind of electronic device with high-pressure air-conditioning system

And the processor executes the instructions stored in the memory to realize the data visual display method based on the intelligent hospital management platform.

In order to solve the above problems, the present application further provides a computer readable storage medium, in which at least one instruction is stored, the at least one instruction being executed by a processor in an electronic device to implement the above-mentioned data visualization method based on the intelligent hospital management platform.

Compared with the prior art, the application has the beneficial effects that:

in order to solve the problems described in the background art, the embodiment of the application firstly receives a data visualization generation instruction, and connects with an intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital and can acquire the treatment data of each department, it is understood that the embodiment of the application does not directly acquire the treatment data of each department through a visualization program, because the direct acquisition can cause the problem of overlarge operation pressure of the visualization program, but acquires the treatment data firstly through the intelligent hospital management platform, when the visualization is required to be executed, acquires the treatment data from the intelligent hospital management platform, prevents the overlarge program pressure, then creates a treatment data visualization assembly, and enters an assembly configuration page corresponding to the treatment data visualization assembly, wherein the assembly configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit, and it is understood that each unit has different functions, especially has a network configuration unit and a data verification unit, the acquisition of the data is determined from the top, and the network configuration unit is performed correctly according to the network configuration unit, and the network configuration data is performed correctly, thereby improving the network configuration error-checking efficiency, and improving the network configuration data transmission speed. Therefore, the data visualization display method, the system, the electronic equipment and the computer readable storage medium based on the intelligent hospital management platform can improve the visual smoothness of the medical treatment data.

Drawings

Fig. 1 is a flow chart of a data visualization method based on an intelligent hospital management platform according to an embodiment of the present application;

FIG. 2 is a functional block diagram of a visual data display system based on an intelligent hospital management platform according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an electronic device for implementing the data visualization display method based on the intelligent hospital management platform according to an embodiment of the present application.

In the figure, 1-an electronic device; 10-a processor; 11-memory; 12-bus;

100-a data visual display system based on an intelligent hospital management platform; 101-an intelligent hospital management platform connection module; 102-a visualization component creation module; 103-a basic configuration module; 104-a network configuration module; 105-data visualization module.

The achievement of the objects, functional features and advantages of the present application will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The embodiment of the application provides a data visualization display method based on an intelligent hospital management platform. The execution subject of the intelligent hospital management platform-based data visualization display method comprises at least one of a server, a terminal and the like, which can be configured to execute the method provided by the embodiment of the application. In other words, the data visualization presentation method based on the intelligent hospital management platform can be executed by software or hardware installed in a terminal device or a server device, wherein the software can be a blockchain platform. The service end includes but is not limited to: a single server, a server cluster, a cloud server or a cloud server cluster, and the like.

Referring to fig. 1, a flow chart of a data visualization method based on an intelligent hospital management platform according to an embodiment of the invention is shown. In this embodiment, the method for visually displaying data based on the intelligent hospital management platform includes:

s1, receiving a data visualization generation instruction, and connecting an intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital, and can acquire the treatment data of each department.

In the embodiment of the invention, the data visualization generation instruction can be sent by a manager of a hospital. For example, the sheetlet is taken as a hospital manager, the doctor's data of each department is collected by the present plan, and the scale, age distribution, disease type of the disease and the like of the doctor's number of each department are analyzed according to the doctor's data of each department, so that a data visualization generation instruction is initiated.

In addition, it should be explained that, in the embodiment of the present invention, the intelligent hospital management platform is mainly used as a data collection center, which can obtain the diagnosis data of each department from the computer of each department in real time.

S2, creating a diagnosis data visualization component, and entering a component configuration page corresponding to the diagnosis data visualization component, wherein the component configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit.

It should be explained that the component is a basic unit of modular development, and the high cohesion, low coupling and easy maintenance of the system are achieved by dividing the system into a plurality of functionally independent components. In the embodiment of the invention, the main function of the treatment data visualization component is to realize the visualization of treatment data, wherein the visualization can be realized according to the requirements of different departments, age distribution intervals of the number of patients, and the like, so that the treatment data visualization component needs to be created first.

In detail, the create visit data visualization component includes:

analyzing the data visualization generation instruction to obtain a data source port set and one or more visualization types, wherein the visualization types comprise two-dimensional graph visualization, two-dimensional table visualization, three-dimensional graph visualization and three-dimensional table visualization;

writing a visual component blank program, wherein the visual component blank program comprises a data source port connection function, an intelligent hospital management platform connection function and a blank visual function;

binding the visual type and the empty visual function to obtain a data visual function;

acquiring the port IP of each data source port in the data source port set, and taking the port IP of each data source port as an entry of a data source port connection function;

Connecting the intelligent hospital management platform by utilizing the intelligent hospital management platform connection function, and acquiring a data processing function from the intelligent hospital management platform;

packaging the data processing function, a data source port connection function comprising a port IP and a data visualization function to obtain a visualization component generation program;

and running the visualization component generating program to obtain the treatment data visualization component.

It can be understood that the data visualization generation instruction includes a user's visualization intention, and in an exemplary embodiment, the small Zhang Xiangyao analyzes the relationship between the distribution of the diseases of all patients in the hospital and the age and occupation of the patients in the period of 2023 and 2 months, so that the three-dimensional graph visualization is one of the visualization types if the three-dimensional graph is intended to show the relationship among the distribution of the diseases, the age and occupation of the patients.

In addition, the visual component blank program is generally written in advance by a programmer, and the embodiment of the invention completes the writing of the visual component blank program based on the C++ program.

It should be further explained that, compared with other component generating programs, the embodiment of the present invention further includes a data source port connection function and an intelligent hospital management platform connection function. The main purpose of the data source port connection function is to connect the data source port, but it is emphasized that in the embodiment of the present invention, instead of directly acquiring the diagnosis data from the data source port, the diagnosis data is acquired through the intelligent hospital management platform, and because the direct acquisition of the diagnosis data from the data source port causes the excessive pressure of the diagnosis data visualization component, thereby causing the phenomena of visualization delay and even component collapse, the embodiment of the present invention is directly acquired from the intelligent hospital management platform.

However, in order to prevent errors in the diagnosis data transmitted in the intelligent hospital management platform, the source correctness of each diagnosis data is corrected through the data source port connection function.

In addition, it should be understood that the intelligent hospital management platform may acquire the diagnosis data of each department, and in order to efficiently manage the diagnosis data of each department, the intelligent hospital management platform further includes a data processing function for performing formatting processing on the diagnosis data, so that the embodiment of the present invention directly acquires the data processing function from the intelligent hospital management platform.

Further, when the visualization component generating program is run, the diagnosis data visualization component can be obtained, wherein the diagnosis data visualization component is provided with a corresponding component configuration page, and the component configuration page mainly has the functions of configuring basic information, network information and subsequent verification information for executing data verification of the component, so that the corresponding component configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit.

S3, performing basic display configuration on the treatment data visualization component by using the basic configuration unit to obtain solidified display content.

It should be explained that the main function of the basic configuration unit is to configure the treatment data visualization component to generate the initial size, display position, color typesetting, etc. of the two-dimensional map, two-dimensional table, three-dimensional map, three-dimensional table, etc. of the visualization chart. In general, the initial size, display position, color typesetting, etc. of the visual chart are integrated in the basic configuration unit, and can be directly selected by a user.

And S4, carrying out network configuration on the treatment data visualization component according to the network configuration unit to obtain network configuration content.

In detail, the performing network configuration on the treatment data visualization component according to the network configuration unit to obtain network configuration content includes:

according to the network configuration unit, acquiring all servers capable of serving the visit data visualization component to acquire the visit data in the current time period;

sequentially collecting a plurality of groups of task processing records of each server in the current time period, and constructing a task processing matrix of each server based on the plurality of groups of task processing records;

according to the task processing matrix, calculating the busyness of each group of servers, and selecting the server with the minimum busyness as a response server of the service visit data visualization component;

And configuring the response server to obtain network configuration content, wherein the network configuration content comprises the step of adjusting an access network of the treatment data visualization component and the response server to belong to the same wireless network, and the step of performing point-to-point connection between the response server and the intelligent hospital management platform.

It should be explained that a server located in a hospital is a computer-like device for performing data processing in response to the need of a terminal where a medical care or a patient is located. In order to ensure the normal operation of the intelligent hospital, the number of servers in which the hospital is located is great, so that it is desirable to select one server from a plurality of servers, and the service visit data visualization component is an important technical step in the embodiment of the invention.

Further, the sequentially collecting multiple sets of task processing records of each server in the current time period includes:

setting task acquisition starting point time and task acquisition ending point time of a current time period;

acquiring all task history records processed by each server in the task acquisition starting point time and the task acquisition ending point time;

extracting each task from the task history record in turn, wherein each task has a task rule, and the task rule comprises time consumed for completing the task, CPU (central processing unit) duty ratio of a server during task processing, working voltage and current frequency and memory consumption value;

And summarizing each task comprising the task rules according to the time sequence to obtain the task processing record.

For example, assuming that the task acquisition starting point time and the task acquisition ending point time are respectively 3 months, 9 days, 12 points and 3 months, 9 days, 1 point, the task history of each server is extracted within 1 hour, and the task history includes a task rule of each task, and since the task rule can prove the running pressure of the server at the current moment, and in general, the larger the numerical value of each dimension in the task rule is, the larger the running pressure of the server at the current moment is indicated.

Further, the constructing a task processing matrix of each server based on the multiple groups of task processing records includes:

constructing a task empty matrix of each server, wherein the dimension of the task empty matrix is determined by the total number of task processing records of each server;

and sequentially importing the task rules of each group of task processing records into a task space matrix to obtain the task processing matrix, wherein the task processing matrix is expressed as follows:

wherein ,X_i A task processing matrix, x, representing an ith server _mn The nth data value in the task rule representing the mth task processing record includes the time consumed to complete the task, the CPU duty of the server during processing of the task, the voltage current frequency of the work, and the memory consumption value.

It can be understood that after the task processing matrix of each server is constructed, the busyness of each server can be determined according to the task processing matrix, and in detail, the calculating the busyness of each group of servers according to the task processing matrix includes:

inputting a task processing matrix of each server into a pre-trained busyness calculation model, wherein the busyness calculation model is constructed by an XGBoost model, and the concentration prediction model is trained on the XGBoost model before being used;

and calculating the busyness of each server by using the busyness calculation model.

It should be explained that XGBoost is a Gradient Boosting class machine learning algorithm with excellent performance. XGBoost is more excellent in the analysis ability of discrete data than other machine learning algorithms or deep learning models. In the embodiment of the invention, the time consumed by the task, the CPU (Central processing Unit) duty ratio of the server during the task processing, the working voltage, current frequency and the memory consumption value are all discrete data. In addition, the busyness calculation model can be replaced by a random forest or a support vector machine.

And S5, pulling the diagnosis data of each department from the intelligent hospital management platform by utilizing the network configuration content to obtain the diagnosis source data.

In detail, the step of pulling the visit data of each department from the intelligent hospital management platform by using the network configuration content to obtain the visit source data comprises the following steps:

the port information of each data source port in the data source port set is sent to a response server, wherein each data source port corresponds to a department;

according to the port information of each data source port, sequentially accessing whether the corresponding data source port works abnormally or not through the response server;

if an abnormal data source port exists, an alarm instruction for generating pull data is returned to an initiator of the data visualization generation instruction;

if no abnormal data source port exists, forwarding port information of each data source port to an intelligent hospital management platform;

receiving the diagnosis data pulled from the port information of each data source port by using a response server by using the intelligent hospital management platform;

and summarizing the visit data of each data source port to obtain the visit source data.

It should be explained that, in the embodiment of the present invention, in order to prevent the breakdown phenomenon caused by excessive component pressure due to direct acquisition of the doctor-seeing data by the doctor-seeing data visualization component, the response server is used as an intermediary for data transmission, and the response server is used to access the data source ports of each department sequentially to determine whether the data source ports of each department are abnormal, and if the data source ports of the departments are normal, the intelligent hospital management platform is used to acquire the doctor-seeing data of each data source port.

The main reason for determining whether each data source port works abnormally or not is that the intelligent hospital management platform generally acquires the diagnosis data of each data source port in advance and caches the diagnosis data into the database of the intelligent hospital management platform instead of directly acquiring the diagnosis data of each data source port from the intelligent hospital management platform, so that the real-time performance of the diagnosis data is poor. It is therefore first determined whether the operation of the data source port is normally extremely necessary.

And S6, performing data verification on the visit source data according to the data verification unit, and performing visualization operation on the visit source data after verification is passed, so as to obtain a visit data visual view.

It should be explained that, in order to prevent phenomena such as data loss and data repetition of the acquired visit source data, a data verification operation needs to be performed by a data verification unit, and in detail, the performing data verification on the visit source data according to the data verification unit includes:

Inputting source data verification conditions in a data verification unit, wherein the source data verification conditions comprise data repetition verification, data attribute verification and data deletion verification;

generating a source data verification program according to the source data verification conditions;

and running the source data verification program to perform data verification on the visit source data to obtain a verification result, wherein the verification result comprises non-abnormal source data or abnormal source data.

It can be appreciated that data verification has an important role, and if abnormal data exists, the data can have adverse effects on subsequent data visualization. The data repetition check mainly checks whether the data is repeated or not, such as the problem that the data is repeated due to data blocking caused by transmission errors of the response server and the intelligent hospital management platform in the same time point, the data attribute check comprises the character-type data, and the character-type data is integer when received, so that follow-up data visualization is affected, and the like.

Finally, after the data check is passed or the repair is completed, the visualization operation can be directly executed according to the diagnosis source data, so that the visible view of the diagnosis data is obtained.

In order to solve the problems described in the background art, the embodiment of the invention firstly receives a data visualization generation instruction, and connects with an intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital and can acquire the treatment data of each department, it is understood that the embodiment of the invention does not directly acquire the treatment data of each department through a visualization program, because the direct acquisition can cause the problem of overlarge operation pressure of the visualization program, but acquires the treatment data firstly through the intelligent hospital management platform, when the visualization is required to be executed, acquires the treatment data from the intelligent hospital management platform, prevents the overlarge program pressure, then creates a treatment data visualization assembly, and enters an assembly configuration page corresponding to the treatment data visualization assembly, wherein the assembly configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit, and it is understood that each unit has different functions, especially has a network configuration unit and a data verification unit, the acquisition of the data is determined from the top, and the network configuration unit is performed correctly according to the network configuration unit, and the network configuration data is performed correctly, thereby improving the network configuration error-checking efficiency, and improving the network configuration data transmission speed. Therefore, the data visualization display method, the system, the electronic equipment and the computer readable storage medium based on the intelligent hospital management platform can improve the visual smoothness of the medical treatment data.

Fig. 2 is a functional block diagram of a data visualization display system based on an intelligent hospital management platform according to an embodiment of the present invention.

The data visualization display system 100 based on the intelligent hospital management platform can be installed in electronic equipment. Depending on the functions implemented, the intelligent hospital management platform-based data visualization system 100 may include an intelligent hospital management platform connection module 101, a visualization component creation module 102, a basic configuration module 103, a network configuration module 104, and a data visualization module 105. The module of the invention, which may also be referred to as a unit, refers to a series of computer program segments, which are stored in the memory of the electronic device, capable of being executed by the processor of the electronic device and of performing a fixed function.

The intelligent hospital management platform connection module 101 is configured to receive a data visualization generation instruction, and connect to an intelligent hospital management platform according to the data visualization generation instruction, where the intelligent hospital management platform is connected to a computer of each department in a hospital, and can acquire the treatment data of each department;

the visual component creating module 102 is configured to create a visual component of the patient data, and enter a component configuration page corresponding to the visual component of the patient data, where the component configuration page includes a basic configuration unit, a network configuration unit, and a data verification unit;

The basic configuration module 103 is configured to perform basic display configuration on the treatment data visualization component by using the basic configuration unit, so as to obtain a cured display content;

the network configuration module 104 is configured to perform network configuration on the treatment data visualization component according to the network configuration unit, so as to obtain network configuration content;

the data visualization module 105 is configured to pull the visit data of each department from the intelligent hospital management platform by using the network configuration content, obtain the visit source data, perform data verification on the visit source data according to the data verification unit, and perform a visualization operation on the visit source data after the verification is passed, so as to obtain a visit data visual view.

In detail, the modules in the intelligent hospital management platform-based data visualization system 100 in the embodiment of the present invention use the same technical means as the intelligent hospital management platform-based data visualization method described in fig. 1, and can produce the same technical effects, which are not described herein.

Fig. 3 is a schematic structural diagram of an electronic device for implementing a data visualization method based on an intelligent hospital management platform according to an embodiment of the present invention.

The electronic device 1 may comprise a processor 10, a memory 11 and a bus 12, and may further comprise a computer program stored in the memory 11 and executable on the processor 10, such as a data visualization presentation method program based on a smart hospital management platform.

The memory 11 includes at least one type of readable storage medium, including flash memory, a mobile hard disk, a multimedia card, a card memory (e.g., SD or DX memory, etc.), a magnetic memory, a magnetic disk, an optical disk, etc. The memory 11 may in some embodiments be an internal storage unit of the electronic device 1, such as a removable hard disk of the electronic device 1. The memory 11 may in other embodiments also be an external storage device of the electronic device 1, such as a plug-in mobile hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card) or the like, which are provided on the electronic device 1. Further, the memory 11 may also include both an internal storage unit and an external storage device of the electronic device 1. The memory 11 may be used not only for storing application software installed in the electronic device 1 and various data, such as codes of a data visualization presentation method program based on a smart hospital management platform, but also for temporarily storing data that has been output or is to be output.

The processor 10 may be comprised of integrated circuits in some embodiments, for example, a single packaged integrated circuit, or may be comprised of multiple integrated circuits packaged with the same or different functions, including one or more central processing units (Central Processing unit, CPU), microprocessors, digital processing chips, graphics processors, combinations of various control chips, and the like. The processor 10 is a Control Unit (Control Unit) of the electronic device, connects respective parts of the entire electronic device using various interfaces and lines, executes or executes programs or modules stored in the memory 11 (for example, a data visualization presentation method program based on an intelligent hospital management platform, etc.), and invokes data stored in the memory 11 to perform various functions of the electronic device 1 and process data.

The bus 12 may be a peripheral component interconnect standard (peripheral component interconnect, PCI) bus, or an extended industry standard architecture (extended industry standard architecture, EISA) bus, among others. The bus 12 may be divided into an address bus, a data bus, a control bus, etc. The bus 12 is arranged to enable a connection communication between the memory 11 and at least one processor 10 etc.

Fig. 3 shows only an electronic device with components, it being understood by a person skilled in the art that the structure shown in fig. 3 does not constitute a limitation of the electronic device 1, and may comprise fewer or more components than shown, or may combine certain components, or may be arranged in different components.

For example, although not shown, the electronic device 1 may further include a power source (such as a battery) for supplying power to each component, and preferably, the power source may be logically connected to the at least one processor 10 through a power management device, so that functions of charge management, discharge management, power consumption management, and the like are implemented through the power management device. The power supply may also include one or more of any of a direct current or alternating current power supply, recharging device, power failure detection circuit, power converter or inverter, power status indicator, etc. The electronic device 1 may further include various sensors, bluetooth modules, wi-Fi modules, etc., which will not be described herein.

Further, the electronic device 1 may also comprise a network interface, optionally the network interface may comprise a wired interface and/or a wireless interface (e.g. WI-FI interface, bluetooth interface, etc.), typically used for establishing a communication connection between the electronic device 1 and other electronic devices.

The electronic device 1 may optionally further comprise a user interface, which may be a Display, an input unit, such as a Keyboard (Keyboard), or a standard wired interface, a wireless interface. Alternatively, in some embodiments, the display may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch, or the like. The display may also be referred to as a display screen or display unit, as appropriate, for displaying information processed in the electronic device 1 and for displaying a visual user interface.

It should be understood that the embodiments described are for illustrative purposes only and are not limited to this configuration in the scope of the patent application.

The data visualization presentation method program based on the intelligent hospital management platform stored in the memory 11 of the electronic device 1 is a combination of a plurality of instructions, and when running in the processor 10, it can be implemented:

receiving a data visualization generation instruction, and connecting an intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital, and can acquire the treatment data of each department;

Creating a visual component of the doctor-seeing data, and entering a component configuration page corresponding to the visual component of the doctor-seeing data, wherein the component configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit;

performing basic display configuration on the treatment data visualization component by using the basic configuration unit to obtain a solidified display content;

according to the network configuration unit, carrying out network configuration on the treatment data visualization component to obtain network configuration content;

pulling the diagnosis data of each department from the intelligent hospital management platform by utilizing the network configuration content to obtain diagnosis source data;

and executing data verification on the visit source data according to the data verification unit, and executing visualization operation on the visit source data after verification is passed, so as to obtain a visit data visual view.

Specifically, the specific implementation method of the above instructions by the processor 10 may refer to descriptions of related steps in the corresponding embodiments of fig. 1 to 3, which are not repeated herein.

Further, the modules/units integrated in the electronic device 1 may be stored in a computer readable storage medium if implemented in the form of software functional units and sold or used as separate products. The computer readable storage medium may be volatile or nonvolatile. For example, the computer readable medium may include: any entity or device capable of carrying the computer program code, a recording medium, a U disk, a removable hard disk, a magnetic disk, an optical disk, a computer Memory, a Read-Only Memory (ROM).

The present invention also provides a computer readable storage medium storing a computer program which, when executed by a processor of an electronic device, can implement:

receiving a data visualization generation instruction, and connecting an intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital, and can acquire the treatment data of each department;

creating a visual component of the doctor-seeing data, and entering a component configuration page corresponding to the visual component of the doctor-seeing data, wherein the component configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit;

performing basic display configuration on the treatment data visualization component by using the basic configuration unit to obtain a solidified display content;

according to the network configuration unit, carrying out network configuration on the treatment data visualization component to obtain network configuration content;

pulling the diagnosis data of each department from the intelligent hospital management platform by utilizing the network configuration content to obtain diagnosis source data;

and executing data verification on the visit source data according to the data verification unit, and executing visualization operation on the visit source data after verification is passed, so as to obtain a visit data visual view.

In the several embodiments provided in the present invention, it should be understood that the disclosed apparatus, device and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is merely a logical function division, and there may be other manners of division when actually implemented.

The modules described as separate components may or may not be physically separate, and components shown as modules may or may not be physical units, may be located in one place, or may be distributed over multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

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

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

The blockchain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanism, encryption algorithm and the like. The Blockchain (Blockchain), which is essentially a decentralised database, is a string of data blocks that are generated by cryptographic means in association, each data block containing a batch of information of network transactions for verifying the validity of the information (anti-counterfeiting) and generating the next block. The blockchain may include a blockchain underlying platform, a platform product services layer, an application services layer, and the like.

Furthermore, it is evident that the word "comprising" does not exclude other elements or steps, and that the singular does not exclude a plurality. Multiple units or devices may also be implemented by one unit or device in software or hardware. The terms second, etc. are used to denote a name, but not any particular order.

Finally, it should be noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims (8)

1. The data visualization display method based on the intelligent hospital management platform is characterized by comprising the following steps of:

receiving a data visualization generation instruction, and connecting an intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital, and can acquire the treatment data of each department;

creating a visual component of the doctor-seeing data, and entering a component configuration page corresponding to the visual component of the doctor-seeing data, wherein the component configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit;

performing basic display configuration on the treatment data visualization component by using the basic configuration unit to obtain a solidified display content;

according to the network configuration unit, carrying out network configuration on the treatment data visualization component to obtain network configuration content;

pulling the diagnosis data of each department from the intelligent hospital management platform by utilizing the network configuration content to obtain diagnosis source data;

performing data verification on the visit source data according to the data verification unit, and performing visualization operation on the visit source data after verification is passed to obtain a visit data visual view;

The create visit data visualization component includes:

analyzing the data visualization generation instruction to obtain a data source port set and one or more visualization types, wherein the visualization types comprise two-dimensional graph visualization, two-dimensional table visualization, three-dimensional graph visualization and three-dimensional table visualization;

writing a visual component blank program, wherein the visual component blank program comprises a data source port connection function, an intelligent hospital management platform connection function and a blank visual function;

binding the visual type and the empty visual function to obtain a data visual function;

acquiring the port IP of each data source port in the data source port set, and taking the port IP of each data source port as an entry of a data source port connection function;

connecting the intelligent hospital management platform by utilizing the intelligent hospital management platform connection function, and acquiring a data processing function from the intelligent hospital management platform;

packaging the data processing function, a data source port connection function comprising a port IP and a data visualization function to obtain a visualization component generation program;

and running the visualization component generating program to obtain the treatment data visualization component.

2. The method for visualizing and displaying data based on intelligent hospital management platform according to claim 1, wherein said performing network configuration on said visual components of treatment data according to said network configuration unit to obtain network configuration content comprises:

According to the network configuration unit, acquiring all servers capable of serving the visit data visualization component to acquire the visit data in the current time period;

sequentially collecting a plurality of groups of task processing records of each server in the current time period, and constructing a task processing matrix of each server based on the plurality of groups of task processing records;

according to the task processing matrix, calculating the busyness of each group of servers, and selecting the server with the minimum busyness as a response server of the service visit data visualization component;

and configuring the response server to obtain network configuration content, wherein the network configuration content comprises the step of adjusting an access network of the treatment data visualization component and the response server to belong to the same wireless network, and the step of performing point-to-point connection between the response server and the intelligent hospital management platform.

3. The visual display method of data based on intelligent hospital management platform according to claim 2, wherein the sequentially collecting the plurality of task processing records of each server in the current time period comprises:

setting task acquisition starting point time and task acquisition ending point time of a current time period;

acquiring all task history records processed by each server in the task acquisition starting point time and the task acquisition ending point time;

Extracting each task from the task history record in turn, wherein each task has a task rule, and the task rule comprises time consumed for completing the task, CPU (central processing unit) duty ratio of a server during task processing, working voltage and current frequency and memory consumption value;

and summarizing each task comprising the task rules according to the time sequence to obtain the task processing record.

4. The method for visualizing and displaying data based on an intelligent hospital management platform according to claim 3, wherein the constructing task processing matrix based on the plurality of task processing records to obtain each server comprises:

constructing a task empty matrix of each server, wherein the dimension of the task empty matrix is determined by the total number of task processing records of each server;

and sequentially importing the task rules of each group of task processing records into a task space matrix to obtain the task processing matrix, wherein the task processing matrix is expressed as follows:

wherein ,indicate->Task processing matrix of individual server +.>Indicate->The first ∈of the task details of the task processing records>The data values include the time spent completing the task, the CPU duty cycle of the server during processing of the task, the voltage current frequency of operation, and the memory consumption value.

5. The visual data display method based on intelligent hospital management platform according to claim 4, wherein the calculating the busyness of each group of servers according to the task processing matrix comprises:

inputting a task processing matrix of each server into a pre-trained busyness calculation model, wherein the busyness calculation model is constructed by an XGBoost model, and the concentration prediction model is trained on the XGBoost model before being used;

and calculating the busyness of each server by using the busyness calculation model.

6. The visual display method of data based on intelligent hospital management platform according to claim 5, wherein the step of pulling the visit data of each department from the intelligent hospital management platform by using the network configuration content to obtain the visit source data comprises the steps of:

the port information of each data source port in the data source port set is sent to a response server, wherein each data source port corresponds to a department;

according to the port information of each data source port, sequentially accessing whether the corresponding data source port works abnormally or not through the response server;

if an abnormal data source port exists, an alarm instruction for generating pull data is returned to an initiator of the data visualization generation instruction;

If no abnormal data source port exists, forwarding port information of each data source port to an intelligent hospital management platform;

receiving the diagnosis data pulled from the port information of each data source port by using a response server by using the intelligent hospital management platform;

and summarizing the visit data of each data source port to obtain the visit source data.

7. The intelligent hospital management platform-based data visualization method according to claim 6, wherein the performing data verification on the visit source data according to the data verification unit comprises:

inputting source data verification conditions in a data verification unit, wherein the source data verification conditions comprise data repetition verification, data attribute verification and data deletion verification;

generating a source data verification program according to the source data verification conditions;

and running the source data verification program to perform data verification on the visit source data to obtain a verification result, wherein the verification result comprises non-abnormal source data or abnormal source data.

8. A data visual display device based on an intelligent hospital management platform, for implementing the data visual display method based on the intelligent hospital management platform as claimed in claim 1, wherein the device comprises:

The intelligent hospital management platform connection module is used for receiving the data visualization generation instruction, connecting the intelligent hospital management platform according to the data visualization generation instruction, wherein the intelligent hospital management platform is connected with a computer of each department in a hospital, and can acquire the treatment data of each department;

the system comprises a visual component creation module, a data verification module and a data verification module, wherein the visual component creation module is used for creating a visual component of the treatment data and entering a component configuration page corresponding to the visual component of the treatment data, and the component configuration page comprises a basic configuration unit, a network configuration unit and a data verification unit;

the basic configuration module is used for carrying out basic display configuration on the treatment data visualization component by utilizing the basic configuration unit to obtain solidified display content;

the network configuration module is used for carrying out network configuration on the visual component of the treatment data according to the network configuration unit to obtain network configuration content;

and the data visualization module is used for pulling the diagnosis data of each department from the intelligent hospital management platform by utilizing the network configuration content to obtain diagnosis source data, executing data verification on the diagnosis source data according to the data verification unit, and executing visualization operation on the diagnosis source data after verification is passed to obtain a diagnosis data visual view.