CN114876780B - Simulation monitoring method for infusion pump, computer equipment and storage medium - Google Patents

Abstract

The application discloses an analog monitoring method of an infusion pump, a computer device and a storage medium, wherein the method comprises the following steps: when a starting instruction of a first application installed on the computer equipment is received, displaying an infusion pump parameter setting interface, and displaying parameter setting windows corresponding to a plurality of simulated infusion pumps on the infusion pump parameter setting interface; when a starting instruction of a second application installed on the computer equipment is received, displaying an infusion pump state display interface, and displaying an operation state monitoring window corresponding to each simulated infusion pump on the infusion pump state display interface; when the operation parameters input based on the parameter setting window corresponding to any simulated infusion pump are received, the operation parameters are transmitted to the second application, the operation parameters are displayed on the operation state monitoring window corresponding to the simulated infusion pump, and whether the simulated operation state of the simulated infusion pump is abnormal or not is judged according to the operation parameters.

Description

Simulation monitoring method for infusion pump, computer equipment and storage medium

Technical Field

The present application relates to the field of infusion pump testing technologies, and in particular, to an infusion pump simulation monitoring method, a computer device, and a storage medium.

Background

In the medical field, at present, can be with fluid, medicament or nutrient injection into the patient who receives the treatment through the infusion pump, compare in traditional manual infusion mode, can carry out automatic, the accurate infusion operation to the patient through the infusion pump, greatly saved medical personnel's work load. Infusion pumps are thus commonly used, especially for large hospitals, where a large number of infusion pumps are already provided. When the infusion pumps reach a certain number, medical staff is required to intensively manage the infusion pumps, and managing the infusion pumps adds great workload to the medical staff.

In order to solve the problem of centralized management of a large number of infusion pumps in hospitals, technicians have developed infusion pump management software, such as a central infusion management system, through which a large number of infusion pumps are centrally managed. However, the central infusion management system is used as medical software, and before the central infusion management system is put into use formally, a medical registration and inspection stage is required, and medical detection specialists need to actually operate the central infusion management system, so that a large number of infusion pumps are required to be equipped to test the performance of the central infusion management system. This process is time-consuming and labor-consuming, especially for situations where the manufacturer and the medical registration verification site are not identical, requiring the manufacturer to transport a large number of infusion pumps to the medical registration verification site for detection by the medical testing specialist, and is time-consuming, labor-consuming, and costly.

Disclosure of Invention

The embodiment of the application provides a simulation monitoring method, computer equipment and storage medium of an infusion pump, which can improve the test efficiency of infusion pump management software and reduce the test cost in a medical registration detection stage.

In a first aspect, an embodiment of the present application provides a method for analog monitoring of an infusion pump, applied to a computer device, where the method for analog monitoring of an infusion pump includes:

When a starting instruction of a first application installed on the computer equipment is received, displaying an infusion pump parameter setting interface, wherein parameter setting windows corresponding to a plurality of simulated infusion pumps are displayed on the infusion pump parameter setting interface;

When a starting instruction of a second application installed on the computer equipment is received, displaying an infusion pump state display interface, wherein an operation state monitoring window corresponding to each simulated infusion pump is displayed on the infusion pump state display interface;

When the operation parameters input based on the parameter setting window corresponding to any one of the simulated infusion pumps are received, the operation parameters are transmitted to the second application, the operation parameters are displayed on the operation state monitoring window corresponding to the simulated infusion pump, and whether the simulated operation state of the simulated infusion pump is abnormal or not is judged according to the operation parameters.

In a second aspect, an embodiment of the present application further provides a computer device, including a processor and a memory, where the memory stores a computer program, and when the processor invokes the computer program in the memory, the processor executes the method for analog monitoring of an infusion pump.

In a third aspect, an embodiment of the present application further provides a storage medium, where the storage medium is used to store a computer program, where the computer program when executed by a processor causes the processor to implement the above-mentioned method for analog monitoring of an infusion pump.

The embodiment of the application provides a simulation monitoring method, computer equipment and storage medium of an infusion pump, wherein a first application and a second application are installed on the computer equipment, when a starting instruction of the first application is received, an infusion pump parameter setting interface is displayed, a plurality of parameter setting windows corresponding to the simulation infusion pump are displayed on the infusion pump parameter setting interface, and the use process of the operation parameter simulation infusion pump is set through the parameter setting windows; when a start instruction of a second application is received, an infusion pump state display interface is displayed, an operation state monitoring window corresponding to each simulated infusion pump is displayed on the infusion pump state display interface, when an operation parameter input based on a parameter setting window corresponding to any simulated infusion pump is received, the operation parameter is transmitted to the second application, the operation parameter is displayed on the operation state monitoring window corresponding to the simulated infusion pump, whether the simulated operation state of the simulated infusion pump is abnormal or not is judged according to the operation parameter, and therefore the test of the monitoring management performance of the infusion pump by the second application is achieved. Compared with the process of registering and checking the central infusion management software by a large number of infusion pump product objects, the testing efficiency is greatly improved, and the testing cost is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an application scenario diagram of a central infusion management system;

FIG. 2 is a schematic flow chart of steps of a method for analog monitoring of an infusion pump according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an infusion pump parameter setting interface provided by an embodiment of the present application;

FIG. 4 is a schematic diagram of an infusion pump status display interface provided by an embodiment of the present application;

FIG. 5 is a schematic diagram of an operating parameter setting interface provided by an embodiment of the present application;

FIG. 6 is a schematic flow chart of steps for determining whether a simulated operation state of the simulated infusion pump is abnormal according to the operation parameters according to the embodiment of the present application;

FIG. 7 is a schematic diagram of another infusion pump status display interface provided by an embodiment of the present application;

FIG. 8 is a schematic diagram of a power down indication window according to an embodiment of the present application;

FIG. 9 is a schematic illustration of a graph of infusion rate change provided by an embodiment of the present application;

FIG. 10 is a schematic diagram of a server verification window according to an embodiment of the present application;

fig. 11 is a schematic block diagram of a computer device provided in an embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. 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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that the description of "first", "second", etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implying an indication of the number of technical features being indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature.

Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the application. Thus, appearances of the phrases "in one embodiment," "in some embodiments," and the like in various places are not necessarily all referring to the same embodiment, but mean "one or more but not all embodiments" unless expressly specified otherwise. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present application.

The flow diagrams depicted in the figures are merely illustrative and not necessarily all of the elements and operations/steps are included or performed in the order described. For example, some operations/steps may be further divided, combined, or partially combined, so that the order of actual execution may be changed according to actual situations.

In the medical field, at present, can be with fluid, medicament or nutrient injection into the patient who receives the treatment through the infusion pump, compare in traditional manual infusion mode, can carry out automatic, the accurate infusion operation to the patient through the infusion pump, greatly saved medical personnel's work load. Infusion pumps are thus commonly used, especially for large hospitals, where a large number of infusion pumps are already provided. When the infusion pumps reach a certain number, medical staff is required to intensively manage the infusion pumps, and managing the infusion pumps adds great workload to the medical staff.

In order to solve the problem of centralized management of a plurality of infusion pumps in a hospital, technicians develop infusion pump management software, such as a central infusion management system, and can centralized monitor the plurality of infusion pumps only by installing the central infusion management system on one terminal device, thereby bringing great convenience to centralized management of the infusion pumps. For example, as shown in fig. 1, fig. 1 shows an application scenario diagram of a central infusion management system, and a terminal device centrally manages a plurality of infusion pumps by installing the central infusion management system.

However, the central infusion management system is used as medical software, and before the central infusion management system is put into use formally, a medical registration and inspection stage is required, and medical detection specialists need to actually operate the central infusion management system, so that a large number of infusion pumps are required to be equipped to test the performance of the central infusion management system. This process is time-consuming and labor-consuming, especially for situations where the manufacturer and the medical registration verification site are not identical, requiring the manufacturer to transport a large number of infusion pumps to the medical registration verification site for detection by the medical testing specialist, and is time-consuming, labor-consuming, and costly.

In order to solve the above problems, embodiments of the present application provide a method for analog monitoring of an infusion pump, a computer device, and a storage medium, which implement a test efficiency of management software of the infusion pump in a medical registration detection stage, and reduce a test cost.

Referring to fig. 2, fig. 2 is a flow chart of an analog monitoring method of an infusion pump according to an embodiment of the present application, where the method is applied to a computer device, and may also be applied to other electronic devices, such as a server, a terminal device, etc., besides the computer device. The server may be an independent server or a server cluster, and the terminal device may be any one of a mobile phone, a tablet computer, a wearable device, a vehicle-mounted device, an augmented reality (augmented reality, AR)/Virtual Reality (VR) device, a notebook computer, a personal computer (personal computer, PC), a netbook, and a Personal Digital Assistant (PDA), which is not limited in the embodiments of the present application.

As shown in fig. 2, the method for analog monitoring of an infusion pump according to the embodiment of the present application includes steps S101 to S103.

And S101, when a starting instruction of a first application installed on the computer equipment is received, displaying an infusion pump parameter setting interface, wherein the infusion pump parameter setting interface is provided with a plurality of parameter setting windows corresponding to the simulated infusion pumps.

The first application belongs to infusion pump simulation client software, the first application is installed on the computer device through a software installation step, and then a user can use and operate the first application on the computer device. When a user executes an operation of starting the first application to trigger a starting instruction of the first application and receives the starting instruction, an infusion pump parameter setting interface is displayed on a touch screen of the computer equipment. Illustratively, parameter setting windows corresponding to a plurality of analog infusion pumps are displayed on the infusion pump parameter setting interface, wherein each parameter setting window corresponds to one analog infusion pump one-to-one. Illustratively, each parameter setting window is displayed in a graphic combination. For example, as shown in fig. 3, fig. 3 is a schematic diagram of an infusion pump parameter setting interface, where the infusion pump parameter setting interface includes a plurality of parameter setting windows corresponding to simulated infusion pumps.

And S102, when a starting instruction of a second application installed on the computer equipment is received, displaying an infusion pump state display interface, wherein the infusion pump state display interface displays an operation state monitoring window corresponding to each simulated infusion pump.

Wherein the second application belongs to the central infusion management software, the second application is installed on the computer device through a software installation step, and then the user can use and operate the second application on the computer device. When the user executes an operation of starting the second application to trigger a starting instruction of the second application and receives the starting instruction, an infusion pump state display interface is displayed on a touch screen of the computer equipment. Illustratively, the infusion pump status display interface displays operating status monitoring windows corresponding to a plurality of analog infusion pumps, wherein each operating status monitoring window corresponds to one analog infusion pump one-to-one. The parameter setting window corresponding to each simulated infusion pump has a one-to-one correspondence with the running state monitoring window corresponding to the simulated infusion pump.

For example, as shown in fig. 4, fig. 4 is a schematic diagram of an infusion pump status display interface, where the infusion pump status display interface includes a plurality of operation status monitoring windows corresponding to the analog infusion pump, where each row of cells represents one operation status monitoring window. Each operating condition monitoring window displays operating information for a corresponding analog infusion pump, including, but not limited to: infusion pump number, drug name, department, bed number, symptom sign, infusion start time, infusion duration, infusion rate, etc.

And S103, when the operation parameters input based on any parameter setting window corresponding to the simulated infusion pump are received, the operation parameters are transmitted to the second application, the operation parameters are displayed on an operation state monitoring window corresponding to the simulated infusion pump, and whether the simulated operation state of the simulated infusion pump is abnormal or not is judged according to the operation parameters.

Illustratively, in a first application, the parameter setting window of each simulated infusion pump is used to set operating parameters of the simulated infusion pump, wherein the operating parameters of the simulated infusion pump include, but are not limited to: the name of the drug output by the simulated infusion pump, the infusion rate of the simulated infusion pump, the symptom sign corresponding to the simulated infusion pump and the like. It should be noted that the specific type of operating parameters of the simulated infusion pump is mainly set according to the parameter test requirements of the second application in the medical registration and verification stage.

Illustratively, when a user selects one of the parameter setting windows for a setting operation and receives an operating parameter setting instruction, control is performed to display an operating dynamic diagram of the simulated infusion pump in the parameter setting window, for example, as shown in fig. 3. The running dynamic diagram of the simulated infusion pump is similar to an animation video, and the process of outputting liquid by the simulated infusion pump is dynamically presented, so that better visual vision is brought to a user. The user sees the running dynamic diagram of the simulated infusion pump, knows that the simulated infusion pump is infusing, brings more visual operation experience of the infusion pump to the user, and therefore the real environment of the user using the infusion pump can be more visually simulated and rendered through the first application.

The user can set the operation parameters of the corresponding simulated infusion pump through any one of the parameter setting windows. Illustratively, each parameter setting window is provided with a setting control, and when a user executes a click setting control operation and triggers a setting instruction, an operation parameter setting interface corresponding to the simulated infusion pump is displayed. Illustratively, the operational parameter setting interface is popped up and enlarged on the infusion pump parameter setting interface. The user may set the various operating parameters of the simulated infusion pump on the operating parameter setting interface. For example, as shown in fig. 5, when the user selects the first simulated infusion pump (pump 1), an operation parameter setting interface of the first simulated infusion pump is displayed on the infusion pump parameter setting interface, and the user may set the operation parameter of the first simulated infusion pump on the operation parameter setting interface, and the first simulated infusion pump may be operated according to the set operation parameter. For example, the user sets the infusion rate, the operation mode, etc. in the operation parameter setting interface. Upon returning to the parameter setting window of the first simulated infusion pump, a dynamic view of the operation of the first simulated infusion pump is displayed at the parameter setting window of the first simulated infusion pump.

When the operation parameters input based on the parameter setting window corresponding to any analog infusion pump are received, the operation parameters are transmitted to the second application through the first application, so that the second application can synchronously receive the operation parameters of the analog infusion pump set by a user in real time.

Illustratively, a corresponding period is preset, for example, to set the period to 0.5 seconds, according to which the operating parameters of the simulated infusion pump are transmitted to the second application. It should be noted that the period may be flexibly set according to practical situations, and is not particularly limited herein.

And when the second application receives the operation parameters of the simulated infusion pump, displaying the received operation parameters in the operation state monitoring window corresponding to the simulated infusion pump.

In some embodiments, the method further comprises:

Outputting a first voice prompt message when the operation parameters are transmitted to the second application;

and outputting second voice prompt information when the operation parameters are displayed on the operation state monitoring window corresponding to the simulated infusion pump.

For example, when the operating parameters of the simulated infusion pump are transmitted by the first application to the second application, a first voice prompt such as "drip" is output by the first application. And outputting, by the second application, a second voice prompt such as "beep" when the operating parameter is displayed in the operating state monitoring window corresponding to the simulated infusion pump.

Therefore, the user can completely know the data unidirectional transmission state between the first application and the second application according to the first voice prompt information and the second voice prompt information, and the user is assisted to complete the testing process of the second application better.

And judging whether the simulated operation state of the simulated infusion pump is abnormal or not according to the received operation parameters.

In some embodiments, as shown in fig. 6, step S103 may include sub-steps S1031 through S1034.

S1031, determining data attributes of the operation parameters, and inquiring a preset database to obtain normal parameter ranges corresponding to the data attributes;

s1032, whether the operation parameters are in the normal parameter range; if yes, go to step S1033; if not, executing step S1034;

s1033, judging that the simulated operation state of the simulated infusion pump is normal;

S1034, judging that the simulated operation state of the simulated infusion pump is abnormal.

The preset database contains normal parameter ranges of data attributes corresponding to various operation parameters, and the database can be stored in a memory of the computer equipment in advance or can be stored in other products except the computer equipment, such as a cloud server. After receiving the operation parameters, determining data attributes corresponding to the operation parameters, then inquiring a preset database, obtaining a normal parameter range corresponding to the data attributes, judging whether the operation parameters are in the normal parameter range, and if the operation parameters are in the normal parameter range, judging that the simulated operation state of the simulated infusion pump is normal; otherwise, if the operation parameters are out of the normal parameter range, judging that the simulated operation state of the simulated infusion pump is abnormal.

It should be noted that, the preset database may also include standard parameter values of data attributes corresponding to various operation parameters, the received operation parameters are compared with the standard parameter values of the corresponding data attributes, and if the difference between the operation parameters and the standard parameter values does not exceed the preset threshold, the simulated operation state of the simulated infusion pump is judged to be normal; otherwise, if the difference between the operation parameter and the standard parameter value exceeds the preset threshold value, judging that the simulated operation state of the simulated infusion pump is abnormal.

For example, when the data attribute of the operation parameter is the infusion rate, the infusion rate of the simulated infusion pump is compared with the standard rate, and when the infusion rate of the simulated infusion pump is greater than the standard rate, the abnormal infusion rate of the simulated infusion pump is judged, and the infusion rate is too fast.

By comparing the operation parameters with the normal parameter ranges, whether the simulated operation state of the simulated infusion pump is abnormal or not is judged, so that the abnormality judgment process is more accurate and convenient.

It should be noted that, not all the data attributes of each operation parameter can perform the abnormality determination, for example, when the data attribute of the operation parameter is a symptom sign, the abnormality determination cannot be performed according to the symptom sign.

In some embodiments, after determining whether the simulated operation state of the simulated infusion pump is abnormal according to the operation parameter, the method may further include:

And if the simulated operation state of the simulated infusion pump is abnormal, outputting operation abnormality prompt information of the simulated infusion pump.

And outputting operation abnormality prompt information corresponding to the simulated infusion pump through the second application when judging that the simulated operation state of the simulated infusion pump is abnormal. Exemplary operational anomaly cues include, but are not limited to, voice cues, text cues, and the like.

For example, an operation state monitoring window corresponding to the abnormal simulated infusion pump is highlighted to remind a user of the abnormal simulated operation state of the simulated infusion pump.

Therefore, the use environments of a plurality of infusion pumps are completely simulated through the first application, a user can directly operate the first application on one computer device without carrying the product object of the infusion pumps, and in the medical registration detection stage, the test function of the central infusion management system of the infusion pumps in the medical registration detection process is completely simulated through the first application and the second application, so that great convenience is brought to the central infusion management system in the medical registration detection.

In some embodiments, each analog infusion pump is provided with a unique identification number, the method further comprising:

Displaying an identification number of a corresponding analog infusion pump in each of the parameter setting windows on the infusion pump parameter setting interface;

and displaying the identification number of the corresponding simulated infusion pump in each running state monitoring window on the infusion pump state display interface.

Wherein the identification number corresponding to the simulated infusion pump includes, but is not limited to, a number. An identification number of the corresponding analog infusion pump is displayed in each parameter setting window, for example, as shown in fig. 3, the numbers of pump 1, pump 2, pump 3. And, an identification number of the corresponding analog infusion pump is displayed in each of the operation state monitoring windows, and for example, as shown in fig. 4, the numbers of the infusion pumps 1, 2, 3. The identification numbers of the corresponding simulated infusion pumps in the running state monitoring windows and the corresponding identification numbers in the parameter setting windows are in one-to-one correspondence.

In some embodiments, displaying the operating parameter in the operating state monitoring window corresponding to the analog infusion pump includes:

determining an operation state monitoring window corresponding to the identification number according to the identification number of the simulated infusion pump corresponding to the operation parameter;

and displaying the operation parameters in an operation state monitoring window corresponding to the identification number.

Because the identification number of the analog infusion pump corresponding to each parameter setting window has a corresponding relation with the identification number of the analog infusion pump corresponding to each running state monitoring window, the running state monitoring window corresponding to each parameter setting window can be found according to the corresponding relation between the identification numbers.

After the user sets the operation parameters of the corresponding simulated infusion pump based on any one of the parameter setting windows, the identification number of the corresponding simulated infusion pump is set according to the parameter setting window, and the operation state monitoring window corresponding to the identification number is determined, namely the operation state monitoring window corresponding to the simulated infusion pump uniquely corresponding to the identification number is determined. The operating parameters of the simulated infusion pump are then displayed in the determined operating condition monitoring window.

For example, when the user sets the operation parameters of the first simulated infusion pump in the parameter setting window corresponding to the pump 1, the operation state monitoring window corresponding to the infusion pump number "1" is found in the infusion pump state display interface, and the operation parameters of the first simulated infusion pump are displayed in the operation state monitoring window corresponding to the infusion pump number "1".

In some embodiments, before the operating parameter is displayed by the operating state monitoring window corresponding to the analog infusion pump, the method further comprises:

Detecting whether the operation parameters are complete;

the operation parameters are displayed on the operation state monitoring window corresponding to the simulated infusion pump, and the operation parameters comprise:

And when the operation parameters are complete, controlling the operation parameters to be displayed on an operation state monitoring window corresponding to the simulated infusion pump.

For example, the character length corresponding to the operation parameter is determined, if the character length corresponding to the operation parameter is greater than or equal to the preset character length threshold, the operation parameter is judged to be complete, otherwise, if the character length corresponding to the operation parameter is less than the preset character length threshold, the operation parameter is judged to be incomplete. Under normal conditions, the operation parameters of the infusion pump should have at least 20 character lengths, if the character length corresponding to the operation parameters transmitted through the first application is lower than 20, for example, the operation parameters only include 15 character lengths, the operation parameters transmitted are indicated to have character loss, and the operation parameters are judged to be incomplete; and judging that the operation parameters are complete only when the character length of the operation parameters is greater than or equal to 20.

When the operation parameters are detected to be complete, the operation parameters are controlled to be displayed on the operation state monitoring window corresponding to the simulated infusion pump, so that the integrity and the accuracy of the operation parameters displayed on the operation state monitoring window are ensured, and the operation parameter errors displayed on the operation state monitoring window are avoided.

In some embodiments, a display mode switching control is provided on an infusion pump status display interface, and the displaying the operation parameter in the operation status monitoring window corresponding to the analog infusion pump includes:

When a first mode switching instruction triggered by a user based on the display mode switching control is received, controlling the operation state monitoring windows to display operation parameters of the corresponding simulated infusion pump in a form;

and when a second mode switching instruction triggered by the user based on the display mode switching control is received, controlling the operation state monitoring windows to display the operation parameters of the corresponding simulated infusion pump in a graphic and text mode.

For example, as shown in fig. 4, a display mode switching control such as "switch display mode" is provided on the infusion pump status display interface. The user can operate the display mode switching control to trigger a corresponding first mode switching instruction or second mode switching instruction. When a first mode switching instruction triggered by a user based on the display mode switching control is received, the operation parameters of the corresponding simulated infusion pump are controlled to be displayed in a form in each operation state monitoring window, for example, as shown in fig. 4, each row of tables represents one operation state monitoring window in the form, and each row of tables displays the operation parameters of the simulated infusion pump. When a second mode switching instruction triggered by the user based on the display mode switching control is received, the operation parameters of the corresponding simulated infusion pump are controlled to be displayed in a graphic form in each operation state monitoring window, for example, as shown in fig. 7, and the user can more intuitively see the operation state of the simulated infusion pump in the graphic form.

It should be noted that, in addition to the two modes of displaying the operation parameters of the corresponding analog infusion pump, the operation parameters of the corresponding analog infusion pump may be displayed in other modes, which are not particularly limited in the present application.

The user can select a plurality of display forms, so that the watching requirement of the user is met, and better use experience is brought to the user.

In some embodiments, each parameter setting window is provided with an abnormal power down test control, the method further comprising:

When a power failure test instruction triggered by an abnormal power failure test control in any parameter setting window is received, adjusting display parameters of the parameter setting window, transmitting abnormal power failure information to the second application, and displaying power failure indication information of a corresponding simulated infusion pump on the infusion pump state display interface; wherein the display parameters include at least one of brightness and color.

For example, as shown in fig. 3, an abnormal power down test control such as "off" is provided at each parameter setting window. When the user needs to simulate the actual monitoring performance of the central infusion management system when the infusion pump is abnormally powered down, the user can click on an 'off' abnormal power down test control in a parameter setting window to trigger a power down test instruction, and when the power down test instruction is received, the display parameter of the parameter setting window is adjusted, wherein the display parameter comprises at least one of brightness and color. For example, control sets the parameter setting window to a low dark form display. And transmitting abnormal power failure information to a second application, and displaying power failure indication information of the corresponding analog infusion pump on an infusion pump state display interface. Exemplary power down notification information includes, but is not limited to, voice notification information, text notification information, and the like.

For example, if the user clicks the "off" abnormal power down test control in the parameter setting window corresponding to the pump 1, a power down indication window pops up on the infusion pump status display interface, and as shown in fig. 8, a power down fault is displayed in the power down indication window as "first infusion pump out power down fault-! ! ! "power down notification information.

By setting the abnormal power failure test control in the parameter setting window, the monitoring function of the central infusion management system on the power failure event can be accurately simulated, and the accuracy and the authenticity of the simulation test are further improved.

In some embodiments, the operating parameters of the simulated infusion pump include an infusion rate, each operating state monitoring window is provided with an infusion rate curve display control, the method further comprising:

And when the touch operation based on the infusion rate curve display control in any operation state monitoring window is detected, displaying an infusion rate change curve diagram of the simulated infusion pump corresponding to the operation state monitoring window on the infusion pump state display interface.

For example, as shown in fig. 4, each operating state monitoring window is provided with an infusion rate curve display control such as "≡". When a user needs to view an infusion rate change curve of a certain analog infusion pump, for example, when viewing an infusion rate change curve of a third analog infusion pump, a touch operation is performed on an "≡" infusion rate curve display control in an operation state monitoring window corresponding to the third analog infusion pump, and when the touch operation is detected, the infusion rate change curve of the third analog infusion pump is displayed on an infusion pump state display interface, for example, as shown in fig. 9, in the infusion rate change curve, an abscissa indicates infusion time in minutes (min), and an ordinate indicates an infusion rate in milliliters per minute (ml/min).

By checking the infusion rate change curve graph of the simulated infusion pump, a user can intuitively know whether the simulated infusion pump is in a stable running state.

In some embodiments, before said transmitting the operating parameter to the second application, further comprising:

receiving a server verification address input by a user based on a preset server verification window, and acquiring a server configuration address of the computer equipment;

Matching the server verification address with the server configuration address;

If the server verification address and the server configuration address are successfully matched, a unidirectional/bidirectional data transmission channel between the first application and the second application is established;

said transmitting said operating parameter to said second application comprising:

transmitting the operating parameters to the second application through the unidirectional/bidirectional data transmission channel.

The server configuration address of the computer equipment is a unique identifier of the computer equipment and is used as identity verification information of the computer equipment. Illustratively, the server configuration address of the computer device includes, but is not limited to, an IP (Internet Protocol Address ) address of the computer device by which authentication is accomplished.

After the first application is installed on the computer device, a server verification window for the first application is displayed, for example, as shown in FIG. 10, the server verification window includes a server address input field, a port input field, and a confirm and cancel control. The user inputs a server verification address in the server verification window, clicks a confirmation control, matches the server verification address with a server configuration address of the computer device after receiving the server verification address input by the user based on the server verification window, and successfully matches the server verification address with the server configuration address when the server verification address is the same as the server configuration address, which indicates that the first application can be legally used and performs communication test of the first application and the second application. For example, the first application transmits the test instruction to the second application, and when the second application successfully receives the test instruction, the communication success prompt message is output to prompt the user to verify that the use of the first application is legal.

When the server verification address is different from the server configuration address, the server verification address fails to be matched with the server configuration address, and communication fault information is output through the second application to prompt a user to verify that the first application cannot be used legally, and the first application cannot be set with parameters and data transmission is performed.

After the server verifies that the address is successfully matched with the server configuration address, a unidirectional/bidirectional data transmission channel between the first application and the second application is established, wherein the unidirectional data transmission channel mainly simulates a unidirectional data transmission function between the infusion pump and the central infusion management system, and because the infusion pump belongs to a medical instrument, in practical application, the infusion pump can only transmit data to the central infusion management system and cannot transmit instructions to the infusion pump through the central infusion management system.

And then, when the operation parameters input based on the parameter setting window corresponding to any analog infusion pump are received, the operation parameters are transmitted to the second application through the unidirectional/bidirectional data transmission channel.

In some embodiments, before said transmitting the operating parameter to the second application, further comprising:

Displaying a data transmission control in a parameter setting window corresponding to the simulated infusion pump;

said transmitting said operating parameter to said second application comprising:

and transmitting the operation parameters to the second application when the data transmission operation executed by the user based on the data transmission control is detected.

Illustratively, the operating parameter setting interface is provided with a data transmission control, for example, as shown in fig. 5, and the operating parameter setting interface is provided with a data transmission control such as "save and send". After the user sets the operation parameters, the set operation parameters are not immediately transmitted to the second application, and only when the user executes the data transmission operation of clicking the data transmission control, the operation parameters are transmitted to the second application when the data transmission operation of the user is detected, so that the problem that the user is triggered by the operation parameters by mistake in the first application is prevented.

In some embodiments, the method further comprises:

Acquiring a first operation parameter input based on a parameter setting window corresponding to a first simulated infusion pump, and transmitting the first operation parameter to a third application installed on the computer equipment; wherein the first simulated infusion pump is any one of a plurality of simulated infusion pumps;

acquiring a second operation parameter displayed by an operation state monitoring window corresponding to the first simulated infusion pump, and transmitting the second operation parameter to the third application;

And detecting whether the first operation parameter is the same as the second operation parameter or not through the third application, and outputting monitoring fault prompt information if the first operation parameter is different from the second operation parameter.

The third application is equivalent to background monitoring software, and the main function of the third application is to monitor whether the operation parameters set by the parameter setting window corresponding to the simulated infusion pump in the first application are synchronous with the operation parameters displayed by the operation state monitoring window corresponding to the second application. Taking any one of the plurality of analog infusion pumps as an example, for ease of description, it will be referred to hereinafter as the first analog infusion pump. And respectively transmitting the first operation parameters corresponding to the first simulated infusion pump input through the parameter setting window to a third application, transmitting the second operation parameters of the first simulated infusion pump displayed through the corresponding operation state monitoring window to the third application, and detecting whether the first operation parameters and the second operation parameters are the same through the third application. If the first operation parameter is the same as the second operation parameter, the second application is indicated to be capable of monitoring the operation state of the simulated infusion pump, and the second application is in a normal state. Otherwise, if the first operation parameter is different from the second operation parameter, the second application is not capable of monitoring the operation state of the simulated infusion pump, and the second application is in a fault state, and at the moment, monitoring fault prompt information is output. Illustratively, the third application is controlled to display infusion failure notification information to prompt the user that the second application is experiencing a monitoring failure.

The third application replaces manual monitoring, and the third application can be used for automatically monitoring the monitoring performance of the second application on the operation state of the simulated infusion pump, so that the sensitivity and the accuracy of the test are further improved.

According to the embodiment, the first application and the second application are installed on the computer equipment, when a starting instruction of the first application is received, the parameter setting interface of the infusion pump is displayed, the parameter setting windows corresponding to the multiple simulated infusion pumps are displayed on the parameter setting interface, and the using process of the simulated infusion pump is simulated by setting operation parameters through the parameter setting windows; when a start instruction of a second application is received, an infusion pump state display interface is displayed, an operation state monitoring window corresponding to each simulated infusion pump is displayed on the infusion pump state display interface, when an operation parameter input based on a parameter setting window corresponding to any simulated infusion pump is received, the operation parameter is transmitted to the second application, the operation parameter is displayed on the operation state monitoring window corresponding to the simulated infusion pump, whether the simulated operation state of the simulated infusion pump is abnormal or not is judged according to the operation parameter, and therefore the test of the monitoring management performance of the infusion pump by the second application is achieved. Compared with the process of registering and checking the central infusion management software by a large number of infusion pump product objects, the testing efficiency is greatly improved, and the testing cost is reduced.

Referring to fig. 11, fig. 11 is a schematic block diagram of a computer device according to an embodiment of the present application.

As shown in FIG. 11, the computer device 100 may include a processor 110 and a memory 120, with the processor 110 and the memory 120 being connected by a bus, such as an I2C (Inter-INTEGRATED CIRCUIT) bus.

Specifically, the processor 110 may be a micro-controller unit (MCU), a central processing unit (Central Processing Unit, CPU), a digital signal processor (DIGITAL SIGNAL processor, DSP), or the like.

Specifically, the Memory 120 may be a Flash chip, a Read-Only Memory (ROM) disk, an optical disk, a U-disk, a removable hard disk, or the like. The memory 120 has stored therein various computer programs for execution by the processor 110.

Wherein the processor 110 is configured to run a computer program stored in a memory and to implement the following steps when the computer program is executed:

When a starting instruction of a first application installed on the computer equipment is received, displaying an infusion pump parameter setting interface, wherein parameter setting windows corresponding to a plurality of simulated infusion pumps are displayed on the infusion pump parameter setting interface;

When a starting instruction of a second application installed on the computer equipment is received, displaying an infusion pump state display interface, wherein an operation state monitoring window corresponding to each simulated infusion pump is displayed on the infusion pump state display interface;

When the operation parameters input based on the parameter setting window corresponding to any one of the simulated infusion pumps are received, the operation parameters are transmitted to the second application, the operation parameters are displayed on the operation state monitoring window corresponding to the simulated infusion pump, and whether the simulated operation state of the simulated infusion pump is abnormal or not is judged according to the operation parameters.

In some embodiments, before implementing the transmitting the operating parameter to the second application, the processor 110 is further configured to implement:

receiving a server verification address input by a user based on a preset server verification window, and acquiring a server configuration address of the computer equipment;

Matching the server verification address with the server configuration address;

If the server verification address and the server configuration address are successfully matched, a unidirectional/bidirectional data transmission channel between the first application and the second application is established;

The processor 110, when implementing the transmitting the operating parameter to the second application, is configured to implement:

transmitting the operating parameters to the second application through the unidirectional/bidirectional data transmission channel.

In some embodiments, before implementing the transmitting the operating parameter to the second application, the processor 110 is further configured to implement:

Displaying a data transmission control in a parameter setting window corresponding to the simulated infusion pump;

The processor 110, when implementing the transmitting the operating parameter to the second application, is configured to implement:

and transmitting the operation parameters to the second application when the data transmission operation executed by the user based on the data transmission control is detected.

In some embodiments, each of the analog infusion pumps is provided with a unique identification number, the processor 110 is further configured to implement:

Displaying an identification number of a corresponding analog infusion pump in each of the parameter setting windows on the infusion pump parameter setting interface;

and displaying the identification number of the corresponding simulated infusion pump in each running state monitoring window on the infusion pump state display interface.

In some embodiments, when the processor 110 is configured to display the operating parameter in the operating state monitoring window corresponding to the simulated infusion pump, the processor is configured to:

determining an operation state monitoring window corresponding to the identification number according to the identification number of the simulated infusion pump corresponding to the operation parameter;

and displaying the operation parameters in an operation state monitoring window corresponding to the identification number.

In some embodiments, before implementing the displaying the operation parameter in the operation state monitoring window corresponding to the analog infusion pump, the processor 110 is further configured to implement:

Detecting whether the operation parameters are complete;

The processor 110 is configured to, when implementing that the operation parameters are displayed on the operation state monitoring window corresponding to the analog infusion pump, implement:

And when the operation parameters are complete, controlling the operation parameters to be displayed on an operation state monitoring window corresponding to the simulated infusion pump.

In some embodiments, a display mode switching control is provided on the infusion pump status display interface, and when the processor 110 implements that the operation parameter is displayed on the operation status monitoring window corresponding to the simulated infusion pump, the processor is configured to implement:

When a first mode switching instruction triggered by a user based on the display mode switching control is received, controlling the operation state monitoring windows to display operation parameters of the corresponding simulated infusion pump in a form;

and when a second mode switching instruction triggered by the user based on the display mode switching control is received, controlling the operation state monitoring windows to display the operation parameters of the corresponding simulated infusion pump in a graphic and text mode.

In some embodiments, after implementing the determining whether the simulated operation state of the simulated infusion pump is abnormal according to the operation parameter, the processor 110 is further configured to implement:

And if the simulated operation state of the simulated infusion pump is abnormal, outputting operation abnormality prompt information of the simulated infusion pump.

In some embodiments, when implementing the determining whether the simulated operation state of the simulated infusion pump is abnormal according to the operation parameter, the processor 110 is configured to implement:

Determining the data attribute of the operation parameter, and inquiring a preset database to obtain a normal parameter range corresponding to the data attribute;

if the operation parameters are in the normal parameter range, judging that the simulated operation state of the simulated infusion pump is normal;

And if the operation parameters are out of the normal parameter range, judging that the simulated operation state of the simulated infusion pump is abnormal.

In some embodiments, each of the parameter setting windows is provided with an abnormal power down test control, and the processor 110 is further configured to implement:

When a power failure test instruction triggered by an abnormal power failure test control in any parameter setting window is received, adjusting display parameters of the parameter setting window, transmitting abnormal power failure information to the second application, and displaying power failure indication information of a corresponding simulated infusion pump on the infusion pump state display interface; wherein the display parameters include at least one of brightness and color.

In some embodiments, the operating parameters include infusion rate, each of the operating status monitoring windows is provided with an infusion rate curve display control, and the processor 110 is further configured to implement:

And when the touch operation based on the infusion rate curve display control in any operation state monitoring window is detected, displaying an infusion rate change curve diagram of the simulated infusion pump corresponding to the operation state monitoring window on the infusion pump state display interface.

In some embodiments, the processor 110 is further configured to implement:

Outputting a first voice prompt message when the operation parameters are transmitted to the second application;

and outputting second voice prompt information when the operation parameters are displayed on the operation state monitoring window corresponding to the simulated infusion pump.

In some embodiments, the processor 110 is further configured to implement:

Acquiring a first operation parameter input based on a parameter setting window corresponding to a first simulated infusion pump, and transmitting the first operation parameter to a third application installed on the computer equipment; wherein the first simulated infusion pump is any one of a plurality of simulated infusion pumps;

acquiring a second operation parameter displayed by an operation state monitoring window corresponding to the first simulated infusion pump, and transmitting the second operation parameter to the third application;

And detecting whether the first operation parameter is the same as the second operation parameter or not through the third application, and outputting monitoring fault prompt information if the first operation parameter is different from the second operation parameter.

An embodiment of the present application further provides a storage medium, where the storage medium stores a computer program, where the computer program includes program instructions, and the processor executes the program instructions to implement the steps of the method for analog monitoring of an infusion pump provided in the foregoing embodiment. For example, the computer program is loaded by a processor, the following steps may be performed:

When a starting instruction of a first application installed on the computer equipment is received, displaying an infusion pump parameter setting interface, wherein parameter setting windows corresponding to a plurality of simulated infusion pumps are displayed on the infusion pump parameter setting interface;

When a starting instruction of a second application installed on the computer equipment is received, displaying an infusion pump state display interface, wherein an operation state monitoring window corresponding to each simulated infusion pump is displayed on the infusion pump state display interface;

When the operation parameters input based on the parameter setting window corresponding to any one of the simulated infusion pumps are received, the operation parameters are transmitted to the second application, the operation parameters are displayed on the operation state monitoring window corresponding to the simulated infusion pump, and whether the simulated operation state of the simulated infusion pump is abnormal or not is judged according to the operation parameters.

The specific implementation of each operation above may be referred to the previous embodiments, and will not be described herein.

The storage medium may be an internal storage unit of the computer device of the foregoing embodiment, for example, a hard disk or a memory of the computer device. The storage medium may also be an external storage device of the computer device, such as a plug-in hard disk provided on the computer device, a smart memory card (SMART MEDIA CARD, SMC), a Secure Digital (SD) card, a flash memory card (FLASH CARD), or the like.

Because the computer program stored in the storage medium can execute any of the simulation monitoring methods of the infusion pump provided by the embodiments of the present application, the beneficial effects that any of the simulation monitoring methods of the infusion pump provided by the embodiments of the present application can be achieved, and detailed descriptions of the previous embodiments are omitted herein.

The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the application, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (10)

1. An analog monitoring method of an infusion pump, applied to computer equipment, is characterized in that the analog monitoring method of the infusion pump comprises the following steps:

When a starting instruction of a first application installed on the computer equipment is received, displaying an infusion pump parameter setting interface, wherein parameter setting windows corresponding to a plurality of simulated infusion pumps are displayed on the infusion pump parameter setting interface, the parameter setting windows are used for setting operation parameters of the simulated infusion pumps, and the operation parameters of the simulated infusion pumps are set according to parameter test requirements of a second application in a medical registration and inspection stage;

When a starting instruction of a second application installed on the computer equipment is received, displaying an infusion pump state display interface, wherein an operation state monitoring window corresponding to each simulated infusion pump is displayed on the infusion pump state display interface;

When the operation parameters input based on the parameter setting window corresponding to any one of the simulated infusion pumps are received, the operation parameters are transmitted to the second application, the operation parameters are displayed on the operation state monitoring window corresponding to the simulated infusion pump, and whether the simulated operation state of the simulated infusion pump is abnormal or not is judged according to the operation parameters.

2. The method of claim 1, wherein prior to said transmitting the operating parameter to the second application, further comprising:

receiving a server verification address input by a user based on a preset server verification window, and acquiring a server configuration address of the computer equipment;

Matching the server verification address with the server configuration address;

If the server verification address and the server configuration address are successfully matched, a unidirectional/bidirectional data transmission channel between the first application and the second application is established;

said transmitting said operating parameter to said second application comprising:

transmitting the operating parameters to the second application through the unidirectional/bidirectional data transmission channel.

3. The method of claim 1, wherein each of the analog infusion pumps is provided with a unique identification number, the method further comprising:

Displaying an identification number of a corresponding analog infusion pump in each of the parameter setting windows on the infusion pump parameter setting interface;

and displaying the identification number of the corresponding simulated infusion pump in each running state monitoring window on the infusion pump state display interface.

4. The method of claim 1, wherein a display mode switching control is provided on the infusion pump status display interface, and the displaying the operating parameter in the operating status monitoring window corresponding to the simulated infusion pump comprises:

When a first mode switching instruction triggered by a user based on the display mode switching control is received, controlling the operation state monitoring windows to display operation parameters of the corresponding simulated infusion pump in a form;

and when a second mode switching instruction triggered by the user based on the display mode switching control is received, controlling the operation state monitoring windows to display the operation parameters of the corresponding simulated infusion pump in a graphic and text mode.

5. The method of claim 1, wherein said determining whether a simulated operational state of the simulated infusion pump is abnormal based on the operational parameter comprises:

Determining the data attribute of the operation parameter, and inquiring a preset database to obtain a normal parameter range corresponding to the data attribute;

if the operation parameters are in the normal parameter range, judging that the simulated operation state of the simulated infusion pump is normal;

And if the operation parameters are out of the normal parameter range, judging that the simulated operation state of the simulated infusion pump is abnormal.

6. The method of claim 1, wherein each of the parameter setting windows is provided with an abnormal power down test control, the method further comprising:

When a power failure test instruction triggered by an abnormal power failure test control in any parameter setting window is received, adjusting display parameters of the parameter setting window, transmitting abnormal power failure information to the second application, and displaying power failure indication information of a corresponding simulated infusion pump on the infusion pump state display interface; wherein the display parameters include at least one of brightness and color.

7. The method of claim 1, wherein the operating parameters include infusion rate, each of the operating status monitoring windows being provided with an infusion rate curve display control, the method further comprising:

And when the touch operation based on the infusion rate curve display control in any operation state monitoring window is detected, displaying an infusion rate change curve diagram of the simulated infusion pump corresponding to the operation state monitoring window on the infusion pump state display interface.

8. The method according to any one of claims 1 to 7, further comprising:

Acquiring a first operation parameter input based on a parameter setting window corresponding to a first simulated infusion pump, and transmitting the first operation parameter to a third application installed on the computer equipment; wherein the first simulated infusion pump is any one of a plurality of simulated infusion pumps;

acquiring a second operation parameter displayed by an operation state monitoring window corresponding to the first simulated infusion pump, and transmitting the second operation parameter to the third application;

And detecting whether the first operation parameter is the same as the second operation parameter or not through the third application, and outputting monitoring fault prompt information if the first operation parameter is different from the second operation parameter.

9. A computer device, comprising: a processor, a memory storing a computer program executable by the processor, the computer program implementing the steps of the method for analog monitoring of an infusion pump according to any one of claims 1 to 8 when executed by the processor.

10. A storage medium for computer readable storage, wherein the storage medium stores one or more programs executable by one or more processors to implement the steps of the method of analog monitoring of an infusion pump as claimed in any one of claims 1 to 8.