CN117297610A - Method and device for monitoring and analyzing post-operation urine volume of patient - Google Patents

Abstract

The application relates to a method and a device for monitoring and analyzing the postoperative urine volume of a patient, which belong to the field of rehabilitation monitoring; the method for monitoring and analyzing the postoperative urine volume of the patient comprises the steps of obtaining the urine collapse time information and the urine volume information of the patient; calculating to obtain the urine collapse rate information according to the urine collapse time information and the urine volume information of the patient; predicting the predicted time information of the urine in the urine bag reaching the warning line according to the urine collapse rate information; the current position information and the state information of the caretaker are called; determining the moving time information of the caretaker moving to the ward according to the current position information and the state information of the caretaker; and analyzing and determining a caretaker and notification time information which should go to the ward according to the predicted time information and the movement time information, and sending ward information to the caretaker according to the notification time information. The method has the effect of improving the accuracy of the measurement and monitoring of the postoperative urine of the patient.

Description

Method and device for monitoring and analyzing post-operation urine volume of patient

Technical Field

The application relates to the field of postoperative monitoring, in particular to a method and a device for monitoring and analyzing the measurement of urine volume of a patient after operation.

Background

After performing some specific operations, patients are prone to urinary collapse; the occurrence of urinary collapse can cause a series of complications, thereby affecting the life safety of patients; therefore, the patient needs to be monitored for the post-operative urine volume; at present, a urine bag is generally adopted to monitor the postoperative urine volume of a patient, but a caretaker is required to replace the urine bag frequently in the mode, so that the operation is complicated; when the postoperative urine volume of the patient is monitored, a plurality of caregivers possibly go to the same ward when the caregivers need to go to the ward for nursing, so that human redundancy is caused; the condition that the caretaker does not go to the ward in time can also occur, and the postoperative urine volume monitoring of the patient is affected.

Disclosure of Invention

The application provides a method and a device for monitoring and analyzing the postoperative urine volume of a patient, which have the characteristic of improving the accuracy of the postoperative urine volume monitoring of the patient.

The application aims at providing a method and a device for monitoring and analyzing the post-operation urine volume of a patient.

The first object of the present application is achieved by the following technical solutions:

a method for monitoring and analyzing the post-operative urine volume of a patient, comprising:

acquiring the urine collapse time information and urine volume information of a patient;

calculating to obtain the urine collapse rate information according to the urine collapse time information and the urine volume information of the patient;

predicting the predicted time information of the urine in the urine bag reaching the warning line according to the urine collapse rate information;

the current position information and the state information of the caretaker are called;

determining the moving time information of the caretaker moving to the ward according to the current position information and the state information of the caretaker;

and analyzing and determining a caretaker and notification time information which should go to the ward according to the predicted time information and the movement time information, and sending ward information to the caretaker according to the notification time information.

In a preferred example, the method may further include calculating the urinary collapse rate information according to the urinary collapse time information and the urine volume information of the patient, including:

determining a metrorrhagia calculation time period according to the patient metrorrhagia time information; the urinary collapse calculation time period refers to a random time period from the beginning of urinary collapse to the ending of urinary collapse of a patient;

determining the urinary volume of the urinary bladder corresponding to the time period according to the urinary volume information and the urinary volume calculation time period;

and calculating the urine volume according to the urine collapse calculation time period and the urine collapse to obtain the urine collapse rate information.

The present application may be further configured in a preferred example to: the method further comprises the steps of selecting a plurality of the urinary collapse calculation time periods, and respectively calculating urinary collapse speed values corresponding to the urinary collapse time periods; and processing the plurality of urine collapse rate values to obtain urine collapse rate information.

The present application may be further configured in a preferred example to: the predicted time information for predicting the arrival of urine in the urine bag at the warning line according to the urine collapse rate information comprises the steps of obtaining the capacity of the warning line of the urine bag; and determining prediction time information according to the urine collapse rate information and the urine bag warning line capacity.

The present application may be further configured in a preferred example to: the determining the moving time information of the caretaker to move to the ward according to the current position information and the state information of the caretaker comprises the following steps: determining distance information between the nursing staff and the ward according to the current position information of the nursing staff; and determining the moving time information of the caretaker moving to the ward according to the state information and the distance information of the caretaker.

The present application may be further configured in a preferred example to: the step of analyzing and determining the caretaker and the notification time information which should go to the ward according to the predicted time information and the movement time information comprises the steps of obtaining the current time; determining a caretaker according to the current time and the moving time information; and determining notification time information according to the prediction time information.

The present application may be further configured in a preferred example to: the step of obtaining the patient urine collapse time information and the urine volume information comprises the step of utilizing an electronic eye to monitor the urine bag and obtaining the patient urine collapse time information and the urine volume information.

The second purpose of the application is to provide a device for monitoring and analyzing the post-operation urine volume of a patient.

The second object of the present application is achieved by the following technical solutions:

a patient post-operative urine measurement monitoring analysis device, comprising:

the acquisition module is used for acquiring the urine collapse time information and the urine volume information of the patient;

the calculating module is used for calculating and obtaining the urine collapse rate information according to the urine collapse time information and the urine volume information of the patient;

the prediction module is used for predicting the predicted time information of the urine in the urine bag reaching the warning line according to the urine collapse rate information;

the calling module is used for calling the current position information and the state information of the caretaker;

the determining module is used for determining the moving time information of the caretaker moving to the ward according to the current position information and the state information of the caretaker;

and the analysis module is used for analyzing and determining caretakers and notification time information which should go to the ward according to the predicted time information and the movement time information, and sending ward information to the caretakers according to the notification time information.

The third object of the present application is to provide a terminal.

The third object of the present application is achieved by the following technical solutions:

a terminal comprising a memory and a processor, said memory having stored thereon computer program instructions for the above-described method of monitoring and analyzing post-operative urine volume of a patient, which can be loaded and executed by the processor.

A fourth object of the present application is to provide a computer medium capable of storing a corresponding program.

The fourth object of the present application is achieved by the following technical solutions:

a computer readable storage medium storing a computer program loadable by a processor and operative to perform any of the methods of post-operative urine measurement monitoring analysis of a patient as described above.

In summary, the present application includes at least one of the following beneficial technical effects:

the method comprises the steps of obtaining the urine collapse time and the urine volume of a patient through monitoring the urine collapse state of the patient, and further calculating the urine collapse rate information of the patient; then predicting the urine volume of the patient according to the urine collapse rate information, and analyzing the predicted time of the urine in the urine bag reaching the warning line; analyzing the caretakers, analyzing the position and the state of each caretaker, and determining the moving time of the caretaker to arrive at a ward; determining when a caretaker should be notified to replace the patient's urine bag and to handle patient urine collapse events in combination with the predicted time and the caretaker's travel time; by adopting the mode, the urine collapse state of the patient can be accurately monitored, the urine quantity and time of the patient during urine collapse can be accurately controlled, the state and the position of a nursing staff can be analyzed, and the calculation and the prediction of the movement time of the nursing staff can be realized; finally, selecting a proper nursing staff by combining the nursing staff with the consideration of the urine collapse state; by the mode, the accuracy of measuring and monitoring the urine volume of the patient after operation is improved.

Drawings

FIG. 1 is a flow chart of a method for monitoring and analyzing post-operative urine volume of a patient according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a device for monitoring and analyzing post-operation urine measurement of a patient according to an embodiment of the present application.

Reference numerals illustrate: 1. an acquisition module; 2. a computing module; 3. a prediction module; 4. a calling module; 5. a determining module; 6. and an analysis module.

Detailed Description

The present embodiment is merely illustrative of the present application and is not intended to be limiting, and modifications may be made to the embodiment by those skilled in the art without creative contribution as needed after reading the present specification, but are protected by patent laws within the scope of the claims of the present application.

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Embodiments of the present application are described in further detail below with reference to the drawings attached hereto.

The application provides a method for monitoring and analyzing the post-operation urine volume of a patient, and the main flow of the method is described as follows.

As shown in fig. 1:

step S101: and acquiring the urine collapse time information and urine volume information of the patient.

In the embodiment of the application, the monitoring of the urine bag of the patient can be realized through the electronic eye, and the urine bag is monitored by the electronic eye, so that the urine collapse time information and the urine volume information of the patient are obtained; it is understood that, besides the electronic eye, the urine bag of the patient can be monitored by other monitoring devices, and the monitoring mode and the acquisition mode of the urine collapse time information and the urine volume information of the patient are not limited, so long as the urine collapse time information and the urine volume information of the patient can be acquired; the urinary collapse time information is real-time process information of urinary collapse of the patient acquired through the electronic eye; the urine volume information refers to the volume of urine in the urine bag after the patient starts to urinate.

Step S102: and calculating to obtain the urine collapse rate information according to the urine collapse time information and the urine volume information of the patient.

In the embodiment of the present application, calculating the urinary collapse rate information according to the patient urinary collapse time information and the urine volume information specifically includes determining a urinary collapse calculation time period according to the patient urinary collapse time information; the urinary collapse calculation time period refers to a random time period from the beginning of urinary collapse to the ending of urinary collapse of a patient; determining the urinary volume of the urinary bladder corresponding to the time period according to the urinary volume information and the urinary volume calculation time period; and calculating the urine volume according to the urine collapse calculation time period and the urine collapse to obtain the urine collapse rate information.

The embodiment of the application further comprises a processing mode, specifically, a plurality of the urinary collapse calculation time periods are selected, and urinary collapse speed values corresponding to the urinary collapse time periods are calculated respectively; and processing the plurality of urine collapse rate values to obtain urine collapse rate information.

It can be understood that the patient metrorrhagia time information is real-time process information of patient metrorrhagia obtained through the electronic eye; when the patient urine collapse time information is used for calculation, a random time period in the time information can be selected for small sample calculation; calculating the urine collapse time and the corresponding urine volume of the small sample to obtain the urine collapse rate information; dividing the urine amount by the urine collapse time to obtain the urine amount of the patient in unit time, namely the urine collapse rate information; by adopting the mode, each urine collapse time period is calculated to obtain the urine collapse rate value corresponding to each urine collapse time period; then, processing the multiple urine collapse rate values to obtain urine collapse rate information; when a plurality of the urine collapse rate values are processed, the average value calculation method, the variance calculation method, or the like may be used to obtain the urine collapse rate information.

In calculating the metrorrhagia rate information of the patient in the above manner, it should be noted that the metrorrhagia rate information calculated using only one time period may be inaccurate, and therefore, a plurality of metrorrhagia calculation time periods are selected, the respective metrorrhagia rate values corresponding to the respective metrorrhagia calculation time periods are calculated, and the metrorrhagia rate values are processed to obtain the metrostaxis rate information.

It should be noted that the rate of urinary collapse of a patient may not be constant during actual clinical treatment, but rather may vary over time, requiring dynamic analysis thereof in order to improve the accuracy of the calculation of the rate of urinary collapse of the patient.

Specifically, time periods are set according to the patient urine collapse time information, and the urine collapse rate value of each time period is calculated; analyzing according to each urine collapse rate value to obtain urine collapse rate change information of the patient; obtaining urinary collapse rate prediction information according to the urinary collapse rate change information of the patient; and determining final urinary collapse rate information according to the urinary collapse rate prediction information and the urinary collapse rate value of each time period.

It is to be understood that, in the above-described procedure, when setting the time period using the patient metrorrhagia time information, setting of the time period is performed from the start of the patient metrorrhagia, and the subsequent setting of the time period is to set the adjacent time periods in time sequence; such as 0-5s,6-10s, etc.; by calculating the time period set in the way, the urinary collapse trend of the patient, namely the urinary collapse rate change information, can be accurately analyzed, and then the urinary collapse rate is predicted according to the change trend, so that the final urinary collapse rate information is determined.

By the mode, the calculation accuracy of the urine collapse rate information is improved, subsequent calculation and prediction are facilitated, and the accuracy of monitoring and analyzing the urine volume of the patient is improved.

Step S103: and predicting the predicted time information of the urine in the urine bag reaching the warning line according to the urine collapse rate information.

In the embodiment of the application, the predicting time information for predicting that urine in the urine bag reaches the warning line according to the urine collapse rate information specifically includes obtaining the capacity of the warning line of the urine bag; and determining prediction time information according to the urine collapse rate information and the urine bag warning line capacity.

Wherein, determining the predicted time information according to the urine collapse rate information and the urine bag warning line capacity comprises obtaining the known urine volume according to the urine collapse rate value and the corresponding time period; obtaining predicted urine volume according to the urine collapse rate prediction information and the corresponding time period; determining the residual urine volume according to the known urine volume and the urine bag warning line volume; determining an alert period according to the predicted urine volume and the remaining urine volume; and obtaining the predicted time information according to the warning time period.

In step S102, after the dynamic analysis of the urinary collapse rate information, urinary collapse rate prediction information is obtained; the urine volume of the patient corresponding to each time period can be determined through the urine collapse rate information; according to the urine collapse rate prediction information, the urine prediction amount of a patient can be determined, and the time period in which the urine amount can reach the warning line can be determined through the urine bag warning line capacity and the predicted urine amount; and further the predicted time information may be determined according to the time period.

It is understood that the urine bag of the patient is a standard device, and the urine bag guard line is set according to the whole volume of the urine bag, so that the volume corresponding to the urine bag guard line can be directly obtained; the urine collapse rate information can be obtained through step S102; the urine bag warning line capacity can be understood as a urine quantity warning value, and the predicted time information can be determined through the urine quantity warning value and the urine collapse rate information; i.e. how long the patient remains at the urine collapse rate the urine volume in the urine bag will reach the warning line.

It should be noted that, in order to improve the accuracy of the above calculation process, a preset time range value may be added, that is, a certain range is advanced in the calculated predicted time, for example, the calculated predicted time is 1 minute, and then the predicted time is added with range information to obtain a final predicted time range of 40 seconds to 50 seconds.

In this way, the accuracy of calculating the predicted time of the patient urine collapse is improved, and the accuracy of the final predicted time value is improved by adding the range value.

Step S104: the current location information and status information of the caretaker are retrieved.

It is understood that caregivers mentioned in the embodiments of the present application include nurses and caregivers; the current position of the caretaker can be called by monitoring in a hospital; the state information of the caretaker is acquired through big data in the hospital and the like.

The state information of the caretaker refers to what the caretaker is doing or the state of being; such as a caretaker looking for data, taking care of at a nurse station, etc.

Step S105: and determining the moving time information of the caretaker to move to the ward according to the current position information and the state information of the caretaker.

In this embodiment of the present application, determining, according to the current position information and the state information of the caretaker, movement time information of the caretaker moving to the ward specifically includes determining, according to the current position information of the caretaker, distance information between the caretaker and the ward; and determining the moving time information of the caretaker moving to the ward according to the state information and the distance information of the caretaker.

It can be appreciated that the distance between the caretaker and the ward can be determined by the current position of the caretaker, and the walking time of the caretaker to move to the ward can be determined according to the distance information; then, according to the state of the nursing staff, whether the nursing staff can go to the ward or not and how long the nursing staff can process the current transaction to go to the ward can be determined; the movement time of the caretaker to the ward is determined in conjunction with the caretaker's travel time and the status duration.

Through the mode, the screening of the nursing staff can be realized, and when the patient is in a urine collapse state, only one nursing staff goes to a ward and carries out operations such as urine bag replacement, urine volume monitoring and the like on the patient in time; by the mode, nursing manpower is saved, nursing efficiency of nursing staff is improved, and accuracy of monitoring the postoperative urine volume of a patient is improved.

Step S106: and analyzing and determining a caretaker and notification time information which should go to the ward according to the predicted time information and the movement time information, and sending ward information to the caretaker according to the notification time information.

In this embodiment of the present application, analyzing and determining caretakers and notification time information that should go to a ward according to the predicted time information and the movement time information, and sending ward information to the caretakers according to the notification time information includes obtaining a current time; determining a caretaker according to the current time and the moving time information; and determining notification time information according to the prediction time information.

It can be appreciated that after the movement time of each caretaker is obtained, the screening of the caretakers can be realized by combining the current time; the current time and the predicted time can be used for determining how long the urine volume in the urine bag reaches the warning line after the patient has reached, so that a caretaker needs to arrive in a ward between the time, and the screening of the caretaker can be completed by utilizing the time factor; and then determining the notification time by combining the predicted time, and sending information to a designated nursing staff when the notification time arrives, so that the nursing staff can arrive at a ward at the first time, nursing the patient and monitoring the postoperative urine volume of the patient.

Through the cooperation of the steps S101-S106, the calculation of the urinary collapse rate information of the patient is realized, and the prediction of the urinary collapse time of the patient can be realized; then, the state of the nursing personnel is called, the position and the state of the nursing personnel are analyzed, and the moving time of the nursing personnel is determined; finally, screening of the caretakers is completed, and when the caretakers are informed to go to the ward to care the patient is determined; through the mode, the manpower of a nursing staff is saved, the nursing efficiency of the nursing staff is improved, and the accuracy of monitoring the postoperative urine volume of a patient is improved.

In the embodiment of the application, after the movement time information of the caretaker and the predicted time information of the urine collapse state of the patient are determined, the proper caretaker can be screened out; however, when analyzing caregivers in the above manner, there may be a case where a plurality of caregivers are suitable, and then further screening of caregivers is required.

Firstly, further analyzing the state of a caretaker; in step 105, the state of the caretaker is analyzed to determine whether the caretaker can go to the ward and how long it takes to process the current transaction to go to the ward, but in actual situations, most caretakers have difficulty completing the transaction in a short time or may be affected by an emergency if they are in a certain transaction, so even if it is determined that the caretaker can complete the current transaction, the caretaker needs to go to the ward in time to perform a transaction completion probability analysis to determine the probability that the caretaker can complete the current transaction in time.

Specifically, a transaction state information comparison table is called; determining transaction stage information according to the state information of the caretaker; determining transaction processing time and transaction processing mode according to the transaction state information comparison table and the transaction processing stage information; determining a transaction result according to the transaction time and the transaction mode; and determining the nursing probability information of the nursing personnel according to the transaction processing result.

The transaction state information comparison table comprises a transaction processing stage, transaction processing time and a corresponding relation of the transaction processing stage and the transaction processing time; the transaction state information comparison table also comprises transaction processing mode information; after determining the stage information of the transaction being processed by the caretaker, the time required by the caretaker to process the current transaction and the processing mode of the transaction can be determined by combining the transaction state information comparison table; the transaction processing mode comprises transaction interruption; transaction interrupts, i.e., the caretaker can interrupt the current transaction and process other transactions.

The nursing probability information represents a probability value that a nursing staff can go to a ward to treat the urine collapse of the patient; the caretakers can be conveniently screened by marking the caregiving probability information of each caretaker.

The application also provides a device for monitoring and analyzing the post-operation urine volume of the patient, as shown in fig. 2, which comprises an acquisition module 1 for acquiring the information of the urine collapse time and the urine volume of the patient; the calculating module 2 is used for calculating to obtain the urine collapse rate information according to the urine collapse time information and the urine volume information of the patient; the prediction module 3 is used for predicting the predicted time information of the urine in the urine bag reaching the warning line according to the urine collapse rate information; the calling module 4 is used for calling the current position information and the state information of the caretaker; the determining module 5 is used for determining the moving time information of the caretaker moving to the ward according to the current position information and the state information of the caretaker; and the analysis module 6 is used for analyzing and determining a caretaker and notification time information which should go to the ward according to the predicted time information and the movement time information, and sending ward information to the caretaker according to the notification time information.

Through the cooperation of the modules, the monitoring of the urine collapse state of the patient can be realized, the urine collapse time and the urine volume of the patient can be obtained, and then the urine collapse rate information of the patient can be calculated; then predicting the urine volume of the patient according to the urine collapse rate information, and analyzing the predicted time of the urine in the urine bag reaching the warning line; analyzing the caretakers, analyzing the position and the state of each caretaker, and determining the moving time of the caretaker to arrive at a ward; determining when a caretaker should be notified to replace the patient's urine bag and to handle patient urine collapse events in combination with the predicted time and the caretaker's travel time; by adopting the mode, the urine collapse state of the patient can be accurately monitored, the urine quantity and time of the patient during urine collapse can be accurately controlled, the state and the position of a nursing staff can be analyzed, and the calculation and the prediction of the movement time of the nursing staff can be realized; finally, selecting a proper nursing staff by combining the nursing staff with the consideration of the urine collapse state; by the mode, the accuracy of measuring and monitoring the urine volume of the patient after operation is improved.

In order to better execute the program of the method, the application also provides a terminal, which comprises a memory and a processor.

Wherein the memory may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory may include a memory program area and a memory data area, wherein the memory program area may store instructions for implementing an operating system, instructions for at least one function, instructions for implementing the above-described method of monitoring and analyzing post-operative urine volume of a patient, and the like; the data storage area can store data and the like related to the method for monitoring and analyzing the post-operation urine volume of the patient.

The processor may include one or more processing cores. The processor performs the various functions of the present application and processes the data by executing or executing instructions, programs, code sets, or instruction sets stored in memory, calling data stored in memory. The processor may be at least one of an application specific integrated circuit, a digital signal processor, a digital signal processing device, a programmable logic device, a field programmable gate array, a central processing unit, a controller, a microcontroller, and a microprocessor. It will be appreciated that the electronic device for implementing the above-mentioned processor function may be other for different apparatuses, and embodiments of the present application are not specifically limited.

The present application also provides a computer-readable storage medium, for example, comprising: a U-disk, a removable hard disk, a Read Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes. The computer readable storage medium stores a computer program that can be loaded by a processor and that performs the method of post-operative urine measurement monitoring analysis of a patient described above.

The foregoing description is only of the preferred embodiments of the present application and is presented as a description of the principles of the technology being utilized. It will be appreciated by persons skilled in the art that the scope of the disclosure referred to in this application is not limited to the specific combinations of features described above, but it is intended to cover other embodiments in which any combination of features described above or equivalents thereof is possible without departing from the spirit of the disclosure. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Claims (10)

1. A method for monitoring and analyzing the post-operative urine volume of a patient, comprising:

acquiring the urine collapse time information and urine volume information of a patient;

calculating to obtain the urine collapse rate information according to the urine collapse time information and the urine volume information of the patient;

predicting the predicted time information of the urine in the urine bag reaching the warning line according to the urine collapse rate information;

the current position information and the state information of the caretaker are called;

determining the moving time information of the caretaker moving to the ward according to the current position information and the state information of the caretaker;

and analyzing and determining a caretaker and notification time information which should go to the ward according to the predicted time information and the movement time information, and sending ward information to the caretaker according to the notification time information.

2. The method of claim 1, wherein calculating the urinary collapse rate information from the patient urinary collapse time information and the urine volume information comprises:

determining a metrorrhagia calculation time period according to the patient metrorrhagia time information; the urinary collapse calculation time period refers to a random time period from the beginning of urinary collapse to the ending of urinary collapse of a patient;

determining the urinary volume of the urinary bladder corresponding to the time period according to the urinary volume information and the urinary volume calculation time period;

and calculating the urine volume according to the urine collapse calculation time period and the urine collapse to obtain the urine collapse rate information.

3. The method for monitoring and analyzing post-operative urine volume of a patient according to claim 2, further comprising selecting a plurality of the urinary collapse calculation time periods, and calculating urinary collapse rate values corresponding to the respective urinary collapse time periods, respectively; and processing the plurality of urine collapse rate values to obtain urine collapse rate information.

4. The method for monitoring and analyzing the post-operation urine volume of a patient according to claim 1, wherein the predicting time information for predicting the arrival of urine in the urine bag at the warning line according to the urine collapse rate information comprises obtaining the warning line volume of the urine bag; and determining prediction time information according to the urine collapse rate information and the urine bag warning line capacity.

5. The method of claim 1, wherein determining movement time information of the caretaker to move to the ward based on the current position information and the status information of the caretaker comprises: determining distance information between the nursing staff and the ward according to the current position information of the nursing staff; and determining the moving time information of the caretaker moving to the ward according to the state information and the distance information of the caretaker.

6. The method according to claim 1, wherein the analyzing and determining caretakers and notification time information to be sent to a ward based on the predicted time information and the movement time information includes obtaining a current time; determining a caretaker according to the current time and the moving time information; and determining notification time information according to the prediction time information.

7. The method of claim 1, wherein the step of obtaining the patient time to collapse information and the urine volume information comprises using an electronic eye to monitor a urine bag to obtain the patient time to collapse information and the urine volume information.

8. A patient post-operative urine measurement monitoring and analysis device, comprising:

the acquisition module (1) is used for acquiring the urine collapse time information and the urine volume information of the patient;

the calculating module (2) is used for calculating and obtaining the urine collapse rate information according to the urine collapse time information and the urine volume information of the patient;

the prediction module (3) is used for predicting the predicted time information of the urine in the urine bag reaching the warning line according to the urine collapse rate information;

the calling module (4) is used for calling the current position information and the state information of the caretaker;

the determining module (5) is used for determining the moving time information of the caretaker moving to the ward according to the current position information and the state information of the caretaker;

and the analysis module (6) is used for analyzing and determining a nursing staff and notification time information which should go to the ward according to the predicted time information and the movement time information, and sending ward information to the nursing staff according to the notification time information.

9. A terminal comprising a memory and a processor, the memory having stored thereon computer program instructions capable of being loaded by the processor and performing the method according to any of claims 1-7.

10. A computer readable storage medium, characterized in that a computer program is stored which can be loaded by a processor and which performs the method according to any of the claims 1-7.