CN115907277B - Intelligent evaluation system for performance of hospital and implementation method - Google Patents

Abstract

The invention discloses an intelligent evaluation system and an implementation method for performance of a hospital, which relate to the field of hospital data processing and are used for solving the problems that indexes cannot be effectively managed and efficiency of auditing performance data is low due to the fact that the conventional performance evaluation of the hospital adopts extensive management; according to the invention, the index distribution module is used for carrying out deep analysis on the index, decomposing and distributing the index to each source responsibility department, data acquisition department and supervision department, and distributing each index to related responsibility people, so that each link of the index is effectively managed; analyzing the auditing end through an intelligent management module to obtain an auditing value, dividing the index information into parts with the same number as the auditing end, and sequentially sending the index information of the corresponding parts to the corresponding auditing end; and auditing and correcting the index information by the staff corresponding to the auditing end so as to conveniently send the index information to the corresponding staff for auditing, thereby improving auditing and correcting efficiency of the index information.

Description

Intelligent evaluation system for performance of hospital and implementation method

Technical Field

The invention relates to the field of hospital data processing, in particular to an intelligent evaluation system for hospital performance and an implementation method.

Background

The national health commission makes a national third-class public hospital performance assessment operation manual, and the national health commission revises and perfects the operation manual. At present, public hospital performance assessment becomes the most important basis for third-class public hospitals evaluation and assessment by national new medical improvement, is an important scale for testing development effect improvement of public hospitals, and is more in contact with total compensation of hospitals. The index improvement and the performance improvement become the forever theme of hospital management.

The prior hospital performance review adopts extensive management, so that indexes cannot be effectively managed, meanwhile, the efficiency of checking performance data is low, the performance review data is inaccurate, and the performance review result is affected.

Disclosure of Invention

The invention aims to solve the problems that the indexes cannot be effectively managed and the efficiency of auditing performance data is low due to the adoption of extensive management in the conventional hospital performance evaluation, and provides an intelligent evaluation system and an implementation method for the hospital performance.

The aim of the invention can be achieved by the following technical scheme: the intelligent evaluation system for the hospital performance comprises an index distribution module, a data acquisition module, a database, an intelligent management module and an intelligent evaluation module;

the index distribution module is used for acquiring indexes stored in the database in advance, deeply analyzing the indexes, decomposing and distributing the indexes to each source responsibility department, data acquisition department and supervision department, and sending the indexes distributed to each source responsibility department, data acquisition department and supervision department to the data acquisition module;

the data acquisition module is used for acquiring index information corresponding to each source responsibility department, each data acquisition department and each supervision department and sending the index information to the database for storage;

the intelligent management module is used for sending the index information to the corresponding auditing end for auditing and correcting and sending the index information after auditing and correcting to the intelligent review module;

the intelligent evaluation module is used for extracting performance indexes in the index information, performing performance evaluation to obtain index scores corresponding to departments, summarizing the index scores of all departments to obtain score check tables, and sending the score check tables to a database for storage.

As a preferred implementation manner of the invention, the specific process of sending the index information to the corresponding auditing end by the intelligent management module is as follows:

acquiring auditing terminals registered in a database and the current state of the auditing terminals, and marking the auditing terminals with the current state being working states as to-be-selected terminals; sending an audit request instruction to the to-be-selected terminal, receiving an approval request instruction fed back by the to-be-selected terminal, marking the to-be-selected terminal corresponding to the received approval request instruction as a target terminal, and simultaneously calculating the duration between the sending of the audit request instruction and the receiving of the approval request instruction and marking the duration as the reaction duration of the target terminal;

acquiring a terminal group value and an audit value of the target terminal; extracting values of the end base value and the trial value, taking the value of the end base value as an ellipse major axis, taking a preset length as an ellipse minor axis, constructing an ellipse corresponding to the end base value, and marking the ellipse as an end base ellipse; selecting the circle center of the end group ellipse, drawing a circle by taking one half of the value of the trial value as the radius, obtaining a circle and marking the circle as the trial circle; selecting the circle center of the trial circle, and drawing the circle with the corresponding value of the reaction duration as the radius to obtain a duration circle; calculating the intersection area of the end group ellipse and the trial circle, and then calculating the area of the long circle; subtracting the area of the long circle from the intersection area to obtain an area difference, extracting the value of the area difference and marking the value as the trial value of the target terminal;

marking a target terminal with the audit value larger than or equal to a set threshold value as an audit terminal, counting the number of the audit terminal, dividing the index information into parts which are consistent with the number of the audit terminal, and sequentially transmitting the index information of the corresponding parts to the corresponding audit terminal; and after receiving the index information through the auditing end, the staff corresponding to the auditing end carries out auditing and correction on the index information and sends the auditing and correction index information to the intelligent management module.

As a preferred embodiment of the present invention, a statistical analysis unit is disposed in the intelligent management module; the statistical analysis unit is used for collecting the first time of receiving the index information by the audit terminal and feeding back the second time of auditing the corrected index information and performing audit efficiency analysis, and the specific analysis process is as follows:

calculating a time difference between the first time and the second time to obtain an audit correction time length, comparing the audit correction time length with a preset time length, and marking the audit correction time length as a positive time length when the audit correction time length is smaller than the preset audit time length; when the auditing correction time length is longer than the preset auditing time length, marking the auditing correction time length as negative time length; counting the number of positive time periods and negative time periods respectively and marking the positive time periods and the negative time periods as a positive total number and a negative total number;

extracting all the values of the positive time length, marking the values of the positive time length as ZT, and marking the values of the preset auditing time length as BT; substituting preset duration analysis model

To obtain a positiveA time base value QM corresponding to the time length; wherein lambda is a weight preset coefficient;

summing time base values corresponding to all timing lengths to obtain a time total value, wherein the set time total value, the positive total value and the negative total value are respectively SA1, SB2 and SC3; substituting into a preset analysis model

Obtaining an audit value SX of an audit terminal; wherein, the [ mu ] 1, the [ mu ] 2, the [ mu ] 3, the [ mu ] 4 ] are preset weight duty ratios; and [ mu ] 4>µ1=µ2>µ3；

And sending the audit value of the audit terminal to a database for storage.

The system comprises a terminal registration module, a database and a terminal management module, wherein the terminal registration module is used for submitting terminal information of an intelligent terminal to register by hospital staff, sending the terminal information which is successfully registered to the database for storage, and marking the intelligent terminal as an audit terminal, wherein the terminal information comprises the model number of the intelligent terminal, a terminal communication number, the working life of the hospital staff and registration duration, and the unit of the working life is year; meanwhile, terminal group value analysis is carried out on the terminal information which is successfully registered, and the terminal group value analysis specifically comprises the following steps:

setting a preset model value corresponding to all terminal models, matching the model of the intelligent terminal in the terminal information with all terminal models to obtain a corresponding preset model value, and marking the corresponding preset model value as a matched model value; extracting the values of the matching model value, the working year and the registration duration and marking the values as EM1, EM2 and EM3 respectively; substituting the numerical value into a preset analysis model

Obtaining a terminal group value DJ of the auditing terminal; wherein fm1, fm2, fm3 are preset proportionality coefficients; and sending the end group value of the auditing terminal to a database for storage.

The system comprises a database, an intelligent review module, an activity information acquisition module and an activity information acquisition module, wherein the database is used for storing activity information corresponding to each stage, and the database is used for storing activity information corresponding to each stage; wherein the activity information includes activity topics, activity summaries, activity goals, activity expectation indicators, activity schedules, activity content records, and the like; the activity topics include national test performance, smoking banning activities and the like.

The system is characterized by further comprising an information encryption module, wherein the information encryption module is used for encrypting the index information stored in the database and setting authority levels of users, and the authority levels comprise primary authorities, secondary authorities, tertiary authorities, quaternary authorities and fifth authorities; the first-level authority has the largest authority and is used for checking all encrypted index information.

As a preferred embodiment of the present invention, the specific steps of the information encryption module for encrypting the index information are: extracting characters and numbers from the index information, and setting a unique conversion numerical code corresponding to all the characters and the numbers, wherein the conversion numerical code is formed by combining twelve numbers; dividing the conversion numerical code into two groups of conversion numerical codes, setting ten numbers from zero to nine to correspond to one preset color, sequentially matching the two groups of conversion numerical codes to the corresponding preset colors, respectively filling the two groups of conversion numerical codes into a color filling area I of two preset patterns according to the sequence, rotating one of the preset patterns by a certain angle, overlapping the two preset patterns to obtain an encrypted pattern, setting all rotation angles to correspond to one preset color, matching a certain angle with all rotation angles to obtain the corresponding preset color, and filling the preset color into a color filling area II corresponding to the encrypted pattern; and finally, storing the encrypted graph into a database, and generating an index link code corresponding to the encrypted graph.

The invention also comprises a query display module, wherein the query display module is used for a user to query the corresponding integral check list and the corresponding index information, and the specific query process is as follows: acquiring the authority level of the user, decrypting the information encrypted in the integral checking list and the corresponding index information and visually displaying when the authority level of the user is the first-level authority; and when the authority level of the user is the second-level authority or the third-level authority or the fourth-level authority or the fifth-level authority, decrypting and visually displaying the information encrypted in the point checking table and the index information corresponding to the authority level, and displaying the information which is not decrypted by using the index link code.

The performance intelligent review implementation method based on the management intelligent technology comprises the following steps:

s1: acquiring indexes stored in advance in a database, deeply analyzing the indexes, decomposing and distributing the indexes to each source responsibility department, data acquisition department and supervision department;

s2: acquiring index information corresponding to each source responsibility department, data acquisition department and supervision department;

s3: the index information is sent to the corresponding auditing end for auditing and correcting, specifically:

s31: acquiring auditing terminals registered in a database and the current state of the auditing terminals, and marking the auditing terminals with the current state being working states as to-be-selected terminals; sending an audit request instruction to the to-be-selected terminal, receiving an approval request instruction fed back by the to-be-selected terminal, marking the to-be-selected terminal corresponding to the received approval request instruction as a target terminal, and simultaneously calculating the duration between the sending of the audit request instruction and the receiving of the approval request instruction and marking the duration as the reaction duration of the target terminal;

s32: acquiring a terminal group value and an audit value of a target terminal, extracting values of the terminal group value and the audit value, taking the value of the terminal group value as an ellipse major axis, taking a preset length as an ellipse minor axis, constructing an ellipse corresponding to the terminal group value, and marking the ellipse as a terminal group ellipse; selecting the circle center of the end group ellipse, drawing a circle by taking one half of the value of the trial value as the radius, obtaining a circle and marking the circle as the trial circle; selecting the circle center of the trial circle, and drawing the circle with the corresponding value of the reaction duration as the radius to obtain a duration circle; calculating the intersection area of the end group ellipse and the trial circle, and then calculating the area of the long circle; subtracting the area of the long circle from the intersection area to obtain an area difference, extracting the value of the area difference and marking the value as the trial value of the target terminal;

s33: marking a target terminal with the audit value larger than or equal to a set threshold value as an audit terminal, counting the number of the audit terminal, dividing the index information into parts which are consistent with the number of the audit terminal, and sequentially transmitting the index information of the corresponding parts to the corresponding audit terminal; after receiving the index information through the auditing end, the staff corresponding to the auditing end carries out auditing correction on the index information;

s4: and extracting performance indexes in the index information after verification and correction, performing performance review to obtain index scores corresponding to departments, summarizing the index scores of all departments to obtain an integral check list, and performing visual display.

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

1. according to the invention, the index distribution module is used for carrying out deep analysis on the index, decomposing and distributing the index to each source responsibility department, data acquisition department and supervision department, and each index is distributed to related responsibility people, so that each link of the index is effectively managed.

2. According to the invention, the auditing end is analyzed through the intelligent management module to obtain the auditing value, the index information is divided into parts which are consistent with the number of the auditing end, and then the index information of the corresponding parts is sequentially sent to the corresponding auditing end; and auditing and correcting the index information by the staff corresponding to the auditing end so as to conveniently send the index information to the corresponding staff for auditing, thereby improving auditing and correcting efficiency of the index information.

3. According to the invention, the index information stored in the database is encrypted through the information encryption module, and the authority level of the user is set, so that the user can conveniently inquire the corresponding index information, and the index information is encrypted through the information encryption module, so that the storage safety of the index information is improved.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic block diagram of the present invention;

fig. 2 is a schematic diagram of an encryption scheme according to the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1, an intelligent evaluation system for performance in a hospital includes an index allocation module, a data acquisition module, a database, an intelligent management module, an intelligent evaluation module, a terminal registration module, an activity release module, an information encryption module and a query display module;

the index distribution module acquires indexes stored in the database in advance, deeply analyzes the indexes, decomposes and distributes the indexes to each source responsibility department, data acquisition department and supervision department, and sends the indexes distributed to each source responsibility department, data acquisition department and supervision department to the data acquisition module; the index distribution module is used for deeply analyzing and distributing the indexes to each source responsibility department, data acquisition department and supervision department, and each index is distributed to related responsibility people, so that each link of the index is effectively managed; further, the index responsibility range is realized, and the index responsibility range is covered to the whole hospital and department, and further covered to the whole range of diagnosis and treatment groups, doctors, individuals and the like; the comprehensive management of a plurality of indexes from the whole hospital target is realized, the definition is realized to the department, and the breakthrough of doctors is further realized.

The data acquisition module acquires index information corresponding to each source responsibility department, each data acquisition department and each supervision department and sends the index information to the database for storage;

the intelligent management module sends the index information to the corresponding auditing end for auditing and correcting, and sends the index information after auditing and correcting to the intelligent auditing module, wherein the specific process of sending the index information to the corresponding auditing end is as follows:

acquiring auditing terminals registered in a database and the current state of the auditing terminals, and marking the auditing terminals with the current state being working states as to-be-selected terminals; sending an audit request instruction to the to-be-selected terminal, receiving an approval request instruction fed back by the to-be-selected terminal, marking the to-be-selected terminal corresponding to the received approval request instruction as a target terminal, and simultaneously calculating the duration between the sending of the audit request instruction and the receiving of the approval request instruction and marking the duration as the reaction duration of the target terminal;

acquiring the terminal group value and the trial value of the target terminal, (the terminal group value and the trial value are set as 100 and 50 respectively when the target terminal is initially registered); extracting values of the end base value and the trial value, taking the value of the end base value as an ellipse major axis, taking a preset length as an ellipse minor axis, constructing an ellipse corresponding to the end base value, and marking the ellipse as an end base ellipse; selecting the circle center of the end group ellipse, drawing a circle by taking one half of the value of the trial value as the radius, obtaining a circle and marking the circle as the trial circle; selecting the circle center of the trial circle, and drawing the circle with the corresponding value of the reaction duration as the radius to obtain a duration circle; calculating the intersection area of the end group ellipse and the trial circle, and then calculating the area of the long circle; subtracting the area of the long circle from the intersection area to obtain an area difference, extracting the value of the area difference and marking the value as the trial value of the target terminal;

marking a target terminal with the audit value larger than or equal to a set threshold value as an audit terminal, counting the number of the audit terminal, dividing the index information into parts which are consistent with the number of the audit terminal, and sequentially transmitting the index information of the corresponding parts to the corresponding audit terminal; after receiving the index information through the auditing end, the staff corresponding to the auditing end carries out auditing correction on the index information and sends the auditing correction index information to the intelligent management module;

the intelligent management module is internally provided with a statistical analysis unit, the statistical analysis unit collects the first time when the auditing end receives the index information and the second time when the auditing end feeds back the index information after auditing and correction and performs auditing effect analysis, and the specific analysis process is as follows:

calculating a time difference between the first time and the second time to obtain an audit correction time length, comparing the audit correction time length with a preset time length, and marking the audit correction time length as a positive time length when the audit correction time length is smaller than the preset audit time length; when the auditing correction time length is longer than the preset auditing time length, marking the auditing correction time length as negative time length; counting the number of positive time periods and negative time periods respectively and marking the positive time periods and the negative time periods as a positive total number and a negative total number;

extracting all the values of the positive time length, marking the values of the positive time length as ZT, and marking the values of the preset auditing time length as BT; substituting preset duration analysis model

Obtaining a time base value QM corresponding to the timing length; wherein lambda is a weight preset coefficient;

summing time base values corresponding to all timing lengths to obtain a time total value, wherein the set time total value, the positive total value and the negative total value are respectively SA1, SB2 and SC3; substituting into a preset analysis model

Obtaining an audit value SX of an audit terminal; wherein, the [ mu ] 1, the [ mu ] 2, the [ mu ] 3, the [ mu ] 4 ] are preset weight duty ratios; and [ mu ] 4>µ1=µ2>µ3；

Transmitting the audit value of the audit terminal to a database for storage;

analyzing the auditing end through an intelligent management module to obtain an auditing value, dividing the index information into parts with the same number as the auditing end, and sequentially sending the index information of the corresponding parts to the corresponding auditing end; the index information is audited and corrected by the staff corresponding to the auditing end, so that the index information is conveniently sent to the corresponding staff for auditing, and the auditing and correcting efficiency of the index information is improved;

the terminal registration module is used for submitting terminal information of the intelligent terminal by hospital staff for registration, sending the terminal information which is successfully registered to a database for storage, and marking the intelligent terminal as an auditing terminal, wherein the terminal information comprises the model number of the intelligent terminal, the terminal communication number, the working life of the hospital staff and the registration duration, and the unit of the working life is year; meanwhile, terminal group value analysis is carried out on the terminal information which is successfully registered, and the terminal group value analysis specifically comprises the following steps:

setting all terminal models to correspond to a preset model value, and matching the model of the intelligent terminal in the terminal information with all terminal models to obtain corresponding preset modelsThe number value is marked as a matching model value; extracting the values of the matching model value, the working year and the registration duration and marking the values as EM1, EM2 and EM3 respectively; substituting the numerical value into a preset analysis model

Obtaining a terminal group value DJ of the auditing terminal; wherein fm1, fm2, fm3 are preset proportionality coefficients; and sending the end group value of the auditing terminal to a database for storage.

The activity publishing module is used for a manager to publish activity information corresponding to each stage, collect activity result information corresponding to the activity information, process the activity result information to obtain activity indexes, and send the activity indexes to the intelligent review module and the database; wherein the activity information includes activity topics, activity summaries, activity goals, activity expectation indicators, activity schedules, activity content records, and the like; the activity subjects comprise national examination performance, smoking banning activities and the like; by taking the national performance score of each department into performance assessment, the most effective improvement of the overall performance is necessarily promoted while competing for higher national performance score.

Referring to fig. 2, the information encryption module is configured to encrypt information of index information stored in the database and set a permission level of a user, where the permission level includes a first-level permission, a second-level permission, a third-level permission, a fourth-level permission and a fifth-level permission; the first-level authority has the maximum authority and is used for checking all encrypted index information; the specific information encryption process comprises the following steps: extracting characters and numbers from the index information, and setting a unique conversion numerical code corresponding to all the characters and the numbers, wherein the conversion numerical code is formed by combining twelve numbers; dividing the conversion numerical code into two groups of conversion numerical codes, setting ten numbers from zero to nine to correspond to one preset color, sequentially matching the two groups of conversion numerical codes with the corresponding preset colors, filling the two groups of conversion numerical codes into color filling areas I of two preset patterns respectively according to the sequence, rotating one of the preset patterns by a certain angle, and overlapping the two preset patterns to obtain an encrypted pattern; the rotation angles include 30 °, 60 °, 90 °, 120 °, 150 °, 180 °, 210 °, 240 °, 270 °, 300 °, and 330 °;

setting all rotation angles to correspond to one preset color, matching a certain angle with all rotation angles to obtain the corresponding preset color, and filling the preset color into a second color filling area corresponding to the encryption pattern; finally, storing the encrypted graph into a database, and generating an index link code corresponding to the encrypted graph; the index information is encrypted through the information encryption module so as to improve the storage information security of the index information.

The query display module is used for a user to query the corresponding integral check list and the corresponding index information, and the specific query process is as follows: acquiring the authority level of the user, decrypting the information encrypted in the integral checking list and the corresponding index information and visually displaying when the authority level of the user is the first-level authority; and when the authority level of the user is the second-level authority or the third-level authority or the fourth-level authority or the fifth-level authority, decrypting and visually displaying the information encrypted in the point checking table and the index information corresponding to the authority level, and displaying the information which is not decrypted by using the index link code.

Example 2

The performance intelligent review implementation method based on the management intelligent technology comprises the following steps:

acquiring indexes stored in advance in a database, deeply analyzing the indexes, decomposing and distributing the indexes to each source responsibility department, data acquisition department and supervision department;

acquiring index information corresponding to each source responsibility department, data acquisition department and supervision department;

the index information is sent to the corresponding auditing end for auditing and correcting, specifically: acquiring auditing terminals registered in a database and the current state of the auditing terminals, and marking the auditing terminals with the current state being working states as to-be-selected terminals; sending an audit request instruction to the to-be-selected terminal, receiving an approval request instruction fed back by the to-be-selected terminal, marking the to-be-selected terminal corresponding to the received approval request instruction as a target terminal, and simultaneously calculating the duration between the sending of the audit request instruction and the receiving of the approval request instruction and marking the duration as the reaction duration of the target terminal; acquiring a terminal group value and an audit value of a target terminal, extracting values of the terminal group value and the audit value, taking the value of the terminal group value as an ellipse major axis, taking a preset length as an ellipse minor axis, constructing an ellipse corresponding to the terminal group value, and marking the ellipse as a terminal group ellipse; selecting the circle center of the end group ellipse, drawing a circle by taking one half of the value of the trial value as the radius, obtaining a circle and marking the circle as the trial circle; selecting the circle center of the trial circle, and drawing the circle with the corresponding value of the reaction duration as the radius to obtain a duration circle; calculating the intersection area of the end group ellipse and the trial circle, and then calculating the area of the long circle; subtracting the area of the long circle from the intersection area to obtain an area difference, extracting the value of the area difference and marking the value as the trial value of the target terminal; marking a target terminal with the audit value larger than or equal to a set threshold value as an audit terminal, counting the number of the audit terminal, dividing the index information into parts which are consistent with the number of the audit terminal, and sequentially transmitting the index information of the corresponding parts to the corresponding audit terminal; after receiving the index information through the auditing end, the staff corresponding to the auditing end carries out auditing correction on the index information;

and extracting performance indexes in the index information after verification and correction, performing performance review to obtain index scores corresponding to departments, summarizing the index scores of all departments to obtain an integral check list, and performing visual display.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (6)

1. The intelligent evaluation system for the hospital performance comprises an index distribution module, a data acquisition module, a database, an intelligent management module, an intelligent evaluation module and a terminal registration module; the method is characterized in that:

the index distribution module is used for acquiring indexes stored in the database in advance, deeply analyzing the indexes, decomposing and distributing the indexes to each source responsibility department, data acquisition department and supervision department, and sending the indexes distributed to each source responsibility department, data acquisition department and supervision department to the data acquisition module;

the data acquisition module is used for acquiring index information corresponding to each source responsibility department, each data acquisition department and each supervision department and sending the index information to the database for storage;

the intelligent management module is used for sending the index information to the corresponding auditing end for auditing and correcting and sending the index information after auditing and correcting to the intelligent review module;

the intelligent evaluation module is used for extracting performance indexes in the index information, performing performance evaluation to obtain index scores corresponding to departments, summarizing the index scores of all departments to obtain score check tables, and sending the score check tables to a database for storage;

the specific process of the intelligent management module sending the index information to the corresponding auditing end is as follows:

acquiring auditing terminals registered in a database and the current state of the auditing terminals, and marking the auditing terminals with the current state being working states as to-be-selected terminals; sending an audit request instruction to the to-be-selected terminal, receiving an approval request instruction fed back by the to-be-selected terminal, marking the to-be-selected terminal corresponding to the received approval request instruction as a target terminal, and simultaneously calculating the duration between the sending of the audit request instruction and the receiving of the approval request instruction and marking the duration as the reaction duration of the target terminal;

acquiring a terminal group value and an audit value of the target terminal; extracting values of the end base value and the trial value, taking the value of the end base value as an ellipse major axis, taking a preset length as an ellipse minor axis, constructing an ellipse corresponding to the end base value, and marking the ellipse as an end base ellipse; selecting the circle center of the end group ellipse, drawing a circle by taking one half of the value of the trial value as the radius, obtaining a circle and marking the circle as the trial circle; selecting the circle center of the trial circle, and drawing the circle with the corresponding value of the reaction duration as the radius to obtain a duration circle; calculating the intersection area of the end group ellipse and the trial circle, and then calculating the area of the long circle; subtracting the area of the long circle from the intersection area to obtain an area difference, extracting the value of the area difference and marking the value as the trial value of the target terminal;

marking a target terminal with the audit value larger than or equal to a set threshold value as an audit terminal, counting the number of the audit terminal, dividing the index information into parts which are consistent with the number of the audit terminal, and sequentially transmitting the index information of the corresponding parts to the corresponding audit terminal; after receiving the index information through the auditing end, the staff corresponding to the auditing end carries out auditing correction on the index information and sends the auditing correction index information to the intelligent management module;

a statistical analysis unit is arranged in the intelligent management module; the statistical analysis unit is used for collecting the first time of receiving the index information by the audit terminal and feeding back the second time of auditing the corrected index information and performing audit efficiency analysis, and the specific analysis process is as follows:

calculating a time difference between the first time and the second time to obtain an audit correction time length, comparing the audit correction time length with a preset time length, and marking the audit correction time length as a positive time length when the audit correction time length is smaller than the preset audit time length; when the auditing correction time length is longer than the preset auditing time length, marking the auditing correction time length as negative time length; counting the number of positive time periods and negative time periods respectively and marking the positive time periods and the negative time periods as a positive total number and a negative total number;

extracting all the values of the positive time length, marking the values of the positive time length as ZT, and marking the values of the preset auditing time length as BT; substituting preset duration analysis model

Obtaining a time base value QM corresponding to the timing length; wherein lambda is a weight preset coefficient;

summing time base values corresponding to all timing lengths to obtain a time total value, wherein the set time total value, the positive total value and the negative total value are respectively SA1, SB2 and SC3; substituting into a preset analysis model

Obtaining an audit value SX of an audit terminal; wherein, the [ mu ] 1, the [ mu ] 2, the [ mu ] 3, the [ mu ] 4 ] are preset weight duty ratios;

transmitting the audit value of the audit terminal to a database for storage;

the terminal registration module is used for submitting terminal information of the intelligent terminal by hospital staff for registration, sending the terminal information which is successfully registered to a database for storage, marking the intelligent terminal as an audit terminal, and simultaneously analyzing terminal group values of the terminal information which is successfully registered, and specifically comprises the following steps:

setting a preset model value corresponding to all terminal models, matching the model of the intelligent terminal in the terminal information with all terminal models to obtain a corresponding preset model value, and marking the corresponding preset model value as a matched model value; extracting the values of the matching model value, the working year and the registration duration and marking the values as EM1, EM2 and EM3 respectively; substituting the numerical value into a preset analysis model

Obtaining a terminal group value DJ of the auditing terminal; wherein fm1, fm2, fm3 are preset proportionality coefficients; and sending the end group value of the auditing terminal to a database for storage.

2. The intelligent review system for hospital performance according to claim 1, further comprising an activity publishing module, wherein the activity publishing module is used for a manager to publish activity information corresponding to each stage and collect activity result information corresponding to the activity information, process the activity result information to obtain activity indexes, and send the activity indexes to the intelligent review module and the database.

3. The intelligent review system for hospital performance according to claim 2, further comprising an information encryption module, wherein the information encryption module is configured to encrypt information of index information stored in the database and set authority levels of the user, and the authority levels include a first level authority, a second level authority, a third level authority, a fourth level authority and a fifth level authority.

4. The intelligent review system for hospital performance according to claim 3, wherein the specific steps of the information encryption module for encrypting the index information are as follows: extracting characters and numbers from the index information, and setting a unique conversion numerical code corresponding to all the characters and the numbers, wherein the conversion numerical code is formed by combining twelve numbers; dividing the conversion numerical code into two groups of conversion numerical codes, setting ten numbers from zero to nine to correspond to one preset color, sequentially matching the two groups of conversion numerical codes to the corresponding preset colors, respectively filling the two groups of conversion numerical codes into a color filling area I of two preset patterns according to the sequence, rotating one of the preset patterns by a certain angle, overlapping the two preset patterns to obtain an encrypted pattern, setting all rotation angles to correspond to one preset color, matching a certain angle with all rotation angles to obtain the corresponding preset color, and filling the preset color into a color filling area II corresponding to the encrypted pattern; and finally, storing the encrypted graph into a database, and generating an index link code corresponding to the encrypted graph.

5. The intelligent review system for hospital performance according to claim 4, further comprising a query display module, wherein the query display module is configured to query the corresponding score check table and the corresponding index information by the user, and the specific query process is as follows: acquiring the authority level of the user, decrypting the information encrypted in the integral checking list and the corresponding index information and visually displaying when the authority level of the user is the first-level authority; and when the authority level of the user is the second-level authority or the third-level authority or the fourth-level authority or the fifth-level authority, decrypting and visually displaying the information encrypted in the point checking table and the index information corresponding to the authority level, and displaying the information which is not decrypted by using the index link code.

6. The performance intelligent review implementation method based on the management intelligent technology is characterized by comprising the following steps of:

s1: acquiring indexes stored in advance in a database, deeply analyzing the indexes, decomposing and distributing the indexes to each source responsibility department, data acquisition department and supervision department;

s2: acquiring index information corresponding to each source responsibility department, data acquisition department and supervision department;

s3: the index information is sent to the corresponding auditing end for auditing and correcting, specifically:

s31: acquiring auditing terminals registered in a database and the current state of the auditing terminals, and marking the auditing terminals with the current state being working states as to-be-selected terminals; sending an audit request instruction to the to-be-selected terminal, receiving an approval request instruction fed back by the to-be-selected terminal, marking the to-be-selected terminal corresponding to the received approval request instruction as a target terminal, and simultaneously calculating the duration between the sending of the audit request instruction and the receiving of the approval request instruction and marking the duration as the reaction duration of the target terminal;

s32: acquiring a terminal group value and an audit value of a target terminal, extracting values of the terminal group value and the audit value, taking the value of the terminal group value as an ellipse major axis, taking a preset length as an ellipse minor axis, constructing an ellipse corresponding to the terminal group value, and marking the ellipse as a terminal group ellipse; selecting the circle center of the end group ellipse, drawing a circle by taking one half of the value of the trial value as the radius, obtaining a circle and marking the circle as the trial circle; selecting the circle center of the trial circle, and drawing the circle with the corresponding value of the reaction duration as the radius to obtain a duration circle; calculating the intersection area of the end group ellipse and the trial circle, and then calculating the area of the long circle; subtracting the area of the long circle from the intersection area to obtain an area difference, extracting the value of the area difference and marking the value as the trial value of the target terminal;

s33: marking a target terminal with the audit value larger than or equal to a set threshold value as an audit terminal, counting the number of the audit terminal, dividing the index information into parts which are consistent with the number of the audit terminal, and sequentially transmitting the index information of the corresponding parts to the corresponding audit terminal; after receiving the index information through the auditing end, the staff corresponding to the auditing end carries out auditing correction on the index information;

s4: extracting performance indexes in the index information after verification and correction, performing performance review to obtain index scores corresponding to departments, summarizing the index scores of all departments to obtain an integral assessment table, and performing visual display;

the specific process of acquiring the end group value and the trial value of the target terminal comprises the following steps:

the method comprises the steps of collecting a first moment when the auditing end receives index information and a second moment when the auditing end feeds back the index information after auditing and correction, and performing auditing effect analysis, wherein the specific analysis process is as follows:

calculating a time difference between the first time and the second time to obtain an audit correction time length, comparing the audit correction time length with a preset time length, and marking the audit correction time length as a positive time length when the audit correction time length is smaller than the preset audit time length; when the auditing correction time length is longer than the preset auditing time length, marking the auditing correction time length as negative time length; counting the number of positive time periods and negative time periods respectively and marking the positive time periods and the negative time periods as a positive total number and a negative total number;

extracting all the values of the positive time length, marking the values of the positive time length as ZT, and marking the values of the preset auditing time length as BT; substituting preset duration analysis model

Obtaining a time base value QM corresponding to the timing length; wherein lambda is a weight preset coefficient;

summing time base values corresponding to all timing lengths to obtain a time total value, wherein the set time total value, the positive total value and the negative total value are respectively SA1, SB2 and SC3; substituting into a preset analysis model

Obtaining an audit value SX of an audit terminal; wherein, the [ mu ] 1, the [ mu ] 2, the [ mu ] 3, the [ mu ] 4 ] are preset weight duty ratios;

terminal group value analysis is carried out on the terminal information which is successfully registered, specifically:

setting a preset model value corresponding to all terminal models, matching the model of the intelligent terminal in the terminal information with all terminal models to obtain a corresponding preset model value, and marking the corresponding preset model value as a matched model value; extracting the values of the matching model value, the working year and the registration duration and marking the values as EM1, EM2 and EM3 respectively; substituting the numerical value into a preset analysis model

Is checked and approvedTerminal end group value DJ; wherein fm1, fm2, fm3 are preset scaling factors. />

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