CN115841868B - Disinfection supply management system and method based on high-speed information communication and industrial interconnection - Google Patents

Abstract

The invention relates to the technical field of disinfection supply management, in particular to a disinfection supply management system and method based on high-speed information communication and industrial interconnection, comprising the following steps: the system comprises a data acquisition module, a disinfection supply tracking module, a data management center, a supply data analysis module and a disinfection supply management module, wherein the data acquisition module is used for acquiring disinfection article historical supply data, the disinfection supply tracking module is used for identifying and tracking disinfection articles, the data management center is used for storing and managing data, the supply data analysis module is used for predicting the time for completing article disinfection in a supply place of the same supply center, the disinfection supply management module is used for analyzing the resource adaptation degree of the supply place and a place needing disinfection article supply, the supply place with the highest adaptation degree is selected for completing article supply work, and the man-machine material law ring information of each link of article disinfection in the disinfection supply place is timely transmitted, so that the disinfection supply management level and the sensing control standard are improved, and the circulation efficiency and the service quality of disinfection supply service are improved.

Description

Disinfection supply management system and method based on high-speed information communication and industrial interconnection

Technical Field

The invention relates to the technical field of disinfection supply management, in particular to a disinfection supply management system and method based on high-speed information communication and industrial interconnection.

Background

The disinfection supply center is a professional organization for providing disinfection supply service for reuse instruments and appliances of the organization, the disinfection supply work is an important link of disinfection and sterilization, and the monitoring management of the cleaning, disinfection and sterilization quality and process of disinfection supply articles is one of important measures for preventing and controlling infection, thus being a foundation for guaranteeing medical quality and safety;

However, existing disinfection supply management approaches still have some problems: firstly, the existing disinfection supply whole-flow information cannot be traced, and data self-flow cannot be realized; secondly, the number of the existing medical institutions is large, the distribution is wide, the difficulty in daily disinfection supply supervision is large, the effective configuration and optimization of disinfection supply resources cannot be timely carried out in the prior art, the places needing to obtain disinfection supply cannot be helped, the speed of receiving the supplied disinfection articles is even increased in time, and real-time supervision and management of article disinfection supply conditions cannot be realized.

Therefore, there is a need for a disinfection supply management system and method based on high speed information communication and industrial interconnection to solve the above problems.

Disclosure of Invention

The present invention is directed to a disinfection supply management system and method based on high-speed information communication and industrial interconnection, so as to solve the problems set forth in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: a disinfection supply management system based on high-speed information communication and industrial interconnection, said system comprising: the system comprises a data acquisition module, a disinfection supply tracking module, a data management center, a supply data analysis module and a disinfection supply management module;

The output ends of the data acquisition module and the disinfection supply tracking module are connected with the input end of the data management center, the output end of the data management center is connected with the input end of the supply data analysis module, and the output end of the supply data analysis module is connected with the input end of the disinfection supply management module;

The data acquisition module is used for acquiring historical supply data and supply place data of the sterilized articles and transmitting all acquired data to the data management center;

the disinfection supply tracking module is used for identifying and tracking disinfection articles;

the data management center is used for storing and managing all collected data;

the supply data analysis module is used for predicting the time for completing the disinfection of the articles at different supply places of the same supply center;

The disinfection supply management module is used for analyzing the resource adaptation degree of the supply place and the place needing disinfection article supply, and selecting the supply place with the highest adaptation degree to finish article supply work.

Further, the data acquisition module comprises a position information acquisition unit and a supply information acquisition unit;

The output ends of the position information acquisition unit and the supply information acquisition unit are connected with the input end of the data management center;

the position information acquisition unit is used for acquiring position information of a supply place of the same disinfection supply center and position information of a supply place of an article to be disinfected;

the supply information acquisition unit is used for acquiring time progress information of different disinfection supply fields for supplying disinfection articles.

Further, the disinfection supply tracking module comprises an article identification unit and a disinfection schedule acquisition unit;

The output end of the article identification unit is connected with the input end of the disinfection schedule acquisition unit, and the output end of the disinfection schedule acquisition unit is connected with the input end of the data management center;

The article identification unit is used for identifying articles to be sterilized by utilizing an RFID technology, tracking the circulation condition of the articles in real time, identifying the identification information of the sterilized articles to be supplied by utilizing the RFID technology, and effectively realizing quality control and traceability management of the whole process of sterilizing the articles;

the disinfection schedule acquisition unit is used for acquiring the time schedule data of the current different supply places for disinfecting the objects required by the clients.

Further, the supply data analysis module comprises a trace information retrieving unit and a disinfection completion prediction unit;

The input end of the tracking information calling unit is connected with the output end of the data management center, and the output end of the tracking information calling unit is connected with the input end of the disinfection completion prediction unit;

the tracking information retrieving unit is used for retrieving time schedule information of different disinfection supply fields for supplying disinfection articles and tracked time schedule data of the articles required by the clients currently from the data management center;

The disinfection completion prediction unit is used for predicting the time of different disinfection supply places for completing corresponding object disinfection work according to the time schedule information.

Further, the disinfection supply management module comprises a resource adaptation analysis unit, a supply place selection unit and a data transmission unit;

The input end of the resource adaptation analysis unit is connected with the output end of the disinfection completion prediction unit, the output end of the resource adaptation analysis unit is connected with the input end of the supply place selection unit, and the output end of the supply place selection unit is connected with the input end of the data transmission unit;

the resource adaptation analysis unit is used for analyzing the position information of the supply places and places needing to be supplied with the sterilized articles and analyzing the resource adaptation degree of different supply places and places needing to be supplied with the sterilized articles;

The supply place selecting unit is used for comparing the resource adaptation degree of different supply places and places needing to be supplied with sterilized articles, and selecting the supply place with the highest adaptation degree as the corresponding place to supply the sterilized articles;

The data transmission unit is used for transmitting the article information supplied by the supply place with the highest adaptation degree to the client through a high-speed information communication technology, realizing informatization, networking and intellectualization of the disinfection supply service through the high-speed information communication and an industrial internet technology, transmitting the supply information in time, being beneficial to realizing high-efficiency integration of a medical disinfection supply service platform with a certain scale and a certain area and constructing output of a new production form of a disinfection and sterilization technology service complex.

A disinfection supply management method based on high-speed information communication and industrial interconnection, comprising the steps of:

S01: collecting historical supply data and supply place data of the sterilized articles;

s02: identifying and tracking the sterilized article;

s03: predicting the time for completing the disinfection of the articles at different supply places of the same supply center;

s04: analyzing the resource adaptation degree of a supply place and a place where the sterilized articles are required to be supplied;

S05: comparing the adaptation degree, and selecting the supply place with the highest adaptation degree to finish the article supply work.

Further, in step S01: collecting the path information from different supply sites of the same disinfection supply center to the sites where the articles to be disinfected are currently supplied, collecting n disinfection supply sites in the disinfection supply center, and collecting a random one supply site so that a sequence set of interval time length from the time of receiving the information of the articles to be disinfected to the time of completing the article disinfection is the same={/>，/>，…，/>The number of the finished sterilized articles is the same, the articles are sterilized articles which need to be supplied at the current place, and m represents the number of times of supplying corresponding articles at one supply place at random;

in step S02: identifying the current articles to be sterilized by using an RFID technology, and tracking the circulation information of the articles in real time: the time interval from the time of acquiring the article supply information sent to the random one supply place from the place needing to be sterilized to the current time is T _f.

Further, in step S03: forming an interval duration accumulation generating sequence as={/>，/>，…，(Where)/(J=1, 2, …, m, let/>For/>Is a sequence of immediate mean generation,/>={/>，/>，…，/>}，/>Constructing a data matrix X and a data vector Y: /(I)，/>The remaining duration a _f required for the corresponding supply location to currently complete the sterilization of the corresponding item is predicted according to the following formula:

；

Wherein, ，/>Indicating the predicted total time length required by the corresponding supply place to finish the disinfection of the corresponding articles currently, wherein x indicates the number of developed ashes, y indicates the number of endogenous control ashes,/>The method is characterized in that the time length set required by the corresponding object sterilization at present is A= { A ₁,A₂,…,A_f,…,A_n }, the time required by different supply sites for completing the same quantity of sterilized object supply is different, the large data technology is utilized to collect the sterilized object supply historical data, the time required by the sterilized object supply work at different supply sites belonging to the same sterilized supply center at present is predicted according to the historical data, the reference data is provided for selecting the best supply site to supply sterilized object, the longer the predicted time is, the slower the corresponding supply site completes the sterilized object supply work is, the supply site with relatively short time is selected to provide the sterilized supply service, and the mechanism which needs the object can receive the sterilized object more timely to perform the next work.

Further, in step S04: the method comprises the steps of calling path information from different supply places of the same disinfection supply center to a place needing to be disinfected object supply at present, obtaining a path set from the disinfection supply place to the place needing to be disinfected object supply at present as d= { d ₁,d₂,…,d_f,…,d_n }, and calculating resource adaptation degree W _f of one supply place and the place needing to be disinfected object supply according to the following formula:

；

D _f represents the distance from one supply place to the place where the sterilized articles are required to be supplied, the set of the resource adaptation degree of the supply place and the place where the sterilized articles are required to be supplied is W= { W ₁,W₂,…,W_f,…,W_n }, the sterilized articles are required to be transported, and the path parameters are added when judging the resource adaptation degree of the supply place and the place where the sterilized articles are required, so that the accuracy of the judgment result of the resource adaptation degree is improved, and the time for receiving the articles in the corresponding place is further shortened.

Further, in step S05: comparing the resource adaptation degree, screening a supply place with the highest resource adaptation degree with a place where the sterilized articles are required to be supplied, selecting a corresponding supply place to supply the sterilized articles, and transmitting the article information supplied by the supply place with the highest adaptation degree to the client through a high-speed information communication technology.

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

The RFID technology identifies the articles to be sterilized, tracks the circulation condition of the articles in real time, and combines the high-speed information communication technology to timely transmit the man-machine material method ring information of each link of article sterilization in a sterilization supply place, thereby improving the sterilization supply management level and the sensing control standard, improving the circulation efficiency and the service quality of sterilization supply service, and effectively realizing the quality control and the traceability management of the whole process of article sterilization; the method comprises the steps of collecting disinfection article supply historical data through a big data technology, predicting time required by completing disinfection supply work at different current supply places according to the historical data, judging resource adaptation degree of the supply places and places required by articles according to the predicted time, adding path parameters when judging the resource adaptation degree of the supply places and the places required by the disinfection articles, improving accuracy of a resource adaptation degree judgment result, selecting a supply place with the highest resource adaptation degree to provide disinfection supply service, further shortening time for receiving the articles at the corresponding place, timely performing effective configuration and optimization of disinfection supply resources, helping the places required to obtain disinfection supply timely and even accelerating speed of receiving the supplied disinfection articles.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a block diagram of a disinfection supply management system of the present invention based on high speed information communication and industrial interconnection;

fig. 2 is a flow chart of a disinfection supply management method based on high-speed information communication and industrial interconnection of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

The invention is further described below with reference to fig. 1-2 and the specific embodiments.

Embodiment one:

As shown in fig. 1, the present embodiment provides a disinfection supply management system based on high-speed information communication and industrial interconnection, the system comprising: the system comprises a data acquisition module, a disinfection supply tracking module, a data management center, a supply data analysis module and a disinfection supply management module;

the output ends of the data acquisition module and the disinfection supply tracking module are connected with the input end of the data management center, the output end of the data management center is connected with the input end of the supply data analysis module, and the output end of the supply data analysis module is connected with the input end of the disinfection supply management module;

The data acquisition module is used for acquiring historical supply data and supply place data of the sterilized articles and transmitting all acquired data to the data management center;

The disinfection supply tracking module is used for identifying and tracking the disinfection articles;

the data management center is used for storing and managing all collected data;

the supply data analysis module is used for predicting the time for completing the disinfection of the articles at different supply places of the same supply center;

the disinfection supply management module is used for analyzing the resource adaptation degree of the supply place and the place needing disinfection article supply, and selecting the supply place with the highest adaptation degree to finish article supply work.

The data acquisition module comprises a position information acquisition unit and a supply information acquisition unit;

the output ends of the position information acquisition unit and the supply information acquisition unit are connected with the input end of the data management center;

The position information acquisition unit is used for acquiring position information of a supply place of the same disinfection supply center and position information of a supply place of an article to be disinfected;

the supply information acquisition unit is used for acquiring time schedule information of different disinfection supply fields for supplying disinfection articles.

The disinfection supply tracking module comprises an article identification unit and a disinfection progress acquisition unit;

The output end of the article identification unit is connected with the input end of the disinfection schedule acquisition unit, and the output end of the disinfection schedule acquisition unit is connected with the input end of the data management center;

The article identification unit is used for identifying articles to be sterilized by utilizing an RFID technology and tracking the circulation condition of the articles in real time;

The disinfection schedule acquisition unit is used for acquiring the time schedule data of the current different supply places for disinfecting the objects required by the clients.

The supply data analysis module comprises a tracking information retrieval unit and a disinfection completion prediction unit;

The input end of the tracking information calling unit is connected with the output end of the data management center, and the output end of the tracking information calling unit is connected with the input end of the disinfection completion prediction unit;

The tracking information retrieving unit is used for retrieving the time schedule information of different disinfection supply fields for supplying disinfection articles and the tracked time schedule data for disinfecting the articles required by the clients currently from the data management center;

The disinfection completion prediction unit is used for predicting the time of the corresponding object disinfection work completed by different disinfection supply places according to the time schedule information.

The disinfection supply management module comprises a resource adaptation analysis unit, a supply place selection unit and a data transmission unit;

the input end of the resource adaptation analysis unit is connected with the output end of the disinfection completion prediction unit, the output end of the resource adaptation analysis unit is connected with the input end of the supply place selection unit, and the output end of the supply place selection unit is connected with the input end of the data transmission unit;

The resource adaptation analysis unit is used for analyzing the position information of the supply places and places needing to be supplied with the sterilized articles and analyzing the resource adaptation degree of different supply places and places needing to be supplied with the sterilized articles;

The supply place selecting unit is used for comparing the resource adaptation degree of different supply places and places where the sterilized articles are required to be supplied, and selecting the supply place with the highest adaptation degree as the corresponding place for supplying the sterilized articles;

The data transmission unit is used for transmitting data through high-speed information communication technology, such as: the 5G internet transmits the article information supplied by the supply place with the highest adaptation degree to the client, wherein the article information refers to the man-machine material law ring information of various links of article sterilization of the sterilization supply place, and the man-machine material law ring information refers to the personnel, equipment, raw materials, processing methods and environmental parameters.

Embodiment two:

As shown in fig. 2, the present embodiment provides a disinfection supply management method based on high-speed information communication and industrial interconnection, which is implemented based on a management system in the embodiment, and specifically includes the following steps:

S01: collecting historical supply data and supply place data of sterilized articles, collecting path information from different supply places of the same sterilizing supply center to places where sterilized articles are required to be supplied currently, collecting n sterilizing supply places in the sterilizing supply center, collecting a random supply place so that a time interval time length sequence set from receiving the information of the sterilized articles to completing the sterilization of the articles is as follows ={/>，/>，/>} = {8, 12, 10}, In units of: hours;

S02: identifying and tracking sterilized articles, identifying the articles which need to be sterilized currently by utilizing an RFID technology, and tracking the circulation information of the articles in real time: the time interval from the time of acquiring the article supply information sent to the random one supply place to the current time at the place needing to be sterilized is T _f =1, and the unit is: hours;

s03: predicting the time for completing the disinfection of the articles in different supply places of the same supply center, and forming an interval duration accumulation generating sequence as follows ={/>，/>，/>} = {8, 20, 30}, Where/>Let/>Is thatIs a sequence of immediate mean generation,/>={/>，/>}={14，25}，Constructing a data matrix X and a data vector Y:，/>，/> according to the formula/> Predicting the duration A _f which is approximately equal to 4 and is needed by the corresponding supply place to finish the corresponding article disinfection residual, and predicting the duration set which is needed by different supply places to finish the corresponding article disinfection residual is A= { A ₁,A₂,A₃ } = {4,5,6};

s04: analyzing the resource adaptation degree of a supply place and a place needing to be supplied with the sterilized articles, calling the path information from different supply places of the same sterilizing supply center to the place needing to be supplied with the sterilized articles at present, and acquiring the path set from the sterilizing supply place to the place needing to be supplied with the sterilized articles at present as d= { d ₁,d₂,d₃ } = {100, 120, 130}, wherein the units are as follows: km, according to the formula Calculating the resource adaptation degree W _f apprxeq 1.8 of a random supply place and a place needing to be supplied with the sterilized articles, and obtaining a resource adaptation degree set of the supply place and the place needing to be supplied with the sterilized articles as W= { W ₁,W₂,W₃ } = {1.8,1.5,1.3};

S05: comparing the adaptation degree, selecting a supply place with the highest adaptation degree to finish the article supply work, and comparing the resource adaptation degree: w ₁> W₂> W₃, screening a supply place with highest resource adaptation degree with a place where the sterilized articles are required to be supplied: and selecting a supply place corresponding to W ₁, selecting a supply place corresponding to W ₁ to supply sterilized articles, and transmitting article information supplied by the supply place with the highest adaptation degree to the client through a high-speed information communication technology.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The disinfection supply management method based on high-speed information communication and industrial interconnection is characterized by comprising the following steps of: the method comprises the following steps:

S01: collecting historical supply data and supply place data of the sterilized articles;

s02: identifying and tracking the sterilized article;

s03: predicting the time for completing the disinfection of the articles at different supply places of the same supply center;

s04: analyzing the resource adaptation degree of a supply place and a place where the sterilized articles are required to be supplied;

s05: comparing the adaptation degree, and selecting a supply place with the highest adaptation degree to finish the article supply work;

In step S01: collecting the path information from different supply sites of the same disinfection supply center to the sites where the articles to be disinfected are currently supplied, collecting n disinfection supply sites in the disinfection supply center, and collecting a random one supply site so that a sequence set of interval time length from the time of receiving the information of the articles to be disinfected to the time of completing the article disinfection is the same ={/>，/>，…，/>-Said articles being sterile articles to be supplied at the current location, m representing the number of times corresponding articles are supplied at a random one of the supply locations;

In step S02: identifying the current articles to be sterilized by using an RFID technology, and tracking the circulation information of the articles in real time: acquiring the interval duration from the time of transmitting the article supply information to a random one of the supply places to the current time at the place where the article needs to be sterilized is obtained as T _f;

In step S03: forming an interval duration accumulation generating sequence as ={/>，/>，…，/>And } wherein,J=1, 2, …, m, let/>For/>Is a sequence of immediate mean generation,/>={/>，，…，/>}，/>Constructing a data matrix X and a data vector Y:，/> The remaining duration a _f required for the corresponding supply location to currently complete the sterilization of the corresponding item is predicted according to the following formula:

；

Wherein, ，/>Indicating the predicted total time length required by the corresponding supply place to finish the disinfection of the corresponding articles currently, x indicates the number of developed ashes, y indicates the number of endogenous control ashes,Predicting and obtaining a time length set A= { A ₁,A₂,…,A_f,…,A_n } which is needed by different supply places to complete corresponding object disinfection currently in the same mode;

in step S04: the method comprises the steps of calling path information from different supply places of the same disinfection supply center to a place needing to be disinfected object supply at present, obtaining a path set from the disinfection supply place to the place needing to be disinfected object supply at present as d= { d ₁,d₂,…,d_f,…,d_n }, and calculating resource adaptation degree W _f of one supply place and the place needing to be disinfected object supply according to the following formula:

；

Wherein d _f represents the distance from one supply place to the place where the sterilized article is required to be supplied, and the set of resource adaptation degrees of the supply place and the place where the sterilized article is required to be supplied is obtained as W= { W ₁,W₂,…,W_f,…,W_n };

in step S05: comparing the resource adaptation degree, screening a supply place with the highest resource adaptation degree with a place where the sterilized articles are required to be supplied, selecting a corresponding supply place to supply the sterilized articles, and transmitting the article information supplied by the supply place with the highest adaptation degree to the client through a high-speed information communication technology.

2. The disinfection supply management system based on high-speed information communication and industrial interconnection is applied to the disinfection supply management method based on high-speed information communication and industrial interconnection as claimed in claim 1, and is characterized in that: the system comprises: the system comprises a data acquisition module, a disinfection supply tracking module, a data management center, a supply data analysis module and a disinfection supply management module;

The output ends of the data acquisition module and the disinfection supply tracking module are connected with the input end of the data management center, the output end of the data management center is connected with the input end of the supply data analysis module, and the output end of the supply data analysis module is connected with the input end of the disinfection supply management module;

The data acquisition module is used for acquiring historical supply data and supply place data of the sterilized articles and transmitting all acquired data to the data management center;

the disinfection supply tracking module is used for identifying and tracking disinfection articles;

the data management center is used for storing and managing all collected data;

the supply data analysis module is used for predicting the time for completing the disinfection of the articles at different supply places of the same supply center;

The disinfection supply management module is used for analyzing the resource adaptation degree of the supply place and the place needing disinfection article supply, and selecting the supply place with the highest adaptation degree to finish article supply work.

3. A high-speed information communication and industrial interconnection-based disinfection supply management system according to claim 2, wherein: the data acquisition module comprises a position information acquisition unit and a supply information acquisition unit;

The output ends of the position information acquisition unit and the supply information acquisition unit are connected with the input end of the data management center;

The position information acquisition unit is used for acquiring position information of a supply place of the same disinfection supply center and position information of a place where the disinfection articles are required to be supplied;

the supply information acquisition unit is used for acquiring time progress information of different disinfection supply fields for supplying disinfection articles.

4. A high-speed information communication and industrial interconnection-based disinfection supply management system according to claim 2, wherein: the disinfection supply tracking module comprises an article identification unit and a disinfection progress collection unit;

The output end of the article identification unit is connected with the input end of the disinfection schedule acquisition unit, and the output end of the disinfection schedule acquisition unit is connected with the input end of the data management center;

The article identification unit is used for identifying articles to be sterilized by utilizing an RFID technology and tracking the circulation condition of the articles in real time;

the disinfection schedule acquisition unit is used for acquiring the time schedule data of the current different supply places for disinfecting the objects required by the clients.

5. A high-speed information communication and industrial interconnection-based disinfection supply management system according to claim 2, wherein: the supply data analysis module comprises a tracking information retrieval unit and a disinfection completion prediction unit;

The input end of the tracking information calling unit is connected with the output end of the data management center, and the output end of the tracking information calling unit is connected with the input end of the disinfection completion prediction unit;

the tracking information retrieving unit is used for retrieving time schedule information of different disinfection supply fields for supplying disinfection articles and tracked time schedule data of the articles required by the clients currently from the data management center;

The disinfection completion prediction unit is used for predicting the time of different disinfection supply places for completing corresponding object disinfection work according to the time schedule information.

6. A high-speed information communication and industrial interconnection based disinfection supply management system according to claim 5, wherein: the disinfection supply management module comprises a resource adaptation analysis unit, a supply place selection unit and a data transmission unit;

The input end of the resource adaptation analysis unit is connected with the output end of the disinfection completion prediction unit, the output end of the resource adaptation analysis unit is connected with the input end of the supply place selection unit, and the output end of the supply place selection unit is connected with the input end of the data transmission unit;

the resource adaptation analysis unit is used for analyzing the position information of the supply places and places needing to be supplied with the sterilized articles and analyzing the resource adaptation degree of different supply places and places needing to be supplied with the sterilized articles;

The supply place selecting unit is used for comparing the resource adaptation degree of different supply places and places needing to be supplied with sterilized articles, and selecting the supply place with the highest adaptation degree as the corresponding place to supply the sterilized articles;

the data transmission unit is used for transmitting the article information supplied by the supply place with the highest adaptation degree to the client through a high-speed information communication technology.