CN113990473A - Medical equipment operation and maintenance information collecting and analyzing system and using method thereof - Google Patents
Medical equipment operation and maintenance information collecting and analyzing system and using method thereof Download PDFInfo
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Abstract
The invention relates to a medical equipment operation and maintenance information collecting and analyzing system and a using method thereof, belonging to the technical field of medical equipment operation and maintenance.
Description
Technical Field
The invention relates to the field of operation and maintenance of medical equipment, in particular to a medical equipment operation and maintenance information collecting and analyzing system and a using method thereof.
Background
In a traditional operation and maintenance mode of medical equipment, an operation and maintenance manager regularly inspects the medical equipment, records various information of the medical equipment, including operation and maintenance personnel information, equipment parameters, fault conditions and other conditions needing to be recorded in an operation and maintenance information table made of paper, and the operation and maintenance information table is edited into a book and placed in a special document management place.
In recent years, medical institutions have become larger in scale, more and more medical devices are managed by the medical institutions, the management difficulty is increased, the more difficult and more suitable the traditional way of collecting medical device data by means of paper is to meet the needs of operation and maintenance of medical devices, the medical institutions have turned to use an operation and maintenance management way based on informatization, and operation and maintenance data of medical devices can be directly stored in a database through the operation and maintenance way of the informatization medical devices for relevant personnel to perform various processing and analysis.
However, the operation and maintenance data collection and analysis of new and old medical devices are still in the handover period, although the new medical devices provide various interfaces and transmission protocols to support the operation and maintenance data collection and analysis, many old medical devices still in use lack relevant support, and the proportion of medical devices is also quite large, and for the proportion of medical devices, the traditional operation and maintenance method relying on paper records has to be adopted to collect the operation and maintenance data.
The granularity of the existing medical equipment operation and maintenance data is very small, and the existing medical equipment operation and maintenance data is stored in a database in a structured form. In addition, most data are stored in the paper document, the data in the paper document often exist in a natural language form and are unstructured, and in order to fully mine the value of the operation and maintenance data of the medical equipment and improve the operation and maintenance efficiency of the medical equipment, the operation and maintenance data of the medical equipment stored in the paper document needs to be structured so as to be fused in an existing operation and maintenance database.
Disclosure of Invention
In view of the problems in the management of the operation and maintenance data of the medical equipment, there is a need to design a new operation and maintenance method and system for the medical equipment, which provides an algorithm for collecting and structuring the operation and maintenance data of the medical equipment recorded in paper so as to be merged into the existing operation and maintenance database of the medical equipment, and uses a BI tool to automatically process and analyze the data, thereby realizing the uniform analysis and management of the operation and maintenance data of the medical equipment.
The application provides a medical equipment operation and maintenance information collection analysis system, the system includes:
the data extraction unit extracts the operation and maintenance data of the medical equipment according to the following steps:
acquiring fields in an existing medical equipment operation and maintenance database, vectorizing the fields, and acquiring field vectors k representing the fieldsj;
Collecting paper document picture information, and extracting character information in the picture;
processing the extracted character information to obtain the processed character information, wherein the processing comprises punctuation removal and stop words;
extracting the entity of the processed text information, vectorizing the entity to obtain the vector w representing the entityi;
The data processing unit is used for processing the operation and maintenance data of the medical equipment according to the following steps: inputting the entity vector into a trained LSTM network to obtain the front and back hidden state vectors of the entityAnd
acquiring a first information vector upsilon of an entity according to front and back hidden state vectors of the entityi;
obtaining second information of the entity according to the first information vectorVector Vi;
for the second information vector and the field vector kjFusing to obtain a third information vector of the entity;
the third information vector is obtained according to the following formula: GVi+kj;
Decoding the third information vector by using a SOFTMAX decoder to obtain field distribution probability corresponding to the third information vector;
wherein, P, Q, omega and G are the trained weight matrix, b is the trained offset vector, I is the unit matrix, and T is the number of the field vectors;
distributing probability P according to the corresponding field of the third information vectori,jAcquiring a field corresponding to the entity, specifically: determining the field corresponding to the ith entity as pi,jThe field corresponding to the maximum time;
inserting the entity into a database according to the field corresponding to the entity;
the report generation unit generates a data report according to the following steps:
importing the data in the database into a BI engine, and automatically generating an analysis report of the operation and maintenance data of the medical equipment;
the BI engine is Tableau Desktop;
a medical equipment operation and maintenance information collection and analysis method comprises the following steps:
acquiring fields in an existing medical equipment operation and maintenance database, vectorizing the fields, and acquiring field vectors k representing the fieldsj;
Collecting paper document picture information, and extracting character information in the picture;
processing the extracted character information to obtain the processed character information, wherein the processing comprises punctuation removal and stop words;
extracting the entity of the processed text information, vectorizing the entity to obtain the vector w representing the entityi;
Inputting the entity vector into a trained LSTM network to obtain the front and back hidden state vectors of the entityAnd
obtaining a first information vector v of an entity according to front and back hidden state vectors of the entityi;
obtaining a second information vector V of the entity according to the first information vectori;
for the second information vector and the field vector kjFusing to obtain a third information vector of the entity;
the third information vector is obtained according to the following formula: GVi+kj;
Decoding the third information vector by using a decoder to obtain the field distribution probability corresponding to the third information vector;
wherein, P, Q, omega are the trained weight matrix, G is the trained coefficient matrix, b is the trained offset vector, I is the unit matrix, and T is the number of the field vectors;
according to the field distribution probability p corresponding to the third information vectori,jAcquiring a field corresponding to the entity, specifically: determining the field corresponding to the ith entity as pi,jThe field corresponding to the maximum time;
inserting the entity into a database according to the field corresponding to the entity;
importing the data in the database into a BI engine, and automatically generating an analysis report of the operation and maintenance data of the medical equipment;
the BI engine is Tableau Desktop;
drawings
FIG. 1 is a block diagram of a medical equipment operation and maintenance information collecting and analyzing system according to an embodiment of the present application;
fig. 2 is a medical device operation and maintenance information database in an embodiment of the present application;
Detailed Description
In order to make the invention clearer, the invention is further explained below with reference to the drawings and examples. It is to be understood that the description herein is for purposes of illustration only and is not intended to limit the invention to the particular forms disclosed.
The operation and maintenance data of the medical equipment recorded on the paper often exist in a natural language form, and in order to manage and analyze the data in a structured form, the data needs to be extracted and analyzed. The system and the method aim at solving the problem that the existing medical equipment operation and maintenance data are recorded in a paper document in a large quantity and need to be extracted into a database.
The system provided by the application performs the following steps:
as shown in fig. 2, the following fields exist in the operation and maintenance database of the medical device in the present application: maintence _ date, maintence _ person, maintence _ device _ id, maintence _ device _ name, maintence _ device _ status, maintence _ device _ error _ code, maintence _ device _ error _ info;
vectorizing the field to obtain a field vector k representing the fieldjJ denotes a few fields, e.g. k1Vector representation, k, representing the first field maintence _ date2A vector representation representing a second field maintence _ person;
for example, the operation and maintenance information in the paper document is: "3/23/2021", Li Star test omitted the NMR instrument with the equipment number 37545, and the remote transfer was good. ";
collecting paper document pictures;
the character information of 3 months and 23 days in 2021 in the picture is extracted, and the nuclear magnetic resonance spectrometer with the equipment number of 37545 is saved in Lixing detection, so that the remote transfer condition is good. ";
processing the extracted character information to obtain processed character information, wherein the processing comprises punctuation removal and stop words, and the obtained processed character information is that the long-distance rotation condition of a nuclear magnetic resonance instrument with the equipment number of 37545 is good in Lexing test at 3 months and 23 days in 2021;
and performing entity extraction on the processed text information to obtain an entity: 23/3/2021, lixing, 37545, nmr, good;
vectorizing the entity to obtain a vector w representing the entityi;
Inputting the entity vector into a trained LSTM network to obtain the front and back hidden state vectors of the entity
Obtaining a first information vector v of an entity according to front and back hidden state vectors of the entityi;
obtaining a second information vector V of the entity according to the first information vectori;
for the second information vector and the field vector kjFusing to obtain a third information vector of the entity;
the third information vector is obtained according to the following formula: GVi+kj;
Circularly decoding the third information vector by using a decoder to obtain the field distribution probability corresponding to the third information vector;
wherein P, Q, ω are the trained weight matrix, G is the trained coefficient matrix, b is the trained bias vector, I is the identity matrix, T is the number of field vectors, in this example 7;
according to the field distribution probability p corresponding to the third information vectori,jAcquiring a field corresponding to the entity, specifically: determining the field corresponding to the ith entity as pi,jThe field corresponding to the maximum time;
according to the steps, a field corresponding to '3/23/2021' is maintence _ date, 'a field corresponding to Lixing' is maintence _ person, 'a field corresponding to 37545' is maintence _ device _ id, 'a field corresponding to a nuclear magnetic resonance instrument' is maintence _ device _ name, 'a field corresponding to good' is maintence _ device _ status;
inserting the entity into a database according to the field corresponding to the entity, specifically using the following SQ L statement: INSERT INTO DeviceMaintance (maintence _ date, maintence _ person, maintence _ device _ id, maintence _ device _ name, maintence _ devi ce _ status) VALUES ("3/23/2021", "Lixing", "37545", "NMR", "good")
Importing data in DeviceMaintenance into a BI engine, and automatically generating an analysis report of medical equipment operation and maintenance data;
the BI engine is Tableau Desktop.
Claims (6)
1. A medical device operation and maintenance information collection and analysis system, the system comprising:
the data extraction unit extracts the operation and maintenance data of the medical equipment according to the following steps:
acquiring fields in an existing medical equipment operation and maintenance database, vectorizing the fields, and acquiring field vectors k representing the fieldsj;
Collecting paper document picture information, and extracting character information in the picture;
processing the extracted character information to obtain the processed character information, wherein the processing comprises punctuation removal and stop words;
extracting the entity of the processed text information, vectorizing the entity to obtain the vector w representing the entityi;
The data processing unit is used for processing the operation and maintenance data of the medical equipment according to the following steps: inputting the entity vector into a trained LSTM network to obtain the front and back hidden state vectors of the entityAnd
obtaining a first information vector v of an entity according to front and back hidden state vectors of the entityi;
Obtaining a second information vector V of the entity according to the first information vectori;
For the second information vector and the field vector kjFusing to obtain a third information vector of the entity;
decoding the third information vector by using a decoder to obtain the field distribution probability corresponding to the third information vector;
acquiring a field corresponding to the entity according to the field distribution probability corresponding to the third information vector;
inserting the entity into a database according to the field corresponding to the entity;
the report generation unit is used for generating a data report, wherein the report field is a field in the operation and maintenance database of the existing medical equipment;
and importing the data in the database into a BI engine, and automatically generating an analysis report of the operation and maintenance data of the medical equipment.
2. The medical device operation and maintenance information collection and analysis system of claim 1, wherein: the first information vector is calculated according to the following formula:the second information vector is calculated according to the following formula:the pair of second information vector and field vector kjFusing to obtain the third information vector of the entity with a specific formula of GVi+kjWhere P, Q, ω are the weight matrices that have been trained, b is the bias vectors that have been trained, and I is the identity matrix.
3. The medical device operation and maintenance information collection and analysis system of claim 2, wherein: the decoder is specifically:pi,jfor the field corresponding to the determined third information vectorProbabilities are assigned, where G is the coefficient matrix that has been trained and T is the number of fields.
4. The medical device operation and maintenance information collection and analysis system of claim 3, wherein: the field corresponding to the obtained entity is determined to be p according to the field distribution probability corresponding to the third information vectori,jThe field to which it corresponds when maximum.
5. The medical device operation and maintenance information collection and analysis system of claim 4, wherein: the BI engine is Tableau Desktop.
6. A medical equipment operation and maintenance information collection and analysis method comprises the following steps:
acquiring fields in an existing medical equipment operation and maintenance database, vectorizing the fields, and acquiring field vectors k representing the fieldsj;
Collecting paper document picture information, and extracting character information in the picture;
processing the extracted character information to obtain the processed character information, wherein the processing comprises punctuation removal and stop words;
extracting the entity of the processed text information, vectorizing the entity to obtain the vector w representing the entityi;
Inputting the entity vector into a trained LSTM network to obtain the front and back hidden state vectors of the entityAnd
obtaining a first information vector v of an entity according to front and back hidden state vectors of the entityi;
acquiring a second information vector Vi of the entity according to the first information vector;
for the second information vector and the field vector kjFusing to obtain a third information vector of the entity;
the third information vector is obtained according to the following formula: GVi+kj;
Decoding the third information vector by using a decoder to obtain the field distribution probability corresponding to the third information vector;
in the above formulas, P, Q, ω, and G are the trained weight matrices, b is the trained offset vector, I is the identity matrix, and T is the number of field vectors;
according to the field distribution probability p corresponding to the third information vectori,jAcquiring a field corresponding to the entity, specifically: determining that a field corresponding to an entity is pi,jThe field corresponding to the maximum time;
inserting the entity into a database according to the field corresponding to the entity;
importing the data in the database into a BI engine, and automatically generating an analysis report of the operation and maintenance data of the medical equipment;
the BI engine is Tableau Desktop.
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