CN110930099A - Scientific instrument connection management library - Google Patents
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- CN110930099A CN110930099A CN201911281618.9A CN201911281618A CN110930099A CN 110930099 A CN110930099 A CN 110930099A CN 201911281618 A CN201911281618 A CN 201911281618A CN 110930099 A CN110930099 A CN 110930099A
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- 238000012360 testing method Methods 0.000 claims abstract description 67
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Abstract
The invention provides a scientific instrument connection management library which is respectively in data connection with a plurality of scientific instruments and comprises a test acquisition unit for acquiring instrument types, users, test duration and test times of each scientific instrument and a data analysis unit which is connected with the test acquisition unit and used for analyzing the instrument types, the users, the test duration and the test data of all the scientific instruments; the data analysis unit comprises a frequency analysis module and a demand analysis module, wherein the frequency analysis module is connected with the test acquisition unit to calculate the use frequency of each user for different instrument types according to the test times of the users of all instrument types in different time periods, and the demand analysis module is connected with the frequency analysis module to analyze the demand conditions of different instrument types according to the use frequency of all users for different instrument types. The invention solves the problems that the instrument supply is less and can not meet the requirement and the supply is more and wastes resources due to the inconvenience of understanding the requirement of the scientific instrument.
Description
Technical Field
The invention relates to the technical field of instrument management, in particular to a scientific instrument connection management library.
Background
The management of scientific instruments used by scientific researchers is usually in a registration mode, so that the use times of the scientific instruments are recorded, and the management work of the personnel is facilitated. However, since the demands for different scientific instruments may change as the research project progresses, the scientific instruments are often in insufficient or excessive quantities. When the quantity of scientific instruments is not enough, the use requirements of scientific research personnel can not be met, so that the research and development of scientific research projects are delayed, and huge economic and labor losses are caused. The scientific instruments are more than or not used for a long time, so that the faults and waste of the scientific instruments are caused, and the expenditure on equipment maintenance is wasted. In order to avoid the above serious consequences, there is a need for a scientific instrument connection management library that can further enhance the management of the usage requirements for scientific instruments.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides a scientific instrument connection management library, which solves the problems of insufficient supply and high maintenance cost of scientific instruments caused by incapability of paying attention to the change of the use requirements of the scientific instruments and is convenient for analyzing the change of the use requirements of all the scientific instruments.
In order to achieve the purpose, the invention adopts the following technical scheme:
a scientific instrument connection management library is respectively in data connection with a plurality of scientific instruments and comprises a test acquisition unit and a data analysis unit, wherein the test acquisition unit is used for acquiring instrument types, users, test duration and test times of all scientific instruments; the data analysis unit comprises a frequency analysis module and a demand analysis module, wherein the frequency analysis module is connected with the test acquisition unit to calculate the use frequency of each user for different instrument types according to the test times of the users of all instrument types in different time periods, and the demand analysis module is connected with the frequency analysis module to analyze the demand conditions of different instrument types according to the use frequency of all users for different instrument types.
In some embodiments of the invention, the data analysis unit comprises an instrument management module connected with each scientific instrument data and used for managing the use condition of all scientific instruments, and an instrument transaction module connected with the management module; the instrument transaction module is connected with the data acquisition unit and the demand analysis module respectively so as to select to buy or sell instrument transaction modules of different instrument types according to the use condition and the demand condition of scientific instruments of different instrument types.
In some embodiments of the present invention, the instrument management module includes a recording module for recording the number of scientific instruments of different instrument types, and the numbers and warehousing times of all the scientific instruments; the instrument transaction module is connected with the recording module so as to select the serial numbers corresponding to the sold scientific instruments according to the quantity of the scientific instruments of different instrument types, the serial numbers of all the scientific instruments and the warehousing time.
In some embodiments of the invention, the test acquisition unit comprises a timing module for inputting the loan time and the return time of each scientific instrument and calculating the difference to obtain the test duration; the timing module calculates the test times of each test instrument according to the input times of the lending time and the returning time of each scientific instrument; the frequency analysis module is connected with the timing module to obtain different time periods.
In some embodiments of the invention, the test acquisition unit comprises a times module for inputting the instrument type, user and number of tests for each surgical instrument to derive the number of uses of each user for different instrument types; the frequency analysis module is connected with the frequency module to obtain the use frequency of each user for different instrument types.
In some embodiments of the invention, the frequency analysis module comprises a duration module for calculating an average usage duration of each instrument category for each user based on usage frequencies of each instrument category for all users at different time periods; the time length module is connected with the test acquisition unit to judge whether the test time length of each user on different instrument types exceeds the average use time length of each user on different instrument types; the demand analysis module is connected with the duration module.
In some embodiments of the invention, the device further comprises a data storage unit for storing test data of all scientific instruments; the data storage unit is respectively connected with a plurality of scientific instruments.
In some embodiments of the present invention, the requirement analysis module is connected with the data storage unit to analyze the requirement condition of different scientific instruments according to the test data of all scientific instruments.
Compared with the prior art, the invention has at least the following beneficial effects: the invention realizes the management function of the use of a plurality of scientific instruments by respectively connecting with the data of the plurality of scientific instruments; the test acquisition unit is used for acquiring the instrument types, users, test duration and test times of all scientific instruments, so that the purpose of monitoring the use of the instruments by the users is achieved; analyzing each item of data of the test acquisition unit through the data analysis unit to obtain the use times of all users on each instrument type in different time periods, so as to obtain the use frequency of all users on each instrument type in different time periods; and be connected with the data analysis unit through demand analysis module, obtained all users to the demand condition of the kind of different instruments, and then can advance to purchase the scientific instrument that the demand is high at any time or handle unnecessary scientific instrument, avoid appearing the scientific instrument and can not satisfy scientific research personnel's user demand, lead to delaying research and development of scientific research project, cause the problem of economic and manpower huge loss to and avoided causing the trouble and the extravagant problem of scientific instrument because the supply volume of each instrument kind is too much.
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FIG. 1 is a schematic diagram of the scientific instrument connection management library of the present invention.
Detailed Description
The technical solution of the present invention is further explained with reference to the drawings and the embodiments.
As shown in fig. 1, the present invention provides a scientific instrument connection management library, which is applied to data connection with a plurality of scientific instruments respectively, and includes a test acquisition unit and a data analysis unit connected with the test acquisition unit.
The scientific instrument management library is connected with the electronic server for checking and using, the number of the scientific instruments is at least two, and the scientific instrument management library is in data connection with the scientific instruments in a wireless network mode through the electronic server. The different time periods refer to specific time periods selected over time that include the current time.
In detail, the test acquisition unit is used for acquiring the instrument types, users, test duration and test times of various scientific instruments.
In detail, the data analysis unit comprises a frequency analysis module and a demand analysis module. The frequency analysis module is connected with the test acquisition unit to acquire the instrument types, users, test duration and test times of all scientific instruments, and the test times of all the scientific instruments of different instrument types of each user in different time periods are acquired to calculate the use frequency of each instrument type of each user. The demand analysis module is connected with the frequency analysis module to acquire the use frequency of each user for scientific instruments of different instrument types in different time periods, and the demand of the scientific instruments of different instrument types is judged according to the size of the use frequency.
Further, the data analysis unit comprises an instrument management module and an instrument transaction module.
In detail, the instrument management module obtains whether each scientific instrument is currently in use or not in a data connection mode with each scientific instrument, and can also directly obtain the use conditions of all scientific instruments in a signal connection mode with each scientific instrument or a manual input mode through an input end of the electronic server. The instrument transaction module is connected with the instrument management module to acquire the service conditions of the scientific instruments, and the instrument transaction module is connected with the data acquisition unit to acquire the instrument types of the scientific instruments so as to acquire the service conditions of the instrument types. The instrument transaction module is connected with the requirement analysis module to obtain the requirement condition of each instrument, the use condition of each instrument type is combined to judge whether the scientific instruments of different instrument types need to be purchased or sold, and the instrument types of the corresponding scientific instruments needing to be sold or purchased are selected.
Further, the instrument management module comprises a recording module.
In detail, the recording module is used for recording the number of the scientific instruments of different instrument types, the serial numbers of all the scientific instruments and the warehousing time. The instrument transaction module is connected with the recording module to select the quantity of the scientific instruments to be purchased and sold based on the quantity of the scientific instruments of different instrument types, and the instrument transaction module also selects the sold scientific instruments based on the warehousing time of the scientific instruments corresponding to each serial number, so that the scientific instruments can be updated in time.
Further, the test acquisition unit comprises a timing module.
In detail, the timing module is used for inputting borrowing time and returning time of each scientific instrument through the input end of the electronic server and calculating a difference value to obtain test duration. And the timing module also calculates all test times of the test instrument according to the input times of the borrowing time and the returning time cycle of each scientific instrument, and the frequency analysis module is connected with the timing module to obtain different time periods, so that the frequency table analysis module can calculate the use frequency of each scientific instrument for a user conveniently.
Further, the test acquisition unit comprises a time module.
In detail, the times module is used for inputting the instrument types, users and test times of various scientific instruments so as to obtain the use times of various users on different instrument types. The frequency analysis module is connected with the frequency module to obtain the use frequency of each user for different instrument types, so that the use frequency of each user for each instrument type in different time periods is calculated.
Further, the frequency analysis module comprises a duration module.
In detail, the duration module is used for calculating the average usage duration of each instrument type for each user according to the usage frequency of each instrument type for all users in different time periods. For example, if all users of the test device were three for one of the device types within a month and the frequency of use was 1 month for 3 times, 10 times, and 20 times, respectively, then the average duration of use for each device type per user would be the sum of the three monthly use times divided by 3, i.e., 11. The duration module is connected with the test acquisition unit to judge whether the test duration of each user on different instrument types exceeds the average use duration of each user on different instrument types. The demand analysis module is connected with the duration module and used for canceling the purchase of the corresponding instrument or reducing the purchase quantity of the corresponding scientific instrument when the average usage duration is exceeded, namely the user uses the instrument overtime.
Furthermore, the scientific instrument connection management library also comprises a data storage unit.
In detail, the data storage unit is respectively connected with a plurality of scientific instrument data to store the test data of all scientific instruments.
Furthermore, the requirement analysis module is connected with the data storage unit to analyze the requirement conditions of different scientific instruments according to the test data of all the scientific instruments.
In detail, the requirement condition of different scientific instruments can be judged according to the test data size or completeness of all scientific instruments.
The requirement condition of the scientific instruments of different instrument types is judged by the user according to the use frequency of the different instrument types, the requirements of all the users on the different instrument types are convenient to master, the scientific instruments of the corresponding instrument types are purchased or sold according to the requirements, the problem that the scientific instruments are too much or too little in supply is avoided, and the management efficiency of the scientific instruments is improved.
Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.
Claims (8)
1. A scientific instrument connection management library is respectively connected with a plurality of scientific instrument data and is characterized by comprising a test acquisition unit for acquiring the instrument types, users, test duration and test times of each scientific instrument and a data analysis unit connected with the test acquisition unit for analyzing the instrument types, users, test duration and test data of all scientific instruments; the data analysis unit comprises a frequency analysis module and a demand analysis module, wherein the frequency analysis module is connected with the test acquisition unit to calculate the use frequency of each user for different instrument types according to the test times of the users of all instrument types in different time periods, and the demand analysis module is connected with the frequency analysis module to analyze the demand conditions of different instrument types according to the use frequency of all users for different instrument types.
2. A scientific instrument connection management library as claimed in claim 1 wherein: the data analysis unit comprises an instrument management module and an instrument transaction module, wherein the instrument management module is connected with various scientific instruments in a data mode and is used for managing the use conditions of all scientific instruments; the instrument transaction module is connected with the data acquisition unit and the demand analysis module respectively so as to select to buy or sell instrument transaction modules of different instrument types according to the use condition and the demand condition of scientific instruments of different instrument types.
3. A scientific instrument connection management library as claimed in claim 2, wherein: the instrument management module comprises a recording module for recording the number of scientific instruments of different instrument types, the serial numbers of all the scientific instruments and the warehousing time; the instrument transaction module is connected with the recording module so as to select the serial numbers corresponding to the sold scientific instruments according to the quantity of the scientific instruments of different instrument types, the serial numbers of all the scientific instruments and the warehousing time.
4. A scientific instrument connection management library as claimed in claim 1 wherein: the test acquisition unit comprises a timing module used for inputting the lending time and the returning time of each scientific instrument and calculating the difference value to obtain the test duration; the timing module calculates the test times of each test instrument according to the input times of the lending time and the returning time of each scientific instrument; the frequency analysis module is connected with the timing module to obtain different time periods.
5. A scientific instrument connection management library according to claim 4, wherein: the test acquisition unit comprises a frequency module for inputting the instrument types, users and test times of various scientific instruments so as to obtain the use times of various users on different instrument types; the frequency analysis module is connected with the frequency module to obtain the use frequency of each user for different instrument types.
6. A scientific instrument connection management library as claimed in claim 1 wherein: the frequency analysis module comprises a duration module used for calculating the average duration of use of each instrument type by each user according to the use frequency of each instrument type by all users at different time periods; the time length module is connected with the test acquisition unit to judge whether the test time length of each user on different instrument types exceeds the average use time length of each user on different instrument types; the demand analysis module is connected with the duration module.
7. A scientific instrument connection management library as claimed in claim 1 wherein: the device also comprises a data storage unit for storing test data of all scientific instruments; the data storage unit is respectively connected with a plurality of scientific instruments.
8. A scientific instrument connection management library as claimed in claim 1 wherein: the requirement analysis module is connected with the data storage unit so as to analyze the requirement conditions of different scientific instruments according to the test data of all the scientific instruments.
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