CN111431978A

CN111431978A - Automatic collection system of instrument

Info

Publication number: CN111431978A
Application number: CN202010186919.XA
Authority: CN
Inventors: 金震; 徐伟; 张宪涛
Original assignee: Beijing SunwayWorld Science and Technology Co Ltd
Current assignee: Beijing SunwayWorld Science and Technology Co Ltd
Priority date: 2020-03-17
Filing date: 2020-03-17
Publication date: 2020-07-17
Anticipated expiration: 2040-03-17
Also published as: CN111431978B

Abstract

The invention provides an instrument automatic acquisition system, wherein an instrument classification module is used for classifying laboratory instruments into serial port automatic instruments, network port automatic instruments and file automatic instruments according to the data acquisition characteristics of the laboratory instruments; the serial port automatic acquisition module is used for connecting the serial port automatic instrument to the data storage module and receiving first necessary data sent by the serial port automatic instrument in real time; the network port automation acquisition module establishes a TCP network according to the IP of the network port automation instrument, and receives second necessary data sent by the network port automation instrument in real time through the data storage module connected with the TCP network; and the file automatic acquisition module carries out structured processing on the result of the file automatic instrument through a preset analysis rule to obtain a structured processing result. The invention reduces the manual comparison and data manual input work, ensures the integrity and accuracy of the data and is convenient for the follow-up tracking and tracing.

Description

Automatic collection system of instrument

Technical Field

The invention relates to the technical field of laboratory data acquisition, in particular to an automatic instrument acquisition system.

Background

At present, in a conventional laboratory management system, a result detected by a detection instrument is generally entered into the laboratory management system in a manual entry mode, or software provided by an instrument supplier is used for reading instrument data and then is manually transferred into the laboratory management system. Traditional data entry mode, different types of equipment all need install different software, has increased the complexity of inspection personnel operation, also need measurement personnel to accomplish a large amount of artifical data simultaneously and compare and type work, also very easily causes the inaccuracy of experimental result data when extravagant manpower resources.

Disclosure of Invention

The invention provides an automatic acquisition system of an instrument, which is used for solving the problems that different types of equipment need to be provided with different software in a data input mode, the operation complexity of inspection personnel is increased, meanwhile, the inspection personnel are required to complete a large amount of manual data comparison and input work, the human resources are wasted, meanwhile, the inaccuracy of experimental result data is easily caused, and the like.

An instrument automated acquisition system, comprising: the system comprises an instrument classification module, a serial port automatic acquisition module, a network port automatic acquisition module, a file automatic acquisition module and a data storage module; wherein the content of the first and second substances,

the instrument classification module is used for classifying laboratory instruments into serial port automation instruments, network port automation instruments and file automation instruments according to data acquisition characteristics of the laboratory instruments;

the serial port automatic acquisition module is used for connecting the serial port automatic instrument to the data storage module through a serial port and receiving first necessary data sent by the serial port automatic instrument in real time;

the internet access automation acquisition module is used for establishing a TCP network through the IP of the internet access automation instrument, and receiving second necessary data sent by the internet access automation instrument in real time through the data storage module connected with the TCP network;

the file automatic acquisition module is used for carrying out structured processing on the result of the file automatic instrument through a preset analysis rule to obtain a structured processing result, storing the structured processing result into the data storage module and receiving third necessary data sent by the file automatic instrument in real time.

As an embodiment of the present invention: the system also comprises a browser module: the user controls the laboratory instrument to automatically acquire data through the browser module;

the browser module includes: the laboratory user confirmation unit, the user information registration unit, the user verification unit and the data acquisition control unit; wherein the content of the first and second substances,

the user information registration unit is used for acquiring a registration request of the laboratory user, acquiring registration information of the laboratory user according to the registration request of the laboratory user, and registering the laboratory user;

the laboratory user confirmation unit is used for presetting a laboratory user name list, comparing the laboratory user information with the laboratory user name list and judging whether the user is the user in the laboratory user name list; when the laboratory user is the user in the laboratory user name list, the laboratory user is determined to be registrable; when the laboratory user is not the user in the laboratory username ticket, the laboratory user is determined to be unregisterable

The user verification unit compares the login information with the registration information when the laboratory user logs in, and verifies whether the logged-in laboratory user is a registered user;

and the data acquisition control unit is used for controlling the port automatic acquisition module, the net port automatic acquisition module and the file automatic acquisition module to acquire data after the laboratory user logs in.

As an embodiment of the present invention: the instrument classification module includes:

instrument numbering module: acquiring the equipment number of the laboratory instrument, and renumbering the laboratory instrument according to the equipment number, the coordinate, the function and the equipment size of the laboratory instrument to acquire the laboratory number of the laboratory instrument;

a numbering instrument feature acquisition module: acquiring instrument information of the laboratory instrument according to the laboratory number, and acquiring the data acquisition characteristic according to the instrument information; wherein the instrument information includes: serial port information, conditional restriction information and report format information;

a classification module: acquiring the serial port automation instrument according to the serial port information; acquiring the network port automation instrument according to the serial port information and the condition restriction information; and acquiring the file automation instrument according to the report format information.

As an embodiment of the present invention: the serial port automatic acquisition module comprises: the system comprises a serial port connection control unit, a serial port data acquisition unit, a necessary data extraction unit of a serial port automation instrument and a serial port real-time control unit; wherein the content of the first and second substances,

the serial port connection control unit is used for extracting data acquisition characteristics of the serial port automation instrument, acquiring serial port information of the serial port automation instrument, and connecting the laboratory instrument with the data storage module according to the serial port information;

the serial port data acquisition unit is used for extracting first result data acquired by the serial port automation instrument after the serial port automation instrument is connected with the data storage module;

the serial port automation instrument essential data extraction unit is used for dividing the first result data into first essential data and first unnecessary data according to the first result data and storing the first essential data into the data storage module;

the serial port real-time control unit is used for controlling the serial port data acquisition unit, acquiring result data of the serial port automation instrument in real time and controlling a necessary data extraction unit of the serial port automation instrument to acquire first necessary data of the serial port automation instrument.

As an embodiment of the present invention: the automatic collection module of net gape includes: the network port connection control unit, the network port data acquisition unit, the network port automation instrument necessary data extraction unit and the network port real-time control module; wherein the content of the first and second substances,

the internet access connection control unit is used for extracting the data acquisition characteristics of the internet access automation instrument, acquiring the IP information of the internet access automation instrument, establishing a TCP network according to the string of IP information, and connecting the TCP network with the data storage module;

the internet access data acquisition unit is used for extracting second result data acquired by the internet access automation instrument according to the TCP network;

the serial port automation instrument essential data extraction unit is used for dividing the result data into second essential data and second unnecessary data according to the second result data and storing the essential data into the data storage module;

and the network port real-time control unit is used for controlling the serial port data acquisition unit, acquiring second result data of the laboratory instrument in real time and controlling the serial port automation instrument necessary data extraction unit to acquire second necessary data of the laboratory instrument.

As an embodiment of the present invention: the automatic file acquisition module comprises: the file connection control unit, the file data acquisition unit, the file automation instrument necessary data extraction unit and the file real-time control unit; wherein the content of the first and second substances,

the file connection control unit is used for extracting the data acquisition characteristics of the file automation instrument, acquiring a database of the file automation instrument, and connecting the database with the data storage module;

the file data acquisition unit is used for extracting third result data acquired by the file automation instrument according to the database;

the analysis extraction unit is used for setting analysis rules for each file automation instrument according to the file automation instruments; screening third necessary data in the third result data according to the analysis rule;

the file real-time control unit is used for controlling the file data acquisition unit to acquire third result data of the file automation instrument in real time and controlling the analysis and extraction unit to acquire third necessary data of the file automation instrument.

As an embodiment of the present invention: the data storage module comprises a cloud data storage center, and a serial database of the serial automatic instrument, a network port database of the network port automatic instrument and a file database of the file automatic instrument are respectively constructed in the cloud data storage center;

storing the first necessary data in the serial port database;

storing the second necessary data in the portal database;

storing the third necessary data in the file database.

As an embodiment of the present invention: the method comprises the following steps of carrying out structured processing on the result of the file automation instrument through a preset analysis rule to obtain a structured processing result:

step 1: performing channel analysis on the result of the file automation instrument to obtain the channel data output quantity of the file automation instrument:

wherein, P is the data volume output by the channel of the file automation instrument; d is an invalid factor of the output data of the file automation instrument; the M is_m(x_i) Represents the x th_i(M) the document automation instrument_mData output of the channel; said x represents data, said Y represents_i(x_i) Representing the total output of data from the ith said document automation instrument;

step 2: extracting the channel data characteristics of the file automation instrument, wherein the data characteristic formula is as follows:

wherein y ═ (1, 2, 3, … … y) denotes the y-th feature, and s (y) denotes the frequency of occurrence of the feature y; s (O) represents a probability; s (Oy) represents the probability of occurrence of the feature y; c represents a number category;

and step 3: and dividing the data with the characteristic y according to the characteristic y by combining a characteristic formula and the channel data output quantity of the file automation instrument, wherein the division result formula is as follows:

wherein K represents the proportion of occurrences of feature y;

and structuring the result of the file automation instrument according to different characteristics through the proportion K of the appearance of the characteristics y in any channel.

Has the advantages that: the instrument acquisition system can directly process the detection data of most detection instruments, can read the data transmitted by the instruments into the laboratory management system in real time, and does not need to carry out operation outside the system.

For serial port collection and network port collection, a user can directly connect a detection instrument in a laboratory management system through one-key connection only by maintaining instrument information, and after connection, the received data can be directly displayed in the system, so that a key result in the data is automatically processed, and the operation is quick.

For file collection, a user specifies the position of a file storage center and sets the analysis rule of an instrument result file; all the subsequent operations are automatically performed by the system, the results are automatically converted into result data, and the result data are automatically entered into the system for storage.

After the instrument is automatically collected, manual comparison and manual data entry work are greatly reduced, the working efficiency of inspectors in a result entry link is improved, the data integrity and accuracy can be guaranteed to the maximum extent, and meanwhile, instrument result files are also saved in the system as accessories, so that the follow-up and tracing in the later period are facilitated.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a system diagram of an automated acquisition system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the system operation of an automated acquisition system of an instrument according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a browser module according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an instrument classification module according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

The system structure diagram of an instrument automatic acquisition system shown in fig. 1 comprises: the system comprises an instrument classification module, a serial port automatic acquisition module, a network port automatic acquisition module, a file automatic acquisition module and a data storage module; wherein the content of the first and second substances,

The principle of the invention is as follows: as shown in the attached figure 2, the invention firstly carries out instrument division according to three modes of instrument data acquisition in a classification mode. The three acquisition modes comprise serial port acquisition, network port acquisition and file acquisition, and three instruments, namely a serial port automation instrument, a network port automation instrument and a file automation instrument, are correspondingly arranged. The instrument data acquisition instruction is issued through terminal equipment, a user computer is illustrated in the drawing, but the instruction issuing equipment comprises various terminal equipment and is not limited to computers. When the file is collected, the collected data is input into the file center and finally stored in the data storage module of the system.

As an embodiment of the present invention, the system further includes a browser module: the user controls the laboratory instrument to automatically acquire data through the browser module;

as shown in fig. 3, the browser module includes: the laboratory user confirmation unit, the user information registration unit, the user verification unit and the data acquisition control unit; wherein the content of the first and second substances,

The principle of the invention is as follows: the automatic acquisition system is controlled by the browser to acquire information; meanwhile, the information of the user is acquired through a user information registration unit of the browser; the laboratory user confirmation unit is used for carrying out registration confirmation and judging whether registration is available or not; judging whether the user is a registered laboratory user or not through a user verification unit; the data acquisition is carried out by an automatic acquisition module, a network port automatic acquisition module and a file automatic acquisition module through a data acquisition control unit.

The invention has the beneficial effects that: the automatic acquisition system is controlled by the browser, the browser can be suitable for various terminal devices which can be connected with a network, and the control is carried out by the browser, so that the control of multiple persons can be realized; the control end is made multiparty as long as the user is a person who has registered as a laboratory user. And the user information registration unit acquires the information of the registered user and realizes the acquisition of the control authority of the control personnel at the control end. Through the laboratory with the user confirm the unit, carry out the judgement for the first time to the registered user according to original laboratory with the user name list, judge whether this user can register, acquire the control authority for the laboratory with the user all be the user that has been approved. And the user authentication unit enables the user to be controlled only after logging in through the comparison of the login information and the registration information after the user is registered, so that the safe use of the laboratory user is further protected. And finally, realizing the unified control of the three types of instruments through acquisition control.

As an embodiment of the present invention, as shown in fig. 4, the instrument classification module includes:

The principle of the invention is as follows: numbering the laboratory instruments according to the coordinates, functions and equipment sizes of the laboratory instruments by an instrument numbering module; acquiring instrument information of the instrument through a numbering instrument characteristic acquisition module: the method comprises the steps of serial port information, condition limiting information and report format information; in particular implementations, however, changes to the instrument information may be made depending on the type of laboratory or the functionality of the laboratory. And the classification module may classify the instrument based on the instrument information.

The invention has the beneficial effects that: instrument numbering can be realized through the instrument numbering module, so that the acquired data and the instruments can be in one-to-one correspondence when the data are acquired; meanwhile, instrument information is acquired through the serial number instrument characteristic acquisition module, so that instruments can be distinguished through the instrument information. The classification module can determine the acquisition mode of the output data of the instrument in the instrument classification mode.

The principle of the invention is as follows: according to the method, in the aspect of acquiring the data of the serial port automation instrument, a laboratory instrument is connected with a data storage module through serial port information, and meanwhile, the serial port automation instrument information and the detection data of the serial port automation instrument are acquired; the necessary data and the unnecessary data are distinguished, so that the data required to be collected can be accurately acquired, and the unnecessary data is collected and is not stored as the necessary data.

The invention has the beneficial effects that: and connecting the data storage module with the serial port automation instrument through serial port information to obtain output data of the serial port automation instrument. By distinguishing the necessary data from the unnecessary data, accurate storage of the required data can be realized.

The principle of the invention is as follows: in the invention, in the acquisition of the data of the network port automation instrument, a laboratory instrument is connected with a data storage module by network port information, and meanwhile, the information of the network port automation instrument and the detection data of the network port automation instrument are acquired; the necessary data and the unnecessary data are distinguished, so that the data required to be collected can be accurately acquired, and the unnecessary data is collected and not stored as the necessary data.

The invention has the beneficial effects that: the data storage module is connected with the internet access automation instrument through the internet access information to obtain output data of the internet access automation instrument, and accurate storage of the internet access demand data can be achieved through distinguishing necessary data from unnecessary data.

The principle of the invention is as follows: the data storage of the file automation instrument of the invention is mainly stored in a database by format files, and for the instruments, format conversion is needed, if a large amount of data needs to be extracted, therefore, in the aspect of data acquisition, different analysis rules need to be set for different instruments to further realize structured processing, and necessary data can be acquired after the structured processing.

The invention has the beneficial effects that: in the file automation instrument, the invention adopts different analysis rules, such as: the instrument which outputs the PDF file can have a format conversion function on the analysis rule; the database stores files, the analysis rules can be provided with data filtering rules, and the graph files can be provided with graph conversion functions. And flexible processing of the data of the file automation instrument is realized. After the structuring processing, the file automation instrument can conveniently acquire necessary data. For unnecessary documents, the structured document can be clearly distinguished and directly discarded by filtering, and a structured conversion process is not necessary.

storing the first necessary data in the serial port database;

storing the second necessary data in the portal database;

storing the third necessary data in the file database.

The principle of the invention is as follows: in this embodiment, the databases are mainly divided, and the necessary data are stored in different databases.

The invention has the beneficial effects that: according to the invention, through establishing different databases, data division in data extraction can be facilitated, and extraction is facilitated. Meanwhile, the classification database storage can clarify the data.

wherein y ═ (1, 2, 3, … … y) denotes the y-th feature, and s (y) denotes the frequency of occurrence of the feature y; s (O) represents a probability; s (O | y) represents the probability of occurrence of the feature y; | c | represents a number category;

wherein K represents the proportion of occurrences of feature y;

and structuring the result of the file automation instrument according to different characteristics through the proportion of the appearance of the characteristics y in any channel.

The file automation instrument of the invention mainly outputs data, so that the data volume which can be output by the channel can be obtained through channel analysis. And then, by extracting the data characteristics of the data transmitted in the channel, respectively calculating the proportion of each characteristic appearing in the channel, and performing structured division, wherein each characteristic is used as a structure, and the information of the corresponding characteristic is stored according to each characteristic, so that the data corresponding to the characteristic can be conveniently distinguished into necessary data and unnecessary data.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. An instrument automated acquisition system, comprising: the system comprises an instrument classification module, a serial port automatic acquisition module, a network port automatic acquisition module, a file automatic acquisition module and a data storage module; wherein the content of the first and second substances,

2. The automated instrument acquisition system of claim 1, further comprising a browser module: the user controls the laboratory instrument to automatically acquire data through the browser module;

the laboratory user confirmation unit is used for presetting a laboratory user name list, comparing the laboratory user information with the laboratory user name list and judging whether the user is the user in the laboratory user name list; when the laboratory user is the user in the laboratory user name list, the laboratory user is determined to be registrable; when the laboratory user is not the user in the laboratory username ticket, determining that registration is impossible;

3. The automated instrument acquisition system of claim 1 wherein the instrument classification module comprises:

a numbering instrument feature acquisition module: acquiring instrument information of the laboratory instrument according to the laboratory number, and acquiring the data acquisition characteristic according to the instrument information; wherein the content of the first and second substances,

the instrument information includes: serial port information, conditional restriction information and report format information;

4. The automated instrument acquisition system of claim 1, wherein the serial port automated acquisition module comprises: the system comprises a serial port connection control unit, a serial port data acquisition unit, a necessary data extraction unit of a serial port automation instrument and a serial port real-time control unit; wherein the content of the first and second substances,

5. The automated instrument acquisition system of claim 1, wherein the portal automated acquisition module comprises: the network port connection control unit, the network port data acquisition unit, the network port automation instrument necessary data extraction unit and the network port real-time control unit; wherein the content of the first and second substances,

the internet access connection control unit is used for extracting the data acquisition characteristics of the internet access automation instrument, acquiring the IP information of the internet access automation instrument, establishing a TCP network according to the IP information, and connecting the TCP network with the data storage module;

6. The automated instrument acquisition system of claim 1, wherein the automated document acquisition module comprises: the file connection control unit, the file data acquisition unit, the file automation instrument necessary data extraction unit and the file real-time control unit; wherein the content of the first and second substances,

7. The automated instrument acquisition system of claim 1, wherein the data storage module comprises a cloud data storage center, and a serial database of the serial automated instrument, a portal database of the portal automated instrument and a file database of the file automated instrument are respectively constructed in the cloud data storage center;

storing the first necessary data in the serial port database;

storing the second necessary data in the portal database;

storing the third necessary data in the file database.

8. The automated instrument acquisition system of claim 1, wherein the step of structuring the result of the document automation instrument according to a preset parsing rule to obtain a structured processing result comprises the steps of:

wherein, P is the data volume output by the channel of the file automation instrument; d is an invalid factor of the output data of the file automation instrument; the M is_m(x_i) Represents the x th_iAn instituteDocument automation instrument M_mData output of the channel; said x represents data, said Y represents_i(x_i) Representing the total output of data from the ith said document automation instrument;

wherein K represents the proportion of occurrences of feature y;