CN117056419A - Laboratory detection data sharing system based on local area network - Google Patents
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Abstract
The invention discloses a laboratory detection data sharing system based on a local area network, which comprises: the plurality of data acquisition modules are in one-to-one correspondence connection with a plurality of digital experimental devices in the laboratory and are used for acquiring detection data of the digital experimental devices; each data acquisition module sends detection data to the shared service platform; the plurality of using terminals are connected with the shared service platform and are used for sending experimental project information to the shared service platform; the sharing service platform establishes a project data table according to the experimental project information uploaded by each using terminal; after the shared service platform receives the detection data, updating the corresponding project data table; and each time the table in the project data is updated, the sharing service platform sends updating information to the corresponding using terminal until the project data table is updated. The technical problem that in the prior art, each participant of an experiment item is difficult to accurately and rapidly acquire the completion condition of each detection data item of the experiment item is solved.
Description
Technical Field
The invention relates to the technical field of laboratory data sharing, in particular to a laboratory detection data sharing system based on a local area network.
Background
Each test item in the laboratory comprises a plurality of items of test data, and various digital test equipment is required for acquiring the plurality of items of test data.
And more than one experiment item is carried out in the laboratory at the same time, and different degrees of conflict phenomenon exist in the use of different test equipment among all the experiment items. Queuing and detecting the digital experimental equipment according to the time of submitting the detection application of each experimental project; the queuing conditions of different test equipment lead to the difficulty in simultaneously obtaining all detection data of an experiment item, and the difficulty in accurately and rapidly obtaining the completion condition of all detection data items of the experiment item by all participants of the experiment item.
Disclosure of Invention
The invention aims to provide a laboratory detection data sharing system and system based on a local area network, which solve the technical problem that in the prior art, each participant of an experiment item is difficult to accurately and rapidly acquire the completion condition of each detection data item of the experiment item.
The invention provides a laboratory detection data sharing system based on a local area network, which comprises:
the system comprises a plurality of data acquisition modules, a plurality of using terminals and a shared service platform;
the plurality of data acquisition modules are in one-to-one correspondence connection with a plurality of digital experimental devices in the laboratory and are used for acquiring detection data of the digital experimental devices; each data acquisition module sends detection data to the shared service platform;
the plurality of using terminals are connected with the shared service platform and are used for sending experimental project information to the shared service platform, and each piece of experimental project information comprises at least one piece of request information for detecting the data item;
the sharing service platform establishes a project data table according to the experimental project information uploaded by each using terminal;
after the shared service platform receives the detection data, updating the corresponding project data table; and each time the table in the project data is updated, the sharing service platform sends updating information to the corresponding using terminal until the project data table is updated.
Further, each data acquisition module also acquires task data of the digital experimental equipment in real time and uploads the task data to the shared service platform; the shared service platform confirms the completion time of each project data form based on the task data of the plurality of data acquisition modules, comprising:
acquiring all non-updated detection data items in the item data table;
validating a plurality of digital experimental devices based on all of the non-updated detection data items;
task data of the plurality of digital experimental devices are obtained, and queuing data of each detection data item are confirmed;
acquiring the update time of the detection data item based on the queuing data of the detection data item;
and taking the updating time of the finally completed detection data item as the completion time of the project data table.
Further, the method further comprises the following steps: when any detection data item in a project data table is updated, the sharing service platform acquires the completion time of the project data table and updates the project data table; the completion time marks are arranged at preset positions of the project data table, so that the user terminal can inquire and acquire the project data table after logging in the sharing service platform;
after the shared service platform updates the completion time, comparing the current completion time with the initial completion time to obtain project progress; and when the project progress is advanced and the advanced time is longer than the first set time, or the project progress is delayed and the delayed time exceeds the second set time, sending a reminding message to the corresponding using terminal.
Further, the sharing service platform establishes a project data table according to the experimental project information uploaded by the using terminal, and the method comprises the following steps:
based on all the detection data items in the experimental project information, the sharing service platform acquires a history table with the same number of the detection data items and the maximum number of the detection data items from a plurality of pre-stored history tables as a basic table;
different detection data items in the basic table and experimental project information are acquired;
and deleting different detection data items in the basic table, and supplementing each different detection data item in the experimental project information to a corresponding position in the basic table to generate a project data table.
Further, supplementing different detection data items in the experimental project information to corresponding positions in the basic table comprises:
acquiring relative position information of different detection data items and at least one same detection data item in a plurality of history tables comprising different detection data items;
based on the position information of the same detection data item and the relative position information of different monitoring data items in the basic table, corresponding positions of different data items in the basic table are confirmed.
Further, the method further comprises the following steps: information transmission is carried out among a plurality of using terminals through logging in a shared service platform; when information is transferred between any two using terminals, the shared service platform records the information transfer path and the information transfer content.
Further, when the terminal is used for logging in the shared service platform, the shared service platform uses the terminal for identity verification, and the terminal is allowed to be used for information transfer after the identity verification is passed.
Further, the method further comprises the following steps: after the sharing service platform establishes a project data form according to the experimental project information uploaded by the using terminal, the sharing service platform sends the project data form to the corresponding using terminal for confirmation of the using terminal;
the user terminal modifies or confirms the project data form within a set period;
when the user terminal does not confirm or modify the project data form within the set period, the sharing service platform automatically confirms the project data form at the end of the set period.
Further, the method further comprises the following steps: when the project data table is finished to be updated, checking each detection data item in the project data table comprises the following steps: comparing the detection data in each detection data item with the original detection data uploaded by the corresponding data acquisition module to obtain a comparison result;
and when the comparison result of each detection data item in the item data table is correct, checking is passed.
Further, the experimental project information also comprises identity information of a plurality of using terminals participating in the experimental project and experimental rights corresponding to each using terminal;
after the sharing service platform verifies the project data table, the project data table is divided into a plurality of project data sub-tables according to the experimental authority of each user terminal, and the project data sub-tables are correspondingly transmitted to the user terminals one by one.
Compared with the prior art, the invention has the beneficial effects that:
the invention is connected with a plurality of digital experimental devices in a one-to-one correspondence manner by arranging a plurality of data acquisition modules, and the digital experimental devices generate detection data and then acquire the detection data by the data acquisition modules; timely sending the data to a sharing service platform; and after receiving the detection data, the sharing service platform updates the corresponding project data form and sends the update information to the corresponding using terminal so that a client using the terminal can know the progress condition of the current project data form in time. The sharing service platform receives the experimental project information of the user terminal to establish the corresponding project data form, so that a user does not need to establish the project data form in addition to upload the project data form to the sharing service platform, and manpower and time for completing the project data form are saved. The technical problem that in the prior art, each participant of an experiment item is difficult to accurately and rapidly acquire the completion condition of each detection data item of the experiment item is solved.
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Fig. 1 is a schematic diagram of the present invention.
Detailed Description
As shown in fig. 1, a laboratory test data sharing system based on a local area network, the system comprising:
the system comprises a plurality of data acquisition modules, a plurality of using terminals and a shared service platform;
the plurality of data acquisition modules are in one-to-one correspondence connection with a plurality of digital experimental devices in the laboratory and are used for acquiring detection data of the digital experimental devices; each data acquisition module sends detection data to the shared service platform;
the plurality of using terminals are connected with the shared service platform and are used for sending experimental project information to the shared service platform, and each piece of experimental project information comprises at least one piece of request information for detecting the data item;
the sharing service platform establishes a project data table according to the experimental project information uploaded by each using terminal;
after the shared service platform receives the detection data, updating the corresponding project data table; and each time the table in the project data is updated, the sharing service platform sends updating information to the corresponding using terminal until the project data table is updated.
The implementation process of the embodiment comprises the following steps:
in the embodiment, a plurality of data acquisition modules are arranged to be in one-to-one correspondence with a plurality of digital experimental devices, and the digital experimental devices generate detection data and then acquire the detection data by the data acquisition modules; timely sending the data to a sharing service platform; and after receiving the detection data, the sharing service platform updates the corresponding project data form and sends the update information to the corresponding using terminal so that a client using the terminal can know the progress condition of the current project data form in time. The sharing service platform receives the experimental project information of the user terminal to establish the corresponding project data form, so that a user does not need to establish the project data form in addition to upload the project data form to the sharing service platform, and manpower and time for completing the project data form are saved. The technical problem that in the prior art, each participant of an experiment item is difficult to accurately and rapidly acquire the completion condition of each detection data item of the experiment item is solved.
It should be noted that, in this embodiment, the data acquisition module, the digital experiment device, the shared service platform and the user terminal are all disposed under the same lan. Information can be transferred among a plurality of using terminals; in this embodiment, information is transferred between a plurality of user terminals by logging in a shared service platform; when information is transferred between any two using terminals, the shared service platform records the information transfer path and the information transfer content.
In this embodiment, when the user terminal logs in the shared service platform, the shared service platform uses the terminal to perform identity authentication, and after the identity authentication is passed, the user terminal is allowed to perform information transfer. The identity verification mode at least comprises one of fingerprint verification, password verification, face verification and identity card verification. The use terminal comprises: desktop computers, notebook computers, tablet computers, and smart phones; the user terminal can only send or receive information after connecting with the set LAN.
Each piece of experimental project information is provided with a unique project code; each detection data item is marked with a corresponding item code at a corresponding digital experimental device; after corresponding detection data are generated, the digital experimental equipment automatically codes the detection data marking items and is collected by the data collection module. The method comprises the steps that when experimental project information is sent to a shared service platform by a terminal, a material to be detected needs to be submitted to corresponding digital experimental equipment, and the material to be detected is marked with a project number during the submitting, wherein the project number comprises at least one of a bar code, a two-dimensional code and a digital code; a code scanning device can be arranged at the digital experimental device; registering the material to be detected by scanning the item code through the code scanning equipment and acquiring a detection data item to be detected; errors of detected data items of the material to be detected and errors of uploading of the detected data can be avoided.
In another embodiment of the present invention, each data acquisition module further acquires task data of the digital experimental device in real time and uploads the task data to the shared service platform; the shared service platform confirms the completion time of each project data form based on the task data of the plurality of data acquisition modules, comprising:
acquiring all non-updated detection data items in the item data table;
validating a plurality of digital experimental devices based on all of the non-updated detection data items;
task data of the plurality of digital experimental devices are obtained, and queuing data of each detection data item are confirmed;
acquiring the update time of the detection data item based on the queuing data of the detection data item;
and taking the updating time of the finally completed detection data item as the completion time of the project data table.
The implementation process of the embodiment comprises the following steps:
each digital experimental device registers materials to be detected submitted to the digital experimental device according to the sequence of the submitting time to generate task data of the digital experimental device, wherein the task data comprises project numbers and detection data items; in this embodiment, the same digital experimental device may perform an experiment for detecting at least one item of data; a material to be inspected is subjected to at least one test of the test data item at the digital test device.
It should be noted that, in this embodiment, when the update time of the item data table is one of the detected data items, the method includes: when any detection data item in a project data table is updated, the sharing service platform acquires the completion time of the project data table and updates the project data table; the completion time marks are arranged at preset positions of the project data table, so that the user terminal can inquire and acquire the project data table after logging in the sharing service platform;
after the shared service platform updates the completion time, comparing the current completion time with the initial completion time to obtain project progress; the initial completion time is calculated when the project data table is built; and when the project progress is advanced and the advanced time is longer than the first set time, or the project progress is delayed and the delayed time exceeds the second set time, sending a reminding message to the corresponding using terminal.
In this embodiment, the time difference between the current completion time and the initial completion time of the project schedule is set; when the time difference is positive, the project progress is indicated to be delayed, and the delay time is the absolute value of the time difference; when the time difference is negative, describing project progress advance, wherein the advance time is the absolute value of the time difference; when the time difference is zero, it is stated that the project progress is neither advanced nor retarded. When the project progress advanced time is greater than the first set time or the project progress delayed time exceeds the second set time, a reminding message is sent to the corresponding using terminal; the method can help the participants of the experiment project to know the progress more timely; thereby facilitating the arrangement of the work content of the user. The first set time of this embodiment is 24 hours; the second set time was 24 hours.
The detection time of each data detection item can be obtained through big data analysis, and the completion time of each data detection item can be obtained through digitizing task data of experimental equipment. However, the actual detection time of each item of data detection at the digital experimental facility is not fixed, and may be advanced, may be delayed, or may be neither advanced nor delayed. When task data at the digital experimental equipment is updated, the data acquisition module acquires the completion time of each detection data item, and when the completion time of one detection data item is advanced or delayed; and sending the updated completion time to the shared service platform. The method can enable the participants of the experimental project to acquire the specific completion time of the project data table more accurately.
In another embodiment of the present invention, the sharing service platform establishes a project data table according to experimental project information uploaded by the user terminal, including:
based on all the detection data items in the experimental project information, the sharing service platform acquires a history table with the same number of the detection data items and the maximum number of the detection data items from a plurality of pre-stored history tables as a basic table;
different detection data items in the basic table and experimental project information are acquired;
and deleting different detection data items in the basic table, and supplementing each different detection data item in the experimental project information to a corresponding position in the basic table to generate a project data table.
The implementation process of the embodiment comprises the following steps:
the method comprises the steps that a plurality of historical tables of experimental projects are prestored in a shared service platform, and the historical table with the maximum detection data items the same as the experimental project information is obtained to serve as a basic table; the change of the basic table is as small as possible, and then different detection data items in the basic table and experimental project information are acquired; and deleting different detection data items in the basic table, and reserving the same detection data items in the basic table.
In addition, for different detection data items in the experimental project information, the detection data items should be supplemented to corresponding positions of the basic table; comprising the following steps:
acquiring relative position information of different detection data items and at least one same detection data item in a plurality of history tables comprising different detection data items; the different detection data items are different detection data items in the experimental project information;
based on the position information of the same detection data item and the relative position information of different monitoring data items in the basic table, corresponding positions of different data items in the basic table are confirmed.
By analyzing the relative positions of different detection data items and at least one same detection data item in the history table, the current project data table can be more standard, and time waste caused by readjustment of participants of experimental projects is avoided.
It should be noted that, when the created item data table exists in the experimental item information uploaded by the user terminal, the sharing service platform directly calls the item data table without establishing a new item data table,
another embodiment of the present invention further comprises: after the sharing service platform establishes a project data form according to the experimental project information uploaded by the using terminal, the sharing service platform sends the project data form to the corresponding using terminal for confirmation of the using terminal;
the user terminal modifies or confirms the project data form within a set period;
when the user terminal does not confirm or modify the project data form within the set period, the sharing service platform automatically confirms the project data form at the end of the set period.
The implementation process of the embodiment comprises the following steps:
after the project data forms are completed, the project data forms are sent to the corresponding using terminals for confirmation, and the using terminals can modify the project data forms established by the sharing service platform according to the requirements of experimental projects, so that the project data forms established by the sharing service platform are prevented from being inconsistent with the requirements. Setting a set period to prompt the user terminal to modify and confirm the project data form in time; a great deal of time is saved, and the delay of the completion time of the final project data form caused by forgetting or untimely confirmation of the using terminal is avoided. In this example, the set period is 24 hours. The detection data obtained in the set period is temporarily filled in the item data table to be confirmed, and the item data table is updated after confirmation.
Another embodiment of the present invention further comprises: when the project data table is finished to be updated, checking each detection data item in the project data table comprises the following steps: comparing the detection data in each detection data item with the original detection data uploaded by the corresponding data acquisition module to obtain a comparison result;
and when the comparison result of each detection data item in the item data table is correct, checking is passed.
The implementation process of the embodiment comprises the following steps:
in this embodiment, after the project data table is updated, each item of detection data item in the project data table is checked, so that each item of detection data in the project data table can be ensured to be more accurate. And the analysis result is prevented from being influenced by the error of the detection data.
It should be noted that, in this embodiment, the experimental project information further includes identity information of a plurality of use terminals participating in the experimental project, and experimental rights corresponding to each use terminal; one experimental project comprises a plurality of participators and even a plurality of participators; each participant or department is responsible for a portion of the entire experimental project; it has experimental rights to view only a portion of the test data for that experimental item; in this embodiment, only one user terminal is required to upload experimental project information, where the project information includes identity information of the user terminals involved in all the experimental projects and corresponding experimental rights; in addition, it should be noted that the terminal used for uploading the experimental project information does not necessarily have the highest experimental authority;
after the sharing service platform verifies the project data table, the project data table is divided into a plurality of project data sub-tables according to the experimental authority of each user terminal, and the project data sub-tables are correspondingly transmitted to the user terminals one by one.
The user terminal corresponding to the total responsible personnel of the experimental project has the highest experimental authority, and can check the complete project data table; and other using terminals can only check the corresponding project data sub-table, so that detection data leakage can be avoided.
The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.
Claims (10)
1. A laboratory test data sharing system based on a local area network, characterized in that: the system comprises:
the system comprises a plurality of data acquisition modules, a plurality of using terminals and a shared service platform;
the plurality of data acquisition modules are in one-to-one correspondence connection with a plurality of digital experimental devices in the laboratory and are used for acquiring detection data of the digital experimental devices; each data acquisition module sends detection data to the shared service platform;
the plurality of using terminals are connected with the shared service platform and are used for sending experimental project information to the shared service platform, and each piece of experimental project information comprises at least one piece of request information for detecting the data item;
the sharing service platform establishes a project data table according to the experimental project information uploaded by each using terminal;
after the shared service platform receives the detection data, updating the corresponding project data table; and each time the table in the project data is updated, the sharing service platform sends updating information to the corresponding using terminal until the project data table is updated.
2. A local area network based laboratory test data sharing system according to claim 1, wherein: each data acquisition module also acquires task data of the digital experimental equipment in real time and uploads the task data to the sharing service platform; the shared service platform confirms the completion time of each project data form based on the task data of the plurality of data acquisition modules, comprising:
acquiring all non-updated detection data items in the item data table;
validating a plurality of digital experimental devices based on all of the non-updated detection data items;
task data of the plurality of digital experimental devices are obtained, and queuing data of each detection data item are confirmed;
acquiring the update time of the detection data item based on the queuing data of the detection data item;
and taking the updating time of the finally completed detection data item as the completion time of the project data table.
3. A local area network based laboratory test data sharing system according to claim 2, wherein: further comprises: when any detection data item in a project data table is updated, the sharing service platform acquires the completion time of the project data table and updates the project data table; the completion time marks are arranged at preset positions of the project data table, so that the user terminal can inquire and acquire the project data table after logging in the sharing service platform;
after the shared service platform updates the completion time, comparing the current completion time with the initial completion time to obtain project progress; and when the project progress is advanced and the advanced time is longer than the first set time, or the project progress is delayed and the delayed time exceeds the second set time, sending a reminding message to the corresponding using terminal.
4. A local area network based laboratory test data sharing system according to claim 1, wherein: the sharing service platform establishes a project data table according to the experimental project information uploaded by the using terminal, and comprises the following steps:
based on all the detection data items in the experimental project information, the sharing service platform acquires a history table with the same number of the detection data items and the maximum number of the detection data items from a plurality of pre-stored history tables as a basic table;
different detection data items in the basic table and experimental project information are acquired;
and deleting different detection data items in the basic table, and supplementing each different detection data item in the experimental project information to a corresponding position in the basic table to generate a project data table.
5. A local area network based laboratory test data sharing system according to claim 4, wherein: supplementing different detection data items in the experimental project information to corresponding positions in the basic table, wherein the method comprises the following steps:
acquiring relative position information of different detection data items and at least one same detection data item in a plurality of history tables comprising different detection data items;
based on the position information of the same detection data item and the relative position information of different monitoring data items in the basic table, corresponding positions of different data items in the basic table are confirmed.
6. A local area network based laboratory test data sharing system according to claim 1, wherein: further comprises: information transmission is carried out among a plurality of using terminals through logging in a shared service platform; when information is transferred between any two using terminals, the shared service platform records the information transfer path and the information transfer content.
7. A local area network based laboratory test data sharing system according to claim 6, wherein: when the user terminal logs in the shared service platform, the shared service platform uses the terminal to carry out identity verification, and the user terminal is allowed to carry out information transfer after the identity verification is passed.
8. A local area network based laboratory test data sharing system according to claim 5, wherein: further comprises: after the sharing service platform establishes a project data form according to the experimental project information uploaded by the using terminal, the sharing service platform sends the project data form to the corresponding using terminal for confirmation of the using terminal;
the user terminal modifies or confirms the project data form within a set period;
when the user terminal does not confirm or modify the project data form within the set period, the sharing service platform automatically confirms the project data form at the end of the set period.
9. A local area network based laboratory test data sharing system according to claim 1, wherein: further comprises: when the project data table is finished to be updated, checking each detection data item in the project data table comprises the following steps: comparing the detection data in each detection data item with the original detection data uploaded by the corresponding data acquisition module to obtain a comparison result;
and when the comparison result of each detection data item in the item data table is correct, checking is passed.
10. A local area network based laboratory test data sharing system according to claim 9, wherein: the experimental project information also comprises identity information of a plurality of using terminals participating in the experimental project and experimental rights corresponding to each using terminal;
after the sharing service platform verifies the project data table, the project data table is divided into a plurality of project data sub-tables according to the experimental authority of each user terminal, and the project data sub-tables are correspondingly transmitted to the user terminals one by one.
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