CN113869541A - Laboratory engineering method, system, equipment and medium for contact-free virus experiment - Google Patents

Abstract

The invention discloses a laboratory engineering method, a system, equipment and a medium for a contact-free virus experiment, which comprise the following steps: acquiring experiment appointment information; obtaining the highest experiment level according to the experiment reservation information; acquiring portrait information; obtaining a preset experimenter grade according to the portrait information; comparing the experimenter level with the highest experimental level, and recording the experimenter with the experimenter level lower than the highest experimental level into a monitoring object list; recording the experimenters with the experimenters grade equal to or higher than the highest experimental grade into a white list; acquiring indoor image information in a laboratory; obtaining confidential station information of experimenters in a white list according to the indoor image information; monitoring the experimenter in the monitoring object list according to the indoor image information to obtain the distance information between the experimenter in the monitoring object list and the confidential station information; and if the distance information is smaller than the safety distance, generating first prompt information. The invention has the effect of improving the experimental safety of the contact-free virus experiment.

Description

Laboratory engineering method, system, equipment and medium for contact-free virus experiment

Technical Field

The invention relates to the field of laboratory engineering, in particular to a laboratory engineering method, a laboratory engineering system, laboratory engineering equipment and a laboratory engineering medium for a contact-free virus experiment.

Background

The laboratory is an important place for analysis and inspection or teaching and scientific research, and the laboratory engineering is the science for researching the basic rules of various activities of laboratory environment, instruments and equipment and laboratory personnel.

In the related art, experiments performed on viruses generally belong to confidential experiment contents, and experimenters of different levels are responsible for virus experiments of corresponding levels, but the experimenters of different levels are all in the same laboratory to perform different virus experiments, so that the risk of leakage of experiment secrets exists.

For the related technologies, the inventor thinks that the experimenters of different levels in the same laboratory are easy to know the experimental contents of the non-contact virus experiments of other experimenters in the experimental process, and the experimental error that easily occurs because of the disordered experimental order causes the defect of the reduction of the experimental safety of the non-contact virus experiments.

Disclosure of Invention

In order to improve the experimental safety of the contact-free virus experiment, the application discloses a laboratory engineering method, a system, equipment and a medium for the contact-free virus experiment.

In a first aspect, the application discloses a laboratory engineering method for a contact-free virus experiment, which adopts the following technical scheme:

a laboratory engineering method for a contact-free virus experiment, comprising:

acquiring experiment appointment information from an experimenter; the experiment appointment information comprises an experiment name, experiment contents and an experiment grade;

obtaining the highest experiment level according to all experiment reservation information;

acquiring portrait information of a laboratory worker entering a laboratory;

obtaining the experimenter grade preset in a database according to the portrait information;

comparing the experimenter level with the highest experimental level, and recording the experimenter with the experimenter level lower than the highest experimental level into a monitoring object list; recording the experimenters with the experimenters grade equal to or higher than the highest experimental grade into a white list;

continuously acquiring indoor image information in a laboratory;

obtaining confidential station information of experimenters in a white list according to the indoor image information;

monitoring the experimenter in the monitoring object list according to the indoor image information to obtain the distance information between the experimenter in the monitoring object list and the confidential station information;

and comparing the distance information with a preset safety distance, and if the distance information is smaller than the safety distance, generating first prompt information.

Through adopting above-mentioned technical scheme, based on the experiment that has made an appointment and laboratory technician's rank, obtain highest experiment rank and laboratory technician rank, and then carry out the formulation of monitoring the object to be favorable to accurately monitoring the laboratory technician that corresponds, through continuously monitoring and obtaining distance information, be favorable to generating first prompt information in real time, thereby suggestion laboratory technician reduces secret leakage and maintains the order in the laboratory good, thereby improves the experimental security of contact-free virus experiment.

Optionally, the obtaining, according to the portrait information, the experimenter level preset in the database includes:

according to the portrait information, carrying out face recognition to obtain face information;

searching matched experimenter file information preset in an experimenter database according to the face information; the experimenter profile information comprises experimenter grades;

and obtaining the laboratory level of each laboratory technician entering the laboratory according to the file information of each laboratory technician.

Through adopting above-mentioned technical scheme, earlier through face identification, the laboratory technician's that rethread face information matches corresponds archives information, and then obtains every laboratory technician's laboratory technician rank to be favorable to accurately and obtain laboratory technician rank fast.

Optionally, the lab level is compared with the highest lab level, and the lab level lower than the highest lab level is recorded in the monitoring object list; recording the experimenter with the experimenter grade equal to or higher than the highest experimenter grade into a white list, and then:

acquiring secondary appointment information from a laboratory-entered experimenter; the secondary appointment information comprises experiment names, experiment contents and experiment levels;

updating the highest experimental level according to the secondary reservation information;

and updating the monitoring object list and the white list according to the updated highest experimental level.

By adopting the technical scheme, the setting of the secondary reservation information is beneficial to the experimenter to temporarily increase the experiment in the laboratory, and the updating of the highest experiment level, the monitoring object list and the white list is beneficial to maintaining accurate monitoring, so that the experiment safety of the non-contact virus experiment is improved.

Optionally, the laboratory engineering method for the contact-free virus experiment further includes:

acquiring time information of each link in the experiment after the experiment begins;

comparing the time information of each link with the historical average time of the corresponding link preset in a database to obtain time difference information;

comparing the time difference information with a preset allowable difference value; and if the time difference information is larger than the allowable difference value, generating second prompt information.

Through adopting above-mentioned technical scheme, carry out quality control to the time information of each link, and contrast through the tolerance value, and then judge accurately and fast whether need generate second prompt information, the setting of second prompt information does benefit to the corresponding link in the suggestion laboratory technician experiment and goes wrong to improve the experimental security of contact-free virus experiment.

Optionally, the acquiring secondary appointment information from a laboratory entering laboratory further includes:

summarizing all experiment reservation information and all secondary reservation information to generate experiment list information;

sending the experiment list information to the mobile terminal of each experimenter;

and displaying the experiment list information on a display screen in the laboratory.

Through adopting above-mentioned technical scheme, being provided with of experiment list information does benefit to and reminds the laboratory of laboratory personnel in all experiments that will go on to supervise each other between the laboratory personnel in order to improve the experimental security of contact-free virus experiment.

Optionally, the comparing the time information of each link with the historical average time of the corresponding link preset in the database to obtain the time difference information, and then further comprising:

according to the time difference information, matching a corresponding emergency grade in a preset emergency grade matching table; the emergency level matching table comprises each time difference range and emergency levels corresponding to the time difference ranges respectively;

according to the emergency level, matching corresponding emergency countermeasures in a preset emergency level corresponding table; the emergency level coping table comprises emergency levels and emergency coping measures corresponding to the emergency levels respectively;

and carrying out emergency handling according to corresponding emergency handling measures.

Through adopting above-mentioned technical scheme, emergency grade matches the table and is favorable to matching out the emergency grade fast, and being provided with of emergency grade does benefit to the countermeasure that quick matching corresponds to solve emergency fast, thereby improve the experimental security of contactless virus experiment.

Optionally, the first prompt message includes first voice information and first light information, the distance information is compared with a preset safe distance, if the distance information is smaller than the safe distance, the first prompt message is generated, and then the method further includes:

sending the first voice information to broadcasting equipment in a laboratory; the first voice information comprises prompt content and a prompt object;

and sending the first light information to the lighting equipment in the laboratory.

Through adopting above-mentioned technical scheme, first voice information and first light information that first prompt information includes are favorable to reminding the laboratory technician from sense of hearing and vision to indicate the laboratory technician more fast and effectively, thereby be convenient for improve the experimental security of contact-free virus experiment.

In a second aspect, the application discloses a laboratory engineering system for a contact-free virus experiment, which adopts the following technical scheme:

laboratory engineering system of exempting from to contact virus experiment includes:

the experiment appointment acquisition module is used for acquiring experiment appointment information from an experimenter;

the highest level generation module is used for obtaining the highest experiment level according to all experiment reservation information;

the system comprises a portrait information acquisition module, a portrait information acquisition module and a portrait information acquisition module, wherein the portrait information acquisition module is used for acquiring portrait information of a laboratory worker entering a laboratory;

the personnel level generation module is used for obtaining the experimenter level preset in the database according to the portrait information;

the list information recording module is used for comparing the experimenter level with the highest experimental level and recording the experimenter with the experimenter level lower than the highest experimental level into a monitoring object list; recording the experimenters with the experimenters grade equal to or higher than the highest experimental grade into a white list;

the indoor image acquisition module is used for continuously acquiring indoor image information in a laboratory;

the confidential station generating module is used for obtaining confidential station information of the experimenter in the white list according to the indoor image information;

the distance information generation module is used for monitoring the experimenter in the monitoring object list according to the indoor image information to obtain the distance information between the experimenter in the monitoring object list and the confidential station information;

and the first prompt generation module is used for comparing the distance information with a preset safe distance, and if the distance information is smaller than the safe distance, generating first prompt information.

In a third aspect, the present application discloses an electronic device, which adopts the following technical solutions:

an electronic device comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that performs a laboratory engineering method of a contact-free virus experiment as defined in any of the above.

In a fourth aspect, the present application discloses a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program capable of being loaded by a processor and executing the laboratory engineering method of a contact-free virus experiment as described in any one of the above.

In summary, the present application includes at least one of the following beneficial technical effects:

1. based on the experiment that has made an appointment and laboratory technician's rank, obtain highest experiment rank and laboratory technician rank, and then carry out the formulation of monitoring the object to be favorable to accurately monitoring the laboratory technician who corresponds, through continuously monitoring and obtaining distance information, be favorable to generating first prompt information in real time, thereby suggestion laboratory's laboratory is reduced secret and is leaked and maintain the order in the laboratory good, thereby improves the experimental security of contact-free virus experiment.

2. The setting of secondary reservation information is favorable for experimenters to temporarily increase experiments in a laboratory, and the updating of the highest experiment level, the monitoring object list and the white list is favorable for maintaining accurate monitoring, so that the experiment safety of the contact-free virus experiment is improved.

3. Quality inspection is carried out on the time information of each link, comparison is carried out through allowable difference values, whether second prompt information needs to be generated or not is judged accurately and quickly, and the second prompt information is provided to be beneficial to prompting that corresponding links in experiment of experimenters are out of order, so that the experiment safety of the contact-free virus experiment is improved.

Drawings

FIG. 1 is a flow chart of a method of laboratory engineering for a contact-free virus experiment according to one embodiment of the present application.

FIG. 2 is a flow chart of another method of laboratory engineering for virus-free experiments in one embodiment of the present application.

FIG. 3 is a schematic block diagram of a laboratory engineering system for contact-free virus experiments according to an embodiment of the present disclosure.

Fig. 4 is a schematic diagram of a connection structure of an electronic device in one embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Referring to fig. 1, the present application discloses a laboratory engineering method for a contact-free virus experiment.

A laboratory engineering method for a contact-free virus experiment, comprising:

s1, experiment reservation information from the experimenter is acquired.

The experiment appointment information comprises experiment names, experiment contents and experiment grades. In this embodiment, the experimental level may be, but is not limited to: first, second, third, fourth, etc.

Specifically, before entering a laboratory, a laboratory technician sends relevant information of an experiment to be performed to a server through a mobile terminal, wherein the relevant information refers to an experiment name, experiment contents and an experiment level, and therefore the server can receive experiment appointment information conveniently.

And S2, obtaining the highest experiment level according to all the experiment reservation information.

Specifically, the experiment levels in all the experiment reservation information are read, the experiment levels of all the experiments are compared, the experiment with the highest level is selected, and the experiment level of the experiment is used as the highest experiment level.

And S3, acquiring portrait information of the laboratory staff entering the laboratory.

The portrait information refers to the entire image of the experimenter, including the face of the experimenter.

Specifically, be equipped with the camera in front of the laboratory door, the camera lens of camera is outdoor and is used for shooing the laboratory person before getting into the laboratory. The camera shoots the experimenter and generates portrait information, and sends the portrait information to the server.

And S4, obtaining the experimenter grade preset in the database according to the portrait information.

Specifically, according to the portrait information, face recognition is carried out to obtain face information; searching matched experimenter file information preset in an experimenter database according to the face information; the experimenter profile information comprises experimenter grades; and obtaining the laboratory level of each laboratory technician entering the laboratory according to the file information of each laboratory technician.

The laboratory staff file information of each laboratory staff is preset in the database, each laboratory staff file information is provided with pre-entered standard face information, the standard face information is extracted from laboratory staff corresponding to the laboratory staff file information, the laboratory staff file information corresponding to the face information can be found by comparing the face information with the standard face information, and therefore reading of the laboratory staff level in the laboratory staff file information is facilitated.

S5, comparing the experimenter level with the highest experimental level, and recording the experimenter with the experimenter level lower than the highest experimental level into a monitoring object list; the laboratory workers with a laboratory rank equal to or higher than the highest laboratory rank were recorded in the white list.

The list of monitoring objects refers to that when the laboratory is in use, the laboratory staff needs to be continuously monitored by a monitoring camera in the laboratory; white listing means that while in the laboratory, the laboratory technician does not need to be continuously monitored by a surveillance camera in the laboratory.

For example: the experimental level of experimenter a is four, the experimental level of experimenter B is two, and the highest experimental level is three, then experimenter a is recorded in the white list, and experimenter B is recorded in the monitored object list.

And S6, continuously acquiring indoor image information in the laboratory.

Specifically, the monitoring camera for monitoring the internal condition of the laboratory and the personnel in the laboratory is installed at the ceiling in the laboratory, the monitoring camera continuously monitors the interior of the laboratory, the monitoring mode is to continuously shoot the interior of the laboratory to obtain indoor image information, and the indoor image information of the laboratory is sent to the server, so that the server acquires the indoor image information.

And S7, obtaining confidential station information of the experimenter in the white list according to the indoor image information.

Specifically, the staying position of the experimenter in the white list is identified through the indoor image information, the staying position means that the time when the experimenter stays at the corresponding position exceeds a preset value, and the preset value can be, but is not limited to, 3 minutes, 5 minutes, 7 minutes and the like. The stop position is used as confidential station information of the experimenter.

And S8, monitoring the laboratory workers in the monitoring object list according to the indoor image information to obtain the distance information between the laboratory workers in the monitoring object list and the confidential station information.

Specifically, the positions of the experimenters in the monitoring object list are identified through the indoor image information, the distance between the positions of the experimenters in the monitoring object list and the confidential station information is calculated, and the distance is recorded as the distance information.

And S9, comparing the distance information with a preset safe distance, and if the distance information is smaller than the safe distance, generating first prompt information.

The safety distance refers to the allowable distance between the experimenter in the preset monitoring object list and the confidential station information. The allowable distance may be, but is not limited to, 0.5 meters, 1 meter, 1.5 meters, and 2 meters.

For example: when the allowable distance is set to 1 meter, and the distance information between the confidential station information of the experimenter B and the experimenter A is 0.9 meter, the first prompt information is generated. The presentation form of the first prompt message may be, but is not limited to, a text form, a voice form, and a light form. Thereby being beneficial to prompting the experimenter in the monitoring object list to be away from the confidential station in time.

Referring to fig. 2, another embodiment of a laboratory engineering method for virus-free experiments is different from the above embodiment in that: at S5, comparing the experimenter level with the highest experimental level, and recording the experimenters with the experimenters level lower than the highest experimental level into a monitoring object list; recording the experimenter with the experimenter grade equal to or higher than the highest experimenter grade into a white list, and then:

s51, the second order information from the laboratory operator after entering the laboratory is acquired.

The secondary appointment information refers to an experiment which is only appointed after the laboratory enters the laboratory. The secondary appointment information also includes experiment names, experiment contents and experiment grades.

Specifically, after entering the laboratory, the laboratory technician edits and sends the secondary appointment information to the server through the mobile terminal or the PC terminal, so that the server can acquire the secondary appointment information conveniently.

And S52, updating the highest experimental level according to the secondary reservation information.

Specifically, the highest experimental level is determined again according to all the experimental appointment information and the newly added secondary appointment information.

And S53, updating the monitoring object list and the white list according to the updated highest experiment level.

Specifically, the monitoring object list and the white list are re-recorded according to the updated highest experimental level.

For example: the original white list comprises an experimenter A with an experimental level of four and an experiment C with an experimental level of three, the original monitoring object list comprises an experimenter B with an experimental level of two, the original highest experimental level is three, the newly-added secondary appointment information now comprises an experimental level of four, the highest experimental level is updated to be four, the white list is updated to only comprise the experimenter A, and the monitoring object list comprises the experimenter B and the experimenter C.

The difference is that: further comprising the steps of:

and S10, acquiring time information of each link in the experiment after the experiment starts.

Specifically, the experimental apparatus in the laboratory is electrically connected with the server, the server acquires the start-stop time of the experimental apparatus of various experiments, and the time information of each link of the experiment is calculated through the start-stop time. And timing immediately after the starting time is acquired, and stopping when the stopping time is acquired.

For example: performing experiment a involves instruments a1, a2 and a3, and the operations performed by instruments a1, a2 and a3 are three sessions of experiment a respectively. Therefore, the starting time of the instruments a1, a2 and a3 needs to be acquired, and the time counting is started, so that three pieces of time information are obtained.

And S11, comparing the time information of each link with the corresponding historical average time of the links preset in the database to obtain time difference information.

The historical average time of each experimental instrument in the corresponding experiment is preset in the database. The link history average time for each experimental instrument is calculated from the time data after several identical experiments, which may be, but is not limited to, 500, 1000, and 1500.

Specifically, the time information of each link in the experiment is compared with the historical average time of the corresponding link to obtain the time difference information of each link. And when the experimental instrument is not stopped, continuously timing according to the starting time, and continuously comparing the time information with the historical average time of the corresponding link to obtain continuously updated time difference information.

S12, comparing the time difference information with a preset allowable difference value; and if the time difference information is larger than the allowable difference value, generating second prompt information.

Specifically, the continuously updated time difference information is continuously compared with a preset tolerance value, which may be, but is not limited to, 100 seconds, 200 seconds, and 300 seconds. The presentation form of the second prompt message may be, but is not limited to, a text form, a voice form, and a light form. In this embodiment, the second prompt message is displayed in a light form, and the second prompt message is red light, and the server sends the second prompt message to the corresponding light-emitting device, so that the light-emitting device emits red light, and the laboratory technician is prompted to timely handle the emergency.

At S51, the method acquires the second order information from the laboratory operator, and then further includes:

and S511, summarizing all the experiment reservation information and all the secondary reservation information to generate experiment list information.

Specifically, the experiment list information includes experiment information of all the reserved experiments, and is arranged in the order of the reserved time. Each experimental information includes the name of the experimenter, the name of the experiment and the grade of the experiment.

And S512, sending the experiment list information to the mobile terminals of the experimenters.

And S513, displaying the experiment list information on a display screen in the laboratory.

At S11, comparing the time information of each link with the historical average time of the corresponding link preset in the database to obtain time difference information, and then:

and S111, matching the corresponding emergency grade in a preset emergency grade matching table according to the time difference information.

Specifically, the emergency level matching table includes each time difference range and the emergency level corresponding to each time difference range.

For example: there are three time difference ranges in the emergency level pair table, which are: "0-100 s", "101-200 s" and "201-300 s", the corresponding three emergency levels are: "level 1", "level 2", and "level 3".

And S112, according to the emergency level, matching corresponding emergency countermeasures in a preset emergency level correspondence table.

Specifically, the emergency level handling table includes emergency levels and emergency handling measures corresponding to the emergency levels.

For example: there are three emergency levels in the emergency level table, which are: "level 1", "level 2", and "level 3", the corresponding three emergency countermeasures are: the method comprises the steps of popup prompting, realizing second prompting information prompting and stopping related equipment.

And S113, performing emergency handling according to the corresponding emergency handling measures.

For example: when the popup prompt is adopted, a popup window at a PC (personal computer) end in a laboratory is used for prompting a laboratory technician of an emergency and is a prompt window with the grade of 1; when the 'implementation of second prompt information prompt' is adopted, the server prompts by using the second prompt information; when the 'stopping of relevant equipment' is adopted, the server controls the relevant experimental instrument to stop.

The difference is that: the first prompt message includes first voice message and first light message, at S9, the distance message is compared with a preset safe distance, if the distance message is smaller than the safe distance, the first prompt message is generated, and then the method further includes:

and S91, sending the first voice information to broadcasting equipment in the laboratory.

The first voice information includes prompt content and a prompt object.

Specifically, the server sends the first voice information to broadcasting equipment in the laboratory, so that the broadcasting equipment carries out voice prompt.

And S92, sending the first light information to the light-emitting equipment in the laboratory.

Specifically, the server sends the first light information to broadcasting equipment in the laboratory, so that the light-emitting equipment carries out light prompting.

Referring to fig. 3, the present embodiment further discloses a laboratory engineering system for a contact-free virus experiment.

Laboratory engineering system of exempting from to contact virus experiment includes:

an experiment appointment acquisition module 200, configured to acquire experiment appointment information from an experimenter;

a highest level generation module 210, configured to obtain a highest experiment level according to all experiment appointment information;

a portrait information acquisition module 220, configured to acquire portrait information of a laboratory technician entering a laboratory;

the personnel level generation module 230 is used for obtaining the experimenter level preset in the database according to the portrait information;

the list information recording module 240 is configured to compare the experimenter level with the highest experimental level, and record the experimenter whose experimenter level is lower than the highest experimental level into the monitoring object list; recording the experimenters with the experimenters grade equal to or higher than the highest experimental grade into a white list;

an indoor image acquisition module 250, configured to continuously acquire indoor image information in a laboratory;

the confidential station generating module 260 is used for obtaining confidential station information of the experimenter in the white list according to the indoor image information;

the distance information generating module 270 is configured to monitor the experimenter in the monitoring object list according to the indoor image information, and obtain distance information between the experimenter in the monitoring object list and the confidential station information;

the first prompt generating module 280 is configured to compare the distance information with a preset safe distance, and generate the first prompt information if the distance information is smaller than the safe distance.

The laboratory engineering system of the contact-free virus experiment comprises a server, a camera, a display screen, voice equipment and light-emitting equipment, wherein the camera is installed at an entrance and an exit of a laboratory, the display screen, the voice equipment and the light-emitting equipment are all installed in the laboratory, and experimental instruments in the camera, the display screen, the voice equipment, the light-emitting equipment and the laboratory are all electrically connected with the server. The server is used for acquiring experiment reservation information from a laboratory technician, acquiring the highest experiment level according to all the experiment reservation information, acquiring portrait information of the laboratory technician entering a laboratory, acquiring the laboratory technician level preset in the database according to the portrait information, comparing the laboratory technician level with the highest experiment level, and recording the laboratory technician with the laboratory technician level lower than the highest experiment level into a monitoring object list; recording the experimenter with the experimenter level equal to or higher than the highest experimental level into a white list, continuously acquiring indoor image information in a laboratory, acquiring confidential station information of the experimenter in the white list according to the indoor image information, monitoring the experimenter in a monitoring object list according to the indoor image information, acquiring distance information between the experimenter in the monitoring object list and the confidential station information, comparing the distance information with a preset safety distance, and if the distance information is smaller than the safety distance, generating first prompt information.

Referring to fig. 4, an electronic device is also disclosed in the embodiments of the present application.

An electronic device 300 comprising a memory 310 and a processor 320, the memory 310 having stored thereon a computer program that can be loaded by the processor 320 and that can perform a laboratory engineering method of a contact-free virus experiment as described in any of the above. When executed by the processor 320, performs the steps of:

acquiring experiment appointment information from an experimenter; the experiment appointment information comprises an experiment name, experiment contents and an experiment grade;

obtaining the highest experiment level according to all experiment reservation information;

acquiring portrait information of a laboratory worker entering a laboratory;

obtaining the experimenter grade preset in a database according to the portrait information;

comparing the experimenter level with the highest experimental level, and recording the experimenter with the experimenter level lower than the highest experimental level into a monitoring object list; recording the experimenters with the experimenters grade equal to or higher than the highest experimental grade into a white list;

continuously acquiring indoor image information in a laboratory;

obtaining confidential station information of experimenters in a white list according to the indoor image information;

monitoring the experimenter in the monitoring object list according to the indoor image information to obtain the distance information between the experimenter in the monitoring object list and the confidential station information;

and comparing the distance information with a preset safety distance, and if the distance information is smaller than the safety distance, generating first prompt information.

Optionally, in the embodiment of the present application, when the computer program is executed by the processor 320, the following steps are performed: according to the portrait information, carrying out face recognition to obtain face information;

searching matched experimenter file information preset in an experimenter database according to the face information; the experimenter profile information comprises experimenter grades;

and obtaining the laboratory level of each laboratory technician entering the laboratory according to the file information of each laboratory technician.

Optionally, in the embodiment of the present application, when the computer program is executed by the processor 320, the following steps are performed: acquiring secondary appointment information from a laboratory-entered experimenter; the secondary appointment information comprises experiment names, experiment contents and experiment levels;

updating the highest experimental level according to the secondary reservation information;

and updating the monitoring object list and the white list according to the updated highest experimental level.

Optionally, in the embodiment of the present application, when the computer program is executed by the processor 320, the following steps are performed: acquiring time information of each link in the experiment after the experiment begins;

comparing the time information of each link with the historical average time of the corresponding link preset in a database to obtain time difference information;

comparing the time difference information with a preset allowable difference value; and if the time difference information is larger than the allowable difference value, generating second prompt information.

Optionally, in the embodiment of the present application, when the computer program is executed by the processor 320, the following steps are performed: summarizing all experiment reservation information and all secondary reservation information to generate experiment list information;

sending the experiment list information to the mobile terminal of each experimenter;

and displaying the experiment list information on a display screen in the laboratory.

Optionally, in the embodiment of the present application, when the computer program is executed by the processor 320, the following steps are performed: according to the time difference information, matching a corresponding emergency grade in a preset emergency grade matching table; the emergency level matching table comprises each time difference range and emergency levels corresponding to the time difference ranges respectively;

according to the emergency level, matching corresponding emergency countermeasures in a preset emergency level corresponding table; the emergency level coping table comprises emergency levels and emergency coping measures corresponding to the emergency levels respectively;

and carrying out emergency handling according to corresponding emergency handling measures.

Optionally, in the embodiment of the present application, when the computer program is executed by the processor 320, the following steps are performed: sending the first voice information to broadcasting equipment in a laboratory; the first voice information comprises prompt content and a prompt object;

and sending the first light information to the lighting equipment in the laboratory.

The embodiment of the application also discloses a computer readable storage medium, which stores a computer program capable of being loaded and executed by the processor, and when the computer program is executed by the processor, the steps of any one of the data supervision methods of the multifunctional electric meter are realized, and the same effect can be achieved.

The computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A laboratory engineering method for a contact-free virus experiment is characterized by comprising the following steps:

acquiring experiment appointment information from an experimenter; the experiment appointment information comprises an experiment name, experiment contents and an experiment grade;

obtaining the highest experiment level according to all experiment reservation information;

acquiring portrait information of a laboratory worker entering a laboratory;

obtaining the experimenter grade preset in a database according to the portrait information;

comparing the experimenter level with the highest experimental level, and recording the experimenter with the experimenter level lower than the highest experimental level into a monitoring object list; recording the experimenters with the experimenters grade equal to or higher than the highest experimental grade into a white list;

continuously acquiring indoor image information in a laboratory;

obtaining confidential station information of experimenters in a white list according to the indoor image information;

monitoring the experimenter in the monitoring object list according to the indoor image information to obtain the distance information between the experimenter in the monitoring object list and the confidential station information;

and comparing the distance information with a preset safety distance, and if the distance information is smaller than the safety distance, generating first prompt information.

2. The laboratory engineering method of a contact-free virus experiment according to claim 1, wherein: the obtaining of the experimenter level preset in the database according to the portrait information includes:

according to the portrait information, carrying out face recognition to obtain face information;

searching matched experimenter file information preset in an experimenter database according to the face information; the experimenter profile information comprises experimenter grades;

and obtaining the laboratory level of each laboratory technician entering the laboratory according to the file information of each laboratory technician.

3. The laboratory engineering method of a contact-free virus experiment according to claim 1, wherein: comparing the experimenter level with the highest experimental level, and recording the experimenter with the experimenter level lower than the highest experimental level into a monitoring object list; recording the experimenter with the experimenter grade equal to or higher than the highest experimenter grade into a white list, and then:

acquiring secondary appointment information from a laboratory-entered experimenter; the secondary appointment information comprises experiment names, experiment contents and experiment levels;

updating the highest experimental level according to the secondary reservation information;

and updating the monitoring object list and the white list according to the updated highest experimental level.

4. The laboratory engineering method of a contact-free virus experiment according to claim 1, wherein: the laboratory engineering method for the contact-free virus experiment further comprises the following steps:

acquiring time information of each link in the experiment after the experiment begins;

comparing the time information of each link with the historical average time of the corresponding link preset in a database to obtain time difference information;

comparing the time difference information with a preset allowable difference value; and if the time difference information is larger than the allowable difference value, generating second prompt information.

5. The laboratory engineering method of contact-free virus experiments according to claim 3, wherein: the acquiring of the secondary appointment information from the laboratory entering laboratory further comprises:

summarizing all experiment reservation information and all secondary reservation information to generate experiment list information;

sending the experiment list information to the mobile terminal of each experimenter;

and displaying the experiment list information on a display screen in the laboratory.

6. The laboratory engineering method of contact-free virus experiments according to claim 4, wherein: comparing the time information of each link with the historical average time of the corresponding link preset in the database to obtain time difference information, and then further comprising:

according to the time difference information, matching a corresponding emergency grade in a preset emergency grade matching table; the emergency level matching table comprises each time difference range and emergency levels corresponding to the time difference ranges respectively;

according to the emergency level, matching corresponding emergency countermeasures in a preset emergency level corresponding table; the emergency level coping table comprises emergency levels and emergency coping measures corresponding to the emergency levels respectively;

and carrying out emergency handling according to corresponding emergency handling measures.

7. The laboratory engineering method of a contact-free virus experiment according to claim 1, wherein: first prompt information includes first speech information and first light information, compare distance information and predetermined safe distance, if distance information is less than safe distance, then generate first prompt information, later still include:

sending the first voice information to broadcasting equipment in a laboratory; the first voice information comprises prompt content and a prompt object;

and sending the first light information to the lighting equipment in the laboratory.

8. A laboratory engineering system for contact-free virus experiments, comprising:

laboratory engineering system of exempting from to contact virus experiment includes:

the experiment appointment acquisition module is used for acquiring experiment appointment information from an experimenter;

the highest level generation module is used for obtaining the highest experiment level according to all experiment reservation information;

the system comprises a portrait information acquisition module, a portrait information acquisition module and a portrait information acquisition module, wherein the portrait information acquisition module is used for acquiring portrait information of a laboratory worker entering a laboratory;

the personnel level generation module is used for obtaining the experimenter level preset in the database according to the portrait information;

the list information recording module is used for comparing the experimenter level with the highest experimental level and recording the experimenter with the experimenter level lower than the highest experimental level into a monitoring object list; recording the experimenters with the experimenters grade equal to or higher than the highest experimental grade into a white list;

the indoor image acquisition module is used for continuously acquiring indoor image information in a laboratory;

the confidential station generating module is used for obtaining confidential station information of the experimenter in the white list according to the indoor image information;

the distance information generation module is used for monitoring the experimenter in the monitoring object list according to the indoor image information to obtain the distance information between the experimenter in the monitoring object list and the confidential station information;

and the first prompt generation module is used for comparing the distance information with a preset safe distance, and if the distance information is smaller than the safe distance, generating first prompt information.

9. An electronic device, characterized in that: comprising a memory, a processor and a communication module, the memory having stored thereon a computer program which can be loaded by the processor and which performs the laboratory engineering method of contact-free virus experiments according to any of the claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which can carry out a laboratory engineering method for contact-free virus experiments according to any of claims 1 to 7.

Images