CN117391409B - Intelligent laboratory management platform and control method thereof - Google Patents
Intelligent laboratory management platform and control method thereof Download PDFInfo
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- CN117391409B CN117391409B CN202311694478.4A CN202311694478A CN117391409B CN 117391409 B CN117391409 B CN 117391409B CN 202311694478 A CN202311694478 A CN 202311694478A CN 117391409 B CN117391409 B CN 117391409B
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Abstract
The application provides a control method of an intelligent laboratory management platform, which is characterized in that laboratory operation videos of experimenters are collected in a laboratory experiment area, and the experiment operation videos are analyzed; during a non-guiding period, an experimenter enters a simulation area to perform a simulation experiment, after the simulation experiment passes, the experimenter enters a laboratory experiment area to perform an experiment, experimental instrument equipment in the laboratory experiment area can only be used as equipment selected in the simulation experiment, other equipment is not opened with permission, and experimental medicaments are taken out of the experimenter in a lamplight mode, so that the working efficiency and the safety are improved; when an experimenter performs an actual operation experiment, the laboratory experiment area acquires an experiment operation video again; this application is when experimenter carries out autonomous experiment, must pass through simulation experiment earlier, through the simulation experiment after, only open the equipment that uses in the simulation experiment, experimenter carries out the simulation that the medicament was selected, can analyze whether kind and the quantity of medicament accord with the standard, and can make experimenter quick find the medicament of needs through the suggestion.
Description
Technical Field
The application relates to the technical field of intelligent laboratories, in particular to an intelligent laboratory management platform and a control method thereof.
Background
Making laboratory safety is a precondition for ensuring that experiments are conducted, and in traditional experiments, the wrong operation of most experimenters needs careful observation of leaders/directors to correct and further prevent safety accidents; however, in operation, except that a director guides the use of the laboratory, the experimenter needs to go to the experiment before doing the experiment by himself in most cases, and the laboratory is unattended at the moment and has no guidance of the director, when the experimenter does the experiment by himself in the laboratory, the experimenter can have improper experiment operation and forget the experiment operation, so that the problem of incorrect experiment results is caused, and even safety accidents easily occur in serious cases.
For further improvement security, some enterprises among the prior art have introduced intelligent laboratory management platform, carry out intelligent management to the laboratory, but intelligent laboratory management platform generally all only has the entrance guard, laboratory intelligent air conditioner, laboratory instrument equipment intelligence outage etc. and the entrance guard can avoid non-laboratory personnel to get into the laboratory, intelligent air conditioner, and laboratory instrument equipment intelligence outage only improves the comfort level of laboratory person's experiment, but to the personnel that need the experiment, has certain hidden danger in the aspect of the security.
The invention discloses a deep learning-based intelligent laboratory management platform and a control method thereof, wherein the application number 202211742989.4 is searched by the applicant, the technical scheme comprises a central processor, an access control system, monitoring equipment and broadcasting equipment, the central processor is in bidirectional connection with a monitoring learning system, the central processor is in bidirectional connection with a voice recognition system, the central processor is in bidirectional connection with an experimental data cloud end uploading system, the central processor is in bidirectional connection with an IC card information input system, and the monitoring learning system comprises a monitoring video reading module.
The above patent application can only be used for analyzing the correctness of the action during the experimental operation by the analyst during the self operation, but can not judge whether the medicament is correct or not for the selection of the medicament and the like, and can only guide the action of the experimenter, thereby ensuring the standardization of the experimental action, but can not fundamentally ensure the safety of the laboratory and the experimenter.
Therefore, a new technical solution is needed to solve the above technical problems.
Disclosure of Invention
The application provides a control method of an intelligent laboratory management platform, which comprises the following steps:
s1: the acquisition equipment of the laboratory experiment area acquires experiment operation videos of each experimenter;
s2: analyzing the collected experimental operation videos of each experimenter to analyze whether the experimental operation actions of each experimenter accord with the specifications;
s3: carrying out real-time reminding on experimenters who do not accord with standard actions in the experimental operation process, and recording the real-time reminding in a control system;
s4: during a non-guiding period, the experimenter enters a laboratory simulation area through identity authentication;
s5: after the experimenter passes through identity authentication in a laboratory simulation area, performing simulation experiments, and selecting experiment names, reminding the experimenter by a control system according to recorded operation action problems of the corresponding experimenter in the corresponding experiments;
s6: the experimenter selects experimental instrument equipment and medicament types to be subjected to experiments in simulation equipment, and selects medicament names and medicament dosage corresponding to each experimental operation process from all experimental operation modules corresponding to preset experimental names;
S7: the control system compares the selected experimental instrument equipment, the medicament type, the medicament name corresponding to the experimental operation process and the medicament dosage with prestored parameters, and opens the laboratory experiment area corresponding to the experiment to be performed when the parameters are in accordance with the standards, and opens the authority of the selected electric experimental instrument equipment and the authority of the medicament storage cabinet;
s8: the experimenter enters a laboratory experiment area through identity authentication to perform an experiment selected during simulation, the experimenter starts an electric experimental instrument device selected in simulation equipment to be subjected to the experiment through the identity authentication, a medicament storage cabinet is started through the identity authentication, and after the identity authentication of the medicament storage cabinet is passed, a control system controls a medicament name lamp plate corresponding to the lower part of a medicament selected during simulation to be lighted, so that the experimenter can conveniently and rapidly find the corresponding medicament;
s9: when an experimenter performs an actual operation experiment, the acquisition equipment in the laboratory experiment area acquires an experiment operation video of the experimenter, analyzes the operation video of the acquired experimenter, analyzes whether the experiment operation is standard, reminds actions which do not meet the standard in real time in the experiment operation process, records the actions into a control system, and sends the actions to corresponding directors.
In S7, when the experimental apparatus, the type of the chemical agent, the chemical agent name and the chemical agent amount corresponding to the experimental operation process are all in accordance with the preset standard, the list of the chemical agent name and the chemical agent amount corresponding to the experimental apparatus, the chemical agent type, the experimental operation process is converted into the text information for printing.
As a preferred solution, in S6, a simulation model is built in the simulation device, where the building of the simulation model includes the following steps:
s6.1: the method comprises the steps of collecting indoor videos of each laboratory experiment area, transmitting the indoor videos of the laboratory experiment areas to a processing end of a control system, analyzing the indoor videos, and determining indoor characteristic information of the indoor videos of each laboratory experiment area;
s6.2: the indoor characteristic information is transmitted to a second processing end of the control system, and the second processing end builds a scene of a laboratory experiment area of a virtual laboratory to obtain a virtual environment of the laboratory experiment area;
s6.3: transmitting the virtual environment of the laboratory experiment area to virtual equipment, and carrying out fusion treatment on the virtual equipment, experimental instrument equipment and experimental medicament under various preset experiment names in the virtual equipment;
S6.4: and displaying on the virtual equipment after the fusion processing.
As a preferred solution, the step of indoor video acquisition in the laboratory area in S6.1 is as follows:
s6.11: acquiring an indoor scene acquisition target of a laboratory experiment area, processing the target, and confirming a target scene of the laboratory experiment area to be acquired;
s6.12: performing secondary treatment on an indoor scene acquisition target of a laboratory experiment area, determining a video acquisition requirement in the laboratory experiment area, determining video resolution and video range of the laboratory experiment area to be acquired based on the video acquisition requirement, calculating an acquisition equipment arrangement scheme in the laboratory experiment area through the video range of the laboratory experiment area, and installing acquisition equipment in the laboratory experiment area according to the acquisition equipment arrangement scheme;
s6.13: dividing a laboratory experiment area into a plurality of acquisition areas, sequencing the acquisition areas, confirming the acquisition starting position and the acquisition end position of each acquisition area, carrying out indoor video acquisition of the laboratory experiment area of each acquisition area by the arranged acquisition equipment according to the sequencing of the acquisition areas, the acquisition starting position and the acquisition end position of the acquisition areas, and merging the obtained indoor videos of the laboratory experiment area of each acquisition area to obtain the indoor video of the required laboratory experiment area.
As a preferable scheme, the step of collecting the experiment operation video of the experimenter by the laboratory experiment area collecting equipment is as follows:
dividing a laboratory experiment area into a plurality of areas, wherein a plurality of acquisition devices are installed in each area to form an acquisition network;
the acquisition equipment in each area acquires the operation action information of an operator in real time and transmits the action information;
analyzing the video information acquired by each acquisition device, and clustering according to each experimenter to obtain an action set of each experimenter;
and comparing the action set of each experimenter with a preset standard action, and carrying out real-time reminding through reminding equipment when the action sets are different.
As a preferable scheme, the multi-path videos of each experimenter are spliced to form panoramic videos.
As a preferable scheme, the spliced video is sent to a system account of an experimenter through a control system, so that the experimenter can conveniently review the spliced video.
The utility model provides an wisdom laboratory management platform, includes the laboratory, the laboratory includes simulation area and a plurality of laboratory experiment area, simulation area and laboratory experiment area are provided with simulation area entrance guard's device, experiment area entrance guard's device respectively, be provided with analog device in the simulation area, analog device includes analog device authentication system, be provided with laboratory instrument equipment, medicament storage device in the laboratory experiment area, all be provided with on laboratory instrument equipment and the medicament storage device and use authentication system, simulation area entrance guard's device, experiment area entrance guard's device, analog device authentication system use authentication system to be connected with control system respectively, control system is connected with storage module, control system still is connected with experiment area acquisition equipment, experiment area acquisition equipment includes:
And the acquisition module is used for: the experimental operation video acquisition module is used for acquiring experimental operation videos of each experimenter in a laboratory experiment area;
the action analysis module: the system comprises an acquisition module, a storage module, a control system and a control system, wherein the acquisition module is connected with the storage module and is used for analyzing experimental operation videos and analyzing whether experimental operation actions are consistent with standard actions stored in the storage module;
the reminding module is connected with the control system and used for reminding an experimenter in real time in the experimental operation process, and the control system sends signals to the reminding module.
As a preferred aspect, the simulation apparatus includes:
model module: a model for displaying a laboratory experiment area corresponding to each experiment name;
and (3) an analog storage module: all laboratory instrument names and medicament types of all laboratory experiment areas are stored in the simulation storage module in advance, and the laboratory instrument names, the medicament types and the medicament consumption corresponding to each laboratory name and each experiment operation process are stored in the simulation storage module;
the experimental instrument selection module: selecting experimental instrument equipment to be used under the corresponding experimental name;
The medicament selection module: selecting a medicament name to be used under the corresponding experiment name;
experiment operation module: the experimental operation module comprises corresponding experimental operation processes under corresponding experimental names, and corresponding medicaments and medicament dosage are selected under each experimental operation process;
and a data analysis module: the experimental instrument equipment selected by the experimental instrument selection module is compared with experimental instrument equipment corresponding to the corresponding experimental name in the storage module, the medicament name selected by the medicament selection module is compared with the medicament type corresponding to the corresponding experimental name in the storage module, and the corresponding medicament and medicament dosage selected by the experimental operation module in each experimental operation process are analyzed and compared with the medicament and medicament dosage corresponding to the experimental operation process in the storage module.
As a preferable scheme, the data storage module stores a mixture which is easy to explode and a common medicine which cannot be mixed when heated, the data analysis module is connected with the control system, the control system is respectively connected with the danger prompt module and the permission module, when the medicine selection module selects any one of the medicines which is easy to explode or the common medicine which cannot be mixed when heated, the data analysis module transmits the obtained data to the control system, the control system respectively transmits signals to the danger prompt module and the permission module, the danger prompt module prompts an experimenter, the mentor transmits agreements or disagreements to the control system through the permission module, the control system carries out corresponding operation, and when the mentor transmits agreements, the control system opens the authority of a laboratory experiment area.
As a preferred aspect, the model module includes:
the target confirmation module is used for acquiring a live-action acquisition target of a laboratory experiment area and processing the target;
the acquisition equipment arrangement module is used for calculating an arrangement scheme of acquisition equipment of the laboratory experiment area based on a live-action acquisition target of the laboratory experiment area;
the real-scene video acquisition module divides each laboratory experiment area into a plurality of acquisition areas, sorts the plurality of acquisition areas, confirms the acquisition starting position and the acquisition end position of each acquisition area, acquires the real-scene video of the laboratory experiment area of each acquisition area according to the sorting of the acquisition areas, the acquisition starting position and the acquisition end position of the acquisition areas by the arranged acquisition equipment, and combines the acquired real-scene videos of the laboratory experiment area of each acquisition area to acquire the required real-scene video of the laboratory experiment area;
and an experimental model modeling module: three-dimensional modeling is adopted to build a three-dimensional model of all experimental instruments and medicaments related under each experimental name, and a description page of any experimental instrument and medicament which can enter the clicked experimental instrument or medicament is clicked;
And the fusion module is used for fusing the live-action video of the laboratory experiment area with the three-dimensional models of all experimental instruments and equipment and medicaments related under each experiment name.
As a preferred scheme, a plurality of medicament bottles are placed in the medicament storage device, medicament name lamp plates are arranged on the storage device corresponding to the lower parts of the medicament bottles, the medicament name lamp plates are connected with the control system, and when the experimental instrument equipment in the data analysis module analysis simulation equipment, the medicament types and the medicament dosage corresponding to the experimental operation process all accord with standards, information is transmitted to the control system, the control system controls the start of the use authentication system, and after the experimenter passes through identity authentication, the control system controls the medicament name lamp plates to be lightened.
As a preferable scheme, the medicament storage device further comprises a dangerous medicament storage cabinet, a medicament with danger is placed in the dangerous medicament storage cabinet, the dangerous medicament storage cabinet comprises a dangerous storage cabinet authentication system, the dangerous storage cabinet authentication system is connected with a control system, and the control system is respectively connected with the data analysis module and the permission module.
The method and the device can analyze the correctness of the experimenter in self operation, when the experimenter performs independent experiments, the experimenter only needs to open equipment used in the simulation experiments after the simulation experiments, and when the simulation experiments are performed, the experimenter performs simulation of medicament selection, whether the types and the dosages of the medicaments accord with the standards or not can be analyzed through a control system, and the experimenter can quickly find out the required medicaments through prompting in actual experiments, so that the condition of taking the medicaments by mistake is avoided; the safety of laboratories and experimenters can be fundamentally ensured.
Drawings
FIG. 1 is a schematic view of the present invention at a laboratory angle one;
FIG. 2 is a schematic diagram of a laboratory angle II of the present invention;
FIG. 3 is a control logic block diagram of the control system of the present invention;
reference numerals:
1. a simulation area; 2. laboratory area; 3. a simulated area access control device; 4. an experimental area access control device; 5. a simulation device; 6. experimental instrument equipment; 7. a medicament storage device; 8. a medicament bottle; 9. the medicament name lamp plate.
Detailed Description
The following describes specific embodiments of the present invention in detail with reference to fig. 1 to 3. It should be noted that the detailed description herein is presented for purposes of illustration and explanation only and is not intended to limit the invention.
Embodiment one:
the application provides a control method of an intelligent laboratory management platform, which comprises the following steps:
s1: the acquisition equipment of the laboratory experiment area acquires experiment operation videos of each experimenter; the acquisition equipment preferably adopts a camera, and in order to capture experimental operation videos of experimenters without dead angles, the camera is arranged at the front part, the rear part and the side parts of the experimenters, so that the face, the operation actions and the experimental instrument equipment of the experimenters can be shot when the operation video acquisition time is carried out;
S2: analyzing the collected experimental operation videos of each experimenter to analyze whether the experimental operation actions of each experimenter accord with the specifications; in the process of collecting and analyzing the experimental operation view screen, the key points are facial features, operation actions and state features of experimental instrument equipment of an experimenter, wherein the collecting equipment comprises a facial collecting unit, an action collecting unit and an experimental instrument equipment collecting unit, after the experimental instrument equipment collecting unit obtains features of an experimental instrument, signals are transmitted to an instrument processing unit, the instrument processing unit analyzes the collected features of the experimental instrument, names of the instruments are determined, the names of the instruments are transmitted to a control system, the control system invokes standard operation actions of corresponding name instruments preset in a storage module, after the action collecting unit collects limb features of the experimenter, the signals are transmitted to a limb feature processing unit for processing and analyzing, the limb feature processing unit transmits the limb features obtained by analysis to a control system, and the control system compares the limb features obtained by analysis with the standard operation actions to judge whether inconsistent actions exist; after the facial feature of the experimenter is collected by the facial collection unit, a signal is transmitted to the facial processing unit, the facial processing unit analyzes the collected facial feature and sends the analyzed information to the control system, the control system compares the analyzed facial feature with personnel information which is pre-recorded in the storage module, the identity of the experimenter is confirmed, operation videos of all instruments corresponding to each experimenter are extracted and stored in the operation system of the corresponding experimenter, the operation system of the experimenter corresponds to the system account of the experimenter, and the system account is logged in, so that the own experiment operation video can be checked; the operation videos of all instruments corresponding to each experimenter are extracted and stored into the collected operation videos of the corresponding experimenter, and the specific steps are as follows: dividing a laboratory experiment area into a plurality of areas, wherein a plurality of acquisition devices are installed in each area to form an acquisition network; the acquisition equipment in each area acquires the operation action information of an operator in real time and transmits the action information; the control system analyzes the video information acquired by each acquisition device, acquires facial features of experimenters according to a facial acquisition unit, and clusters according to each experimenter to obtain an action set of each experimenter; preferably, in order to more conveniently view the videos, splicing multiple paths of videos of each experimenter into panoramic videos, more preferably, the spliced videos are sent into a system account of the experimenter through a control system, so that the experimenter can conveniently review the videos;
S3: carrying out real-time reminding on experimenters who do not accord with standard actions in the experimental operation process, and recording the real-time reminding in a control system; the control system compares and analyzes the obtained limb characteristics with standard operation actions, judges whether inconsistent actions exist, and sends signals to the reminding unit to remind corresponding experimenters when the inconsistent actions exist, wherein the reminding mode can be a voice broadcast mode and the like;
s4: during a non-guiding period, the experimenter enters a simulation area of a laboratory through identity authentication; the identity authentication mode can be fingerprint, facial recognition, IC card and the like;
s5: the experimenter performs a simulation experiment after passing identity authentication in a laboratory simulation area, opens the authority of simulation equipment in modes of fingerprint, facial recognition, IC card and the like, performs the simulation experiment, and reminds the experimenter according to recorded operation action problems in corresponding experiments of the corresponding experimenter after selecting experiment names; the reminding mode can be a text mode, a voice mode and a video mode, so that an experimenter can clearly know actions which are easy to be wrong;
s6: the experimenter selects experimental instrument equipment and medicament types to be subjected to experiments in simulation equipment, and selects medicament names and medicament dosage corresponding to each experimental operation process in each preset experimental operation module corresponding to each experimental name; the method is convenient for subsequent confirmation of whether the selection is wrong or not, and the subsequent opening of the corresponding use permission of the experimental instrument equipment and the medicament storage device which are involved in electricity is convenient when the selection is wrong, so that the safety of the experiment in real time is improved;
In the step, a mixture which is easy to explode during heating and a common medicine which cannot be mixed are stored in a storage module of a control system in advance, when an experimenter selects one of the combinations and belongs to the type of the medicine which is necessary under the selected experiment name, a reminding module of the simulation equipment prompts the combination to easily explode, and sends information to an instructor, the instructor needs to start a laboratory experiment area, the experimenter can perform related experiments, and the safety is further improved, specifically, the mixture which explodes during heating, such as magnesium powder-ammonium dichromate, magnesium powder-nitrate and the like, as shown in table 1; common drugs which cannot be mixed, such as a mixture of acetone and concentrated nitric acid and sulfuric acid, fluorine, chlorine and bromine; aniline, nitric acid, hydrogen peroxide (hydrogen peroxide), chlorine, and the like are shown in table 2.
Table 1: mixtures susceptible to explosion when heated
Table 2: non-mixable common medicine
S7: the control system compares the selected experimental instrument equipment, the medicament type, the medicament name corresponding to the experimental operation process and the medicament dosage with prestored parameters, and opens the laboratory experiment area corresponding to the experiment to be performed when the parameters are in accordance with the standards, and opens the authority of the selected electric experimental instrument equipment and the authority of the medicament storage cabinet; the control system compares the selected experiment name with the preset experiment instrument equipment, the preset medicament type and the medicament name and medicament dosage corresponding to the experiment operation process under the name, judges whether the experiment instrument equipment, the medicament type and the medicament dosage are consistent, and can be used for judging whether the experiment instrument equipment, the medicament type and the medicament dosage and the medicament name and the medicament dosage corresponding to the experiment operation process are consistent or not;
S8: the experimenter enters a laboratory experiment area through identity authentication to perform corresponding experiments, the experimenter starts experimental instrument equipment to be subjected to experiments selected in the simulation equipment through the identity authentication, the experimental instrument equipment not selected in the simulation equipment is not opened, the experimenter cannot use the experimental instrument equipment, the medicament storage cabinet is started through the identity authentication, and after the identity authentication of the medicament storage cabinet is passed, a medicament name lamp plate corresponding to the lower part of a medicament selected during simulation is lighted, so that the experimenter can conveniently and rapidly find a corresponding medicament;
s9: when an experimenter performs an actual operation experiment, the acquisition equipment in the laboratory experiment area acquires an experiment operation video of the experimenter, analyzes the operation video of the acquired experimenter, analyzes whether the experiment operation is standard, reminds actions which do not meet the standard in real time in the experiment operation process, records the actions into a control system, and sends the actions to corresponding directors.
In S7, when the experimental apparatus, the type of the chemical agent, the chemical agent name and the chemical agent amount corresponding to the experimental operation process are all selected to meet the preset standard, the list of the chemical agent name and the chemical agent amount corresponding to the experimental apparatus, the type of the chemical agent, and the experimental operation process is converted into the text information for printing, and the experimenter can carry the paper file for the experiment, thereby avoiding forgetting the steps, improving the success rate of the experiment, and reducing the risk.
As a preferable scheme, in order to improve the experience of the simulation experiment, in S6, a simulation model is built in the simulation device, and the building of the simulation model includes the following steps:
s6.1: collecting indoor videos of all laboratory areas, transmitting the indoor videos of the laboratory areas to a processing end of a control system, analyzing the indoor videos, and determining indoor characteristic information of the indoor videos of each laboratory area; the first processing end is used for analyzing the indoor video of the laboratory experiment area and determining the indoor characteristics contained in the indoor video of the laboratory experiment area, and an operating table, an instrument, a storage cabinet and the like in the laboratory experiment area; more specifically, the method comprises the following steps:
s6.11: acquiring an indoor scene acquisition target of a laboratory experiment area, processing the target, and confirming a target scene of the laboratory experiment area to be acquired; the target scene is an area where an experimenter needs to perform experiments, such as an operation platform, an experimental instrument area, a material storage area and the like; in the step, the indoor scene acquisition targets of the laboratory experiment area are known in advance and are used for representing the acquisition requirements of the actual laboratory experiment area, and the acquisition targets can be specific acquisition areas, such as an operation platform, a storage area, an experimental instrument area and the like, and can also be specific acquisition precision requirements and the like;
S6.12: performing secondary treatment on an indoor scene acquisition target of a laboratory experiment area, determining the requirement of video acquisition in the laboratory experiment area, determining the video resolution and the video range of the laboratory experiment area to be acquired based on the requirement of video acquisition, and calculating an acquisition equipment arrangement scheme in the laboratory experiment area through the video range of the laboratory experiment area; installing acquisition equipment in a laboratory experiment area according to an acquisition equipment arrangement scheme;
s6.13: dividing each laboratory experiment area into a plurality of acquisition areas, sequencing the plurality of acquisition areas, confirming the acquisition starting position and the acquisition end position of each acquisition area, carrying out laboratory experiment area indoor video acquisition of each acquisition area according to the sequencing of the acquisition areas, the acquisition starting position and the acquisition end position of the acquisition areas by arranged acquisition equipment, and merging the obtained laboratory videos of the laboratory experiment areas of each acquisition area to obtain the required laboratory experiment area indoor video; the target area is determined by analyzing the target of the indoor video, the acquisition equipment is arranged according to the target area, the indoor video of the laboratory experiment area is acquired by the acquisition equipment, the reliability of the indoor video of the laboratory experiment area is ensured, and a more real scene is provided for the subsequent simulation experiment;
S6.2: the indoor characteristic information is transmitted to a second processing end of the control system, and the second processing end builds a scene of a laboratory experiment area of a virtual laboratory to obtain a virtual environment of the laboratory experiment area; in the embodiment, the second processing end analyzes the characteristic information of the indoor articles in the indoor video of the laboratory experiment area, so that the virtual scene is built according to the characteristic information of the indoor articles;
s6.3: the virtual environment of each laboratory experiment area is transmitted to virtual equipment, the virtual environment of each laboratory experiment area and the corresponding experiment names set by the virtual environment are subjected to fusion treatment, the experiment instrument equipment, the medicament storage cabinet and the medicaments placed in the medicament storage cabinet are created through three-dimensional maintenance tools such as 3Dmax, maya and the like, the corresponding laboratory experiment areas under various experiment names are fixed, the experiment to be performed is displayed on the virtual equipment, particularly, the experiment area to be performed is performed, each experiment name relates to the experiment equipment, the experiment medicaments and the like, more particularly, the experiment position and the actual scene position are displayed at the position of an operation table, the safety of the actual experiment is further improved by combining with the virtual experiment, and an experimenter can more intuitively know the effect of any experiment instrument equipment and medicament and can timely check and leak the defect when the experiment is not confirmed;
S6.4: displaying the fusion treatment on virtual equipment, and selecting a medicament name and a medicament dosage corresponding to each experimental operation process in the virtual equipment according to the selected experimental instrument equipment, experimental medicaments and each experimental operation module by an experimenter; the experimenter can more intuitively feel the simulation experiment.
Embodiment two:
the embodiment provides an intelligent laboratory management platform, which comprises a laboratory, wherein the laboratory comprises a simulation area 1 and a plurality of laboratory experiment areas 2, the simulation area 1 is used for performing simulation before formal experiments, the simulation area 1 and the laboratory experiment areas 2 are respectively provided with a simulation area entrance guard device 3 and an experiment area entrance guard device 4, the simulation area entrance guard device 3 and the experiment area entrance guard device 4 can screen the identities of experimenters, so that safety is ensured, and inexperienced experimenters are prevented from entering the areas to cause risks; the simulation area 1 is internally provided with a plurality of simulation devices 5, so that a plurality of experimenters can simulate the simulation at the same time, the simulation devices 5 are used for experimenters to perform specific simulation experiments, and therefore, the types and dosages of experimental instruments and equipment in the experiment, the types of medicaments in the experiment operation are ensured to meet the standards, and the laboratory experiment area 2 is used for performing formal experiments; the simulation equipment 5 comprises a simulation equipment authentication system, the identity of an experimenter can be screened, the utilization rate of the simulation equipment 5 is improved, people without demands are prevented from occupying the simulation equipment, the laboratory experiment area 2 is internally provided with experimental instrument equipment 6 and a medicament storage device 7, the simulation experiment selects medicaments through the open medicament storage device 7, the authorities of the selected electric experiment instrument equipment 6 during the open simulation experiment are provided for the experimenter to carry out the experiment, the electric equipment irrelevant to the simulation experiment cannot be started by the experimenter, and the medicament storage device 7 is preferably a medicament storage cabinet; the experimental instrument equipment 6 and the medicament storage device 7 are respectively provided with a use authentication system, the use authentication system is arranged to further improve the safety, the simulation area access control device 3, the experimental area access control device 4, the simulation equipment 5, the simulation equipment authentication system and the use authentication system are respectively connected with a control system, the control system is also connected with an experimental area acquisition device, the experimental area acquisition device comprises an acquisition module, an action analysis module and a reminding module, wherein:
And the acquisition module is used for: the experimental operation video acquisition module is used for acquiring experimental operation videos of each experimenter in a laboratory experiment area;
the action analysis module: the system comprises an acquisition module, a storage module, a control system and a control system, wherein the acquisition module is connected with the control system;
the reminding module is connected with the control system and used for reminding an experimenter in real time in the experimental operation process, and the control system sends signals to the reminding module.
The simulation apparatus includes:
model module: the control system is connected with the laboratory experiment area model display module and is used for displaying the laboratory experiment area model corresponding to each experiment name; the experimenter can combine the corresponding laboratory experiment area when carrying out the simulation experiment, and the experience is more real;
and (3) an analog storage module: all laboratory instrument names and medicament types of all laboratory experiment areas are stored in the simulation storage module in advance, and the laboratory instrument names, the medicament types and the medicament consumption corresponding to each laboratory name and each experiment operation process are stored in the simulation storage module;
The experimental instrument selection module: selecting experimental instrument equipment to be used under the corresponding experimental name;
the medicament selection module: selecting a medicament name to be used under the corresponding experiment name;
experiment operation module: the experimental operation module comprises corresponding experimental operation processes under corresponding experimental names, and corresponding medicaments and medicament dosage are selected under each experimental operation process;
and a data analysis module: the data analysis module is connected with the control system, compares the experimental instrument selected by the experimental instrument selection module with experimental instrument equipment corresponding to corresponding experimental names in the storage module, compares the drug names selected by the drug selection module with drug types corresponding to the corresponding experimental names in the storage module, analyzes and compares the drug selected by the experimental operation module under each experimental operation process with the drug and the drug corresponding to the experimental operation process in the storage module, and sends the result to the control system, and the control system controls whether the authority of the laboratory experiment area, the experimental instrument equipment and the drug storage device is opened;
Further, the data storage module stores the mixture which is easy to explode and the common medicine which cannot be mixed when being heated, the data analysis module is connected with the control system, the control system is respectively connected with the danger prompt module and the permission module, when the medicine selection module selects any one of the mixture which is easy to explode or the common medicine which cannot be mixed when being heated, the data analysis module transmits the obtained data to the control system, the control system respectively transmits signals to the danger prompt module and the permission module, the danger prompt module prompts an experimenter, the mentor transmits consent opinion or disagreement opinion to the control system through the permission module, the control system performs corresponding operation, and when the mentor transmits consent opinion, the control system opens the authority of a laboratory experiment area, so that the safety is further improved, and the experimenter is prevented from causing dangerous accidents because of improper selection of medicines and dosage of medicines.
As a preferred aspect, the model module includes:
the target confirmation module is used for acquiring a live-action acquisition target of a laboratory experiment area and processing the target;
the acquisition equipment arrangement module is used for calculating an arrangement scheme of acquisition equipment of the laboratory experiment area based on a live-action acquisition target of the laboratory experiment area;
The real-scene video acquisition module divides each laboratory experiment area into a plurality of acquisition areas, sorts the plurality of acquisition areas, confirms the acquisition starting position and the acquisition end position of each acquisition area, acquires the real-scene video of the laboratory experiment area of each acquisition area according to the sorting of the acquisition areas, the acquisition starting position and the acquisition end position of the acquisition areas by the arranged acquisition equipment, and combines the acquired real-scene videos of the laboratory experiment area of each acquisition area to acquire the required real-scene video of the laboratory experiment area;
and an experimental model modeling module: three-dimensional modeling is adopted to build a three-dimensional model of all experimental instruments and medicaments related under each experimental name, and a description page of any experimental instrument and medicament which can enter the clicked experimental instrument or medicament is clicked;
and the fusion module is used for fusing the live-action video of the laboratory experiment area with the three-dimensional models of all experimental instruments and equipment and medicaments related under each experiment name.
As a preferred scheme, a plurality of medicament bottles 8 are placed in the medicament storage device 7, a medicament name lamp 9 is arranged on a storage device corresponding to the lower part of the medicament bottles 8, the medicament name lamp 9 is connected with the control system, the data analysis module analyzes experimental instrument equipment in simulation equipment, medicament types and medicament dosage corresponding to the experimental operation process when the medicament and medicament dosage all meet standards, information is transmitted to the control system, the control system controls the start of using an authentication system, after an experimenter passes identity authentication, the control system controls the medicament name lamp 9 to be lighted, so that the experimenter can conveniently take the medicament, and the problem of medicament errors is prevented; more preferably, the medicament storage device adopts an RFID storage cabinet, each medicament bottle is stuck with an RFID label corresponding to the medicament, chinese information of the medicament is displayed on the RFID label, and a user can conveniently correspond to the medicament name on the medicament name lamp plate and return to the original position; when the corresponding medicine bottle 8 is not placed on the position, the medicine name lamp 9 gives out red early warning to indicate that the medicine bottle 8 is incorrect in position, and when the medicine bottle 8 is stored correctly, the medicine name lamp 9 does not emit light; more preferably, when prompting, the medicament name lamp plate 9 emits green prompting light for experimenters to take; it is to be noted that when the RFID storage cabinet is used, the cabinet door is closed to read more accurately, when a plurality of RFID storage cabinets are arranged, the tightness of the cabinet body is ensured, and the reading error of signals is prevented, if the medicaments needing ventilation preservation are involved, corresponding ventilation equipment is arranged on the cabinet body, and specific details are not needed.
Further, the medicament storage device comprises a dangerous medicament storage cabinet, and for dangerous reagents such as reagents which are easy to cause explosion reaction are stored in the dangerous medicament storage cabinet, the dangerous medicament storage cabinet comprises a dangerous storage cabinet authentication system, the dangerous storage cabinet authentication system is connected with a control system, and the control system is respectively connected with a data analysis module and a permission module; the start of the dangerous storage cabinet authentication system requires permission of a director, and an experimenter can open the dangerous medicament storage cabinet only by giving open permission; further improves the safety and radically eliminates the possibility of danger.
Embodiment III:
the embodiment provides a specific application scene, and the experiment is thin layer chromatography aflatoxin B 1 The experimental principle is as follows: AFTB in edible oil samples 1 Extracting with organic solvent, purifying, concentrating, separating by thin layer chromatography, generating fluorescence under 365nm ultraviolet light, and displaying fluorescence intensity on thin layer plate and standard AFTB 1 Determination of AFTB in samples by comparison of fluorescence intensities generated by the lowest detection amounts 1 Is contained in the composition.
Experiments performed during non-guidance must be experiments performed under the guidance of a mentor, and a new experiment which is not guided by the mentor cannot be performed alone because of the record in the control system;
The specific operation steps are as follows:
s1: during the instruction experiment, the collection device of the laboratory experiment area 2 collects the experiment operation video of each experimenter, including the operation video of all experiments performed by the experimenters, for example, collects the main experiment operation video related to the embodiment, including but not limited to the shaking action of the separating funnel, the standard action is to plug the plug of the separating funnel tightly, screw the knob tightly, press the plug with the right hand, hold the piston with the left hand, cross the separating funnel, shake from front to back, shake from side to side, unscrew the piston for deflation, and avoid liquid sprinkling; the stirring action of the solution is involved, the standard action is that the beaker is to be placed horizontally, a glass rod is inserted into the solution in the beaker and can not be contacted with the inner wall of the beaker, the glass rod is put in obliquely, the glass rod rotates at the center of the solution to drive the solution to rotate, the glass rod rotates along one direction during stirring and can not rotate back and forth, after the stirring is completed, the glass rod is lifted out of the solution, the glass rod is not required to be thrown at will after the solution is driven, and the glass rod is washed clean in time by water and kept dry and placed in a specified place;
s2: analyzing the collected experimental operation videos of each experimenter to analyze whether each experimental operation action of each experimenter accords with the specification; as in the present experiment, the experimenter had A, B, and then the shaking motion of the separating funnel of a and the stirring motion of the solution were collected, while the shaking motion of the separating funnel of B and the stirring motion of the solution were collected; judging whether the shaking action of the separating funnel A and the shaking action of the separating funnel B and the stirring action of the solution are in accordance with the standard action stored in the storage module in advance;
S3: carrying out real-time reminding on experimenters who do not accord with standard actions in the experimental operation process, and recording the real-time reminding in a control system; if A does not twist the plug on the separating funnel during the shaking action of the separating funnel, the A is prompted in a voice mode, if B is stirred, the glass rod is randomly thrown after the stirring is finished, and the B is prompted in a voice mode;
s4: the method comprises the steps that in a non-guiding period, when a director is not in a laboratory experiment area, A and/or B enter the laboratory simulation area 1 through identity authentication, the identity authentication adopts the modes of fingerprint, facial recognition, IC card and the like, the identity of a experimenter can be distinguished, a non-experimenter cannot enter the experimenter, danger is prevented from being caused by lack of common sense, A and/or B enter the simulation area 1 to simulate before entering the laboratory experiment area 2, the simulation passes through the post-opening laboratory experiment area 2, and safety in actual experiment is improved;
s5: a and/or B carry out simulation experiments after passing identity authentication in a laboratory simulation area 1, namely firstly confirming the identity of an experimenter, and can confirm the experiment carried out before the experimenter, select the name of the simulation experiment in the carried out experiment, and remind the experimenter according to the recorded operation and action problems in the corresponding experiment of the corresponding experimenter; if A passes identity authentication, selecting an experiment of measuring aflatoxin B1 by a thin layer chromatography, and prompting A to twist a plug on a separating funnel by a control system according to a mode of recording voice, characters, video and the like when the A shakes; b, through identity authentication, selecting an experiment of measuring aflatoxin B1 by a thin layer chromatography, and prompting the B to stir the solution by a control system according to a mode of recording through voice, characters, video and the like, and then shaking the glass rod without any choice after stirring is finished;
S6: a and/or B selects experimental instrument equipment to be tested, the type of the medicament and the medicament dosage involved in experimental operation in the simulation equipment; a and/or B select the laboratory instrument equipment by the simulation equipment 5 as: slow filter paper of anhydrous sodium sulfate, fume hood, beaker, stirring rod, separating funnel, glass plate (5×20 cm), coater, chromatographic spreading slot (25×6×4 cm), ultraviolet lamp: 100-125W, a micro-analytical balance with a 365nm wavelength filter, a micro-injector (20 uL,10uL each), a parts per million micro-analytical balance, a refrigerator, an ultraviolet spectrophotometer;
the selected medicament types are as follows: trichloromethane (AR), n-hexane (AR boiling range 30-60) or petroleum ether (boiling range 60-90), methanol (AR), benzene (AR), acetonitrile (AR), anhydrous diethyl ether (AR), acetone (AR), trifluoroacetic Acid (AR), sodium chloride (AR), anhydrous sodium sulfate (AR), silica gel G (for thin layer chromatography), bleaching extract, sodium carbonate, AFTB 1 Standard and peanut oil samples;
the dosage of the medicament involved in the experimental operation is as follows:
1. in the experimental operation of preparing 5% sodium hypochlorite solution, the reagents and amounts involved were: 100g of bleaching extract and 80g of sodium carbonate; the above-mentioned medicines are names of medicines involved in experiments, and the following medicines are simplified and are not described in detail herein;
2. Preparation of aflatoxin B 1 In the experimental operation of standard stock solutions, the reagents and amounts involved were: AFTB in an amount of 1-1.2mg 1 Standard, 2mL acetonitrile, 98mL benzene, benzene-acetonitrile mixed solution;
3. preparation of aflatoxin B 1 In the experimental operation of the standard application liquid I (1 ug/mL), the related medicaments and the dosage are as follows: 1.0mL of aflatoxin B 1 Standard stock solution, benzene-acetonitrile mixed solution;
4. preparation of aflatoxin B 1 In the experimental procedure of Standard application liquid II (0.2 ug/mL), 1.0mL of aflatoxin B 1 Standard application liquid I, benzene-acetonitrile mixed solution;
5. aflatoxin B 1 In the standard protocol using liquid III (0.04 ug/mL), 1.0mL of aflatoxin B 1 Standard application liquid II, benzene-acetonitrile mixed solution;
6. in the experimental operation of the benzene-acetonitrile mixed solution, the proportioning ratio of the benzene-acetonitrile is 98:2; the proportion ratio of the methanol-water mixed solution is 55:45;
7. in the experimental operation of sample pretreatment, the reagents and amounts involved were: 4g of peanut oil, 20mL of petroleum ether or normal hexane, 25mL of methanol-water solution, 20mL of chloroform, 10g of slow filter paper of anhydrous sodium sulfate wetted by the chloroform, 5mL of chloroform and 1mL of benzene-acetonitrile mixed solution;
8. in the experimental operation of sample determination, the reagents and amounts involved are: 3G of silica gel G, and water with about 2-3 times of the silica gel amount;
9. In the sample application experiment operation, the related medicaments and the dosage are as follows: first point: 10uL0.04ug/mL aflatoxin B 1 Standard application liquid III; second point: 20uL aflatoxin B 1 Standard stock solutions; third point: 20uL aflatoxin B 1 Standard stock solution, 10ul0.04ug/mL aflatoxin B 1 Standard application liquid III; fourth point: 20uL aflatoxin B 1 Standard stock solution, 10uL0.2ug/mL aflatoxin B 1 Standard application liquid II;
10. in the developed experimental operation, the reagents and amounts involved were: 10mL of anhydrous diethyl ether, 10mL of a mixed solvent of acetone and chloroform (8+92);
11. in the validation experiment operation, the related medicaments and the dosage are as follows: first, 10uL0.04ug/mL aflatoxin B1 standard application liquid III; second, 20uL of aflatoxin B1 standard stock; third point: 10uL0.04 ug/L aflatoxin B 1 Standard application liquid III; fourth point: 20uL aflatoxin B 1 Standard stock solutions;
12. the reagents and amounts involved in the dilution quantification are: first, 10uL0.04ug/mL aflatoxin B 1 Standard application liquid III; second, 10uL aflatoxin B 1 Standard stock solutions; third point: 15uL aflatoxin B 1 Standard stock solutions; fourth Point, 20uL aflatoxin B 1 Standard stock solutions.
S7: the control system analyzes the simulation experiment and selects the experimental instrument equipment, the type of the medicament and the medicament dosage involved in the experimental operation to be performedComparing the laboratory experimental region with parameters preset in the simulation storage module, and opening a laboratory experimental region corresponding to an experiment to be performed when the parameters are in accordance with preset standards; storing all laboratory test areas and all reagent types in a simulation storage module of the control system for selection by a experimenter during simulation experiments, and pre-storing the corresponding laboratory test equipment, reagent types, test operations and reagent amounts in each test operation according to the test names of the corresponding tests, wherein the test operations comprise preparation of 5% sodium hypochlorite solution and preparation of aflatoxin B in the embodiment 1 Standard stock solution, preparation of aflatoxin B 1 Standard application liquid I (1 ug/mL), preparation of aflatoxin B 1 Standard application liquid II (1 ug/mL), preparation of aflatoxin B 1 Standard application solution III (0.04 ug/mL), preparation of benzene-acetonitrile mixed solution, sample pretreatment, sample measurement, spotting, development, validation experiment, dilution and quantification, and storage of the specific medicament and the dosage of the medicament involved under the corresponding experimental operation module, specifically 1, the experimental operation of preparing 5% sodium hypochlorite solution, the involved medicaments and dosage are as follows: 100g of bleaching extract and 80g of sodium carbonate; 2. preparation of aflatoxin B 1 In the experimental operation of standard stock solutions, the reagents and amounts involved were: AFTB in an amount of 1-1.2mg 1 Standard, 2mL acetonitrile, 98mL benzene, benzene-acetonitrile mixed solution; 3. preparation of aflatoxin B 1 In the experimental operation of the standard application liquid I (1 ug/mL), the related medicaments and the dosage are as follows: 1.0mL of aflatoxin B 1 Standard stock solution, benzene-acetonitrile mixed solution; 4. preparation of aflatoxin B 1 In the experimental procedure of Standard application liquid II (0.2 ug/mL), 1.0mL of aflatoxin B 1 Standard application liquid I, benzene-acetonitrile mixed solution; 5. aflatoxin B 1 In the standard protocol using liquid III (0.04 ug/mL), 1.0mL of aflatoxin B 1 Standard application liquid II, benzene-acetonitrile mixed solution; 5. in the experimental operation of the benzene-acetonitrile mixed solution, the proportioning ratio of the benzene-acetonitrile is 98:2; the proportion ratio of the methanol-water mixed solution is 55:45; 7. in the experimental operation of sample pretreatment, the reagents and amounts involved were: 4gPeanut oil, 20mL of petroleum ether or n-hexane, 25mL of methanol-water solution, 20mL of chloroform, 10g of slow filter paper of anhydrous sodium sulfate wetted by the chloroform, 5mL of chloroform, and 1mL of benzene-acetonitrile mixed solution; 8. in the experimental operation of sample determination, the reagents and amounts involved are: 3G of silica gel G, and water with about 2-3 times of the silica gel amount; 9. in the sample application experiment operation, the related medicaments and the dosage are as follows: first point: 10uL 0.04ug/mL aflatoxin B 1 Standard application liquid III; second point: 20uL aflatoxin B 1 Standard stock solutions; third point: 20uL aflatoxin B 1 Standard stock solution, 10ul0.04ug/mL aflatoxin B 1 Standard application liquid III; fourth point: 20uL aflatoxin B 1 Standard stock solution, 10uL0.2ug/mL aflatoxin B 1 Standard application liquid II; 10. in the developed experimental operation, the reagents and amounts involved were: 10mL of anhydrous diethyl ether, 10mL of a mixed solvent of acetone and chloroform (8+92); 11. in the validation experiment operation, the related medicaments and the dosage are as follows: first, 10uL0.04ug/mL aflatoxin B 1 Standard application liquid III; second, 20uL aflatoxin B 1 Standard stock solutions; third point: 10uL0.04 ug/L aflatoxin B 1 Standard application liquid III; fourth point: 20uL aflatoxin B 1 Standard stock solutions; 12. the reagents and amounts involved in the dilution quantification are: first, 10uL0.04ug/mL aflatoxin B 1 Standard application liquid III; second, 10uL aflatoxin B 1 Standard stock solutions; third point: 15uL aflatoxin B 1 Standard stock solutions; fourth Point, 20uL aflatoxin B 1 Standard stock solutions; the dosage of the medicament under each experimental operation can be allowed to have errors, and the dosage is not more than 10 percent of the dosage of the medicament preset by the medicament.
In the step, the control system compares the experimental instrument equipment selected by the experimenter on the simulation equipment with the experimental instrument equipment corresponding to the prestored experimental name, the control system compares the medicament type selected by the experimenter on the simulation equipment with the medicament type corresponding to the prestored experimental name, and the control system compares the medicament type selected by the experimenter in each experimental operation and the dosage thereof with the prestored experimental nameThe corresponding medicament types and the dosage thereof in the experimental operation are compared, and all three are matched with the prestored parameters, so that the laboratory experiment area is opened, a experimenter is allowed to enter the laboratory for operation, and before the laboratory experiment area enters the laboratory experiment area, the experimenter can enter the laboratory experiment area through identity authentication; the laboratory experiment area in this example includes laboratory experiment area one, laboratory experiment area two, and laboratory experiment area three, in which aflatoxin B is obtained by thin layer chromatography 1 The laboratory experiment area corresponding to the measurement experiment of (1) is a first laboratory experiment area;
s8: a and/or B enter a laboratory experiment area I through identity authentication to carry out corresponding experiments, and the identity authentication adopts the forms of face recognition, fingerprint, IC card and the like, and in the embodiment, the thin layer chromatography aflatoxin B 1 The laboratory experiment area corresponding to the measurement experiment is the laboratory experiment area I, so that an experimenter can only enter the laboratory experiment area I, the laboratory experiment area II and the laboratory experiment area III have no authority to enter, and if a plurality of experiments are required to be simultaneously carried out, each experiment needs to be simulated under simulation equipment; the experimenter opens the experimental instrument equipment to be tested of selecting in analog device through the authentication, opens the medicament storage cabinet through the authentication, and medicament name lamp tablet that the medicament that selects when the medicament storage cabinet authentication passed through the back, control system control simulation corresponds lights, and the experimenter of being convenient for finds corresponding medicament fast, and experimental instrument equipment of selecting in this embodiment includes anhydrous sodium sulfate's slow filter paper, fume chamber, beaker, stirring rod, separating funnel, glass board (5 x 20 cm), coating apparatus, chromatographic spread groove (25 x 6 x 4 cm), ultraviolet lamp: 100-125W, a micro-analytical balance with a 365nm wavelength filter, a micro-injector (20 uL,10uL each), a parts per million micro-analytical balance, a refrigerator, an ultraviolet spectrophotometer; because the slow filter paper, the beaker, the stirring rod, the separating funnel, the glass plate, the coater, the chromatographic spreading groove, the optical filter, the microinjector and the micro-analysis balance belong to conventional equipment and do not interfere with electricity, the permission setting is not needed, and the device can be directly taken and used, and the ventilation cabinet, the ultraviolet lamp, the refrigerator and the ultraviolet spectroscopic light The thermometer can be used after being electrified, the fume hood, the ultraviolet lamp, the refrigerator and the ultraviolet spectrophotometer can be started after passing identity authentication, and for other equipment needing to be electrified, such as a constant temperature and humidity test box, a circulating water vacuum pump and the like, because the authority of an experimenter can not be started, the medicament storage cabinet is opened through the identity authentication, and a control system controls chloroform (AR), n-hexane (AR boiling range 30-60) or petroleum ether (boiling range 60-90), methanol (AR), benzene (AR), acetonitrile (AR), anhydrous diethyl ether (AR), acetone (AR), trifluoroacetic Acid (AR), sodium chloride (AR), anhydrous sodium sulfate (AR), silica gel G (for thin-layer chromatography), bleaching essence, sodium carbonate and AFTB) selected during simulation 1 The medicament name lamp plate corresponding to the lower part of the standard product is lighted, so that an experimenter can find out corresponding medicaments quickly, the experimenter can conveniently reset the experimental medicaments according to the corresponding label on the medicament bottle and the medicament name lamp plate, the medicaments can be stored in a classified manner, if ventilation is required to be ensured, the medicaments are placed in a medicament storage cabinet, ventilation equipment is arranged, and the stored medicaments are ventilated in time;
S9: and when the experimenter enters the first laboratory experiment area to perform experiments and the experiment time is long, the acquisition equipment in the first laboratory experiment area acquires the experiment operation video of the experimenter, analyzes the operation video of the acquired experimenter, analyzes whether the experiment operation is standard, reminds the action which does not meet the standard in real time in the experiment operation process, records the action into the control system and sends the action to the corresponding instructor, and the step is the same as S1, S2 and S3, and is not specifically repeated here.
The method and the device can analyze the correctness of the experimenter in self operation, when the experimenter performs independent experiments, the experimenter only needs to open equipment used in the simulation experiments after the simulation experiments, and when the simulation experiments are performed, the experimenter performs simulation of medicament selection, whether the types and the dosages of the medicaments accord with the standards or not can be analyzed through the control system, and the experimenter can quickly find out the required medicaments through prompting, so that the condition of taking the medicaments by mistake is avoided; the safety of laboratories and experimenters can be fundamentally ensured.
Those of ordinary skill in the art will appreciate that: the above discussion of any embodiment is merely exemplary and is not intended to imply that the scope of the disclosure of embodiments of the invention, including the claims, is limited to such examples; combinations of features of the above embodiments or in different embodiments are also possible within the idea of an embodiment of the invention, and there are many other variations of the different aspects of the embodiments of the invention as described above, which are not provided in detail for the sake of brevity. Therefore, any omissions, modifications, equivalent substitutions, improvements, and the like, which are made within the spirit and principles of the embodiments of the invention, are included within the scope of the embodiments of the invention.
Claims (9)
1. The intelligent laboratory management platform control method is characterized by comprising the following steps of:
s1: the acquisition equipment of the laboratory experiment area acquires experiment operation videos of each experimenter;
s2: analyzing the collected experimental operation videos of each experimenter to analyze whether the experimental operation actions of each experimenter accord with the specifications;
s3: carrying out real-time reminding on experimenters who do not accord with standard actions in the experimental operation process, and recording the real-time reminding in a control system;
s4: during a non-guiding period, the experimenter enters a simulation area of a laboratory through identity authentication;
s5: after the experimenter passes the identity authentication in the simulation area of the laboratory, the experimenter carries out simulation experiments, and after the experiment name is selected, the control system reminds the experimenter according to the recorded operation action problems of the corresponding experimenter in the corresponding experiments;
s6: the experimenter selects experimental instrument equipment and medicament types to be subjected to experiments in simulation equipment, and selects medicament names and medicament dosage corresponding to each experimental operation process in each preset experimental operation module corresponding to each experimental name;
establishing a simulation model in the simulation equipment, wherein the establishment of the simulation model comprises the following steps:
S6.1: the method comprises the steps of collecting indoor videos of each laboratory experiment area, transmitting the indoor videos of the laboratory experiment areas to a processing end of a control system, analyzing the indoor videos, and determining indoor characteristic information of the indoor videos of each laboratory experiment area;
s6.2: the indoor characteristic information is transmitted to a second processing end of the control system, and the second processing end builds a scene of a laboratory experiment area of a virtual laboratory to obtain a virtual environment of the laboratory experiment area;
s6.3: transmitting the virtual environment of the laboratory experiment area to virtual equipment, and carrying out fusion treatment on the virtual equipment, experimental instrument equipment and experimental medicament under various preset experiment names in the virtual equipment;
s6.4: after the fusion processing, displaying on the virtual equipment;
s7: the control system compares the selected experimental instrument equipment, the medicament type, the medicament name and the medicament dosage corresponding to the experimental operation process with prestored parameters, and opens a laboratory experiment area corresponding to the experiment to be performed when the parameters are in accordance with the standards; and opening the authority of the selected experimental instrument equipment involved in electricity and the authority of the medicament storage cabinet;
s8: the experimenter enters a laboratory experiment area through identity authentication to perform an experiment selected during simulation, the experimenter starts an electric experimental instrument device selected in simulation equipment to be subjected to the experiment through the identity authentication, a medicament storage cabinet is started through the identity authentication, and after the identity authentication of the medicament storage cabinet is passed, a control system controls a medicament name lamp plate corresponding to the lower part of a medicament selected during simulation to be lighted;
S9: when an experimenter performs an actual operation experiment, the acquisition equipment in the laboratory experiment area acquires an experiment operation video of the experimenter, analyzes the operation video of the acquired experimenter, analyzes whether the experiment operation is standard, reminds actions which do not meet the standard in real time in the experiment operation process, records the actions into a control system, and sends the actions to corresponding directors.
2. The intelligent laboratory management platform control method according to claim 1, wherein in the step S7, when the selected laboratory equipment to be tested, the type of the medicine, the name of the medicine corresponding to the experimental operation process and the dosage of the medicine all meet the preset standards in the simulation test, the list of the laboratory equipment, the type of the medicine, the name of the medicine corresponding to the experimental operation process and the dosage of the medicine is converted into text information for printing.
3. The intelligent laboratory management platform control method according to claim 1, wherein the step of indoor video acquisition of the laboratory experiment area in S6.1 is as follows:
s6.11: acquiring an indoor scene acquisition target of a laboratory experiment area, processing the target, and confirming a target scene of the laboratory experiment area to be acquired;
S6.12: performing secondary treatment on a live-action acquisition target of a laboratory experiment area, determining the requirement of video acquisition in the laboratory experiment area, determining the video resolution and the video range of the laboratory experiment area to be acquired based on the requirement of video acquisition, calculating an acquisition equipment arrangement scheme in the laboratory experiment area through the video range of the laboratory experiment area, and installing acquisition equipment in the laboratory experiment area according to the acquisition equipment arrangement scheme;
s6.13: dividing a laboratory experiment area into a plurality of acquisition areas, sequencing the acquisition areas, confirming the acquisition starting position and the acquisition end position of each acquisition area, carrying out indoor video acquisition of the laboratory experiment area of each acquisition area according to the sequencing of the acquisition areas, the acquisition starting position and the acquisition end position of the collection area by the arranged acquisition equipment, merging the obtained indoor videos of the laboratory experiment area of each acquisition area, and obtaining the indoor video of the required laboratory experiment area.
4. The intelligent laboratory management platform control method according to claim 1, wherein the step of collecting operation actions by the laboratory experiment area collecting device is as follows:
Dividing a laboratory experiment area into a plurality of areas, wherein a plurality of acquisition devices are installed in each area to form an acquisition network;
the acquisition equipment in each area acquires the operation action information of an operator in real time and transmits the action information;
analyzing the video information acquired by each acquisition device, and clustering according to each experimenter to obtain an action set of each experimenter;
and comparing the action set of each experimenter with a preset standard action, and carrying out real-time reminding through reminding equipment when the action sets are different.
5. A smart laboratory management platform using the control method of any one of claims 1 to 4, comprising a laboratory, wherein the laboratory comprises a simulation area (1) and a plurality of laboratory experiment areas (2), the simulation area (1) and the laboratory experiment areas (2) are respectively provided with a simulation area entrance guard device (3) and a laboratory experiment area entrance guard device (4), simulation equipment (5) is arranged in the simulation area (1), the simulation equipment (5) comprises a simulation equipment authentication system, laboratory experiment areas (2) are internally provided with laboratory instrument equipment (6) and a medicament storage device (7), the laboratory instrument equipment (6) and the medicament storage device (7) are respectively provided with a use authentication system, the simulation area entrance guard device (3), the laboratory area entrance guard device (4), the simulation equipment (5) and the simulation equipment authentication system are respectively connected with a control system, and the control system is further connected with a laboratory area acquisition equipment, and the laboratory area acquisition equipment comprises:
And the acquisition module is used for: the experimental operation video acquisition module is used for acquiring experimental operation videos of each experimenter in a laboratory experiment area (2);
the action analysis module: the system comprises an acquisition module, a storage module, a control system and a control system, wherein the acquisition module is connected with the storage module and is used for analyzing experimental operation videos and analyzing whether experimental operation actions are consistent with standard actions stored in the storage module;
the reminding module is connected with the control system and used for reminding an experimenter in real time in the experimental operation process, and the control system sends signals to the reminding module.
6. The intelligent laboratory management platform according to claim 5, wherein the simulation device comprises:
model module: a model for displaying a laboratory experiment area (2) corresponding to each experiment name;
and (3) an analog storage module: the method comprises the steps of storing all names and medicament types of all laboratory instruments (6) in all laboratory experiment areas (2) in a storage module in advance, and storing the names, medicament types and medicament consumption of the laboratory instruments (6) corresponding to each experiment name in a simulation storage module;
The experimental instrument selection module: selecting experimental instrument equipment (6) which needs to be used under the corresponding experimental name;
the medicament selection module: selecting a medicament name to be used under the corresponding experiment name;
experiment operation module: the experimental operation module comprises corresponding experimental operation processes under corresponding experimental names, and corresponding medicaments and medicament dosage are selected under each experimental operation process;
and a data analysis module: the experimental instrument equipment (6) selected by the experimental instrument selection module is compared with the experimental instrument equipment (6) corresponding to the corresponding experimental name in the storage module, the medicament name selected by the medicament selection module is compared with the medicament type corresponding to the corresponding experimental name in the storage module, and the corresponding medicament and medicament dosage selected by the experimental operation module in each experimental operation process are analyzed and compared with the medicament and medicament dosage corresponding to the experimental operation process in the storage module.
7. The intelligent laboratory management platform according to claim 6, wherein the analog storage module stores a mixture which is easy to explode and a common medicine which cannot be mixed when heated, the data analysis module is connected with the control system, the control system is respectively connected with the danger prompt module and the permission module, when any one of the medicines which is easy to explode or the common medicine which cannot be mixed when heated is selected by the medicine selection module, the data analysis module transmits the obtained data to the control system, the control system respectively transmits a signal to the danger prompt module and the permission module, the danger prompt module prompts an experimenter, the instructor transmits consent opinion or disagreement opinion to the control system through the permission module, the control system performs corresponding operation, and when the instructor transmits consent opinion, the control system opens the authority of a laboratory experiment area.
8. The intelligent laboratory management platform according to claim 6, wherein said model module comprises:
the target confirmation module is used for acquiring a live-action acquisition target of a laboratory experiment area and processing the target;
the acquisition equipment arrangement module is used for calculating an arrangement scheme of acquisition equipment of the laboratory experiment area based on a live-action acquisition target of the laboratory experiment area;
the real-scene video acquisition module divides a laboratory experiment area of each laboratory into a plurality of acquisition areas, sorts the plurality of acquisition areas, confirms an acquisition starting position and an acquisition end position of each acquisition area, acquires the real-scene video of the laboratory experiment area of each acquisition area according to the sorting of the acquisition areas, the acquisition starting position and the acquisition end position of the acquisition areas by the arranged acquisition equipment, and combines the acquired real-scene videos of the laboratory experiment area of each acquisition area to obtain the required real-scene video of the laboratory experiment area;
and an experimental model modeling module: three-dimensional modeling is adopted to build a three-dimensional model of all experimental instruments and medicaments related under each experimental name, and a description page of any experimental instrument and medicament which can enter the clicked experimental instrument or medicament is clicked;
And the fusion module is used for fusing the live-action video of the laboratory experiment area with the three-dimensional models of all experimental instruments and equipment and medicaments related under each experiment name.
9. The intelligent laboratory management platform according to claim 6, wherein a plurality of medicine bottles (8) are placed in the medicine storage device (7), medicine name lamp cards (9) are arranged on the storage device corresponding to the lower parts of the medicine bottles (8), the medicine name lamp cards (9) are connected with the control system, the data analysis module analyzes the experiment instrument equipment (6) in the simulation equipment, the medicine types, and the corresponding medicine and medicine dosage in the experiment operation process all meet the standard, information is transmitted to the control system, the control system controls the start of the use authentication system, and after the experimenter passes through identity authentication, the control system controls the medicine name lamp cards (9) to be lighted.
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