CN117557041A - Edge calculation-based off-line automatic control method for dangerous waste transfer - Google Patents

Abstract

The invention discloses an off-line automatic control method for dangerous waste transfer based on edge calculation, which relates to the technical field of dangerous waste transfer and solves the problems that the specific treatment capacity with overlarge discrete coefficient in a selectable station is not removed, so that the dangerous waste distribution precision is easy to cause.

Description

Edge calculation-based off-line automatic control method for dangerous waste transfer

Technical Field

The invention relates to the technical field of hazardous waste transfer, in particular to an off-line automatic control method for hazardous waste transfer based on edge calculation.

Background

Hazardous waste refers to waste which is potentially harmful to human health and the environment due to its characteristics of toxicity, corrosiveness, explosiveness, flammability, etc. The treatment and transfer of hazardous waste need to follow a certain flow path to ensure safety and environmental protection.

Patent publication number CN115496243B provides a hazardous waste substance transfer processing method, a storage medium, and a server, the method comprising: broadcasting dangerous waste material dispatch information; receiving first order receiving information aiming at the order sending information, wherein the first order receiving information comprises a first identity identifier of a corresponding first transfer terminal; when the position of the first transfer terminal is detected to be matched with the position of the container, activating an electronic unlocking function of the container in the dispatch information; receiving a first transfer completion message generated after the containers in the dispatch information are electronically unlocked and the hazardous waste transfer is completed; and closing the electronic unlocking function of the corresponding container in the dispatch information based on the first transfer completion message. The convenience and the security in the process of transferring the hazardous waste can be improved.

In the dangerous waste transfer treatment process, according to the specific dangerous waste total amount generated by the site, a treatable site is selected, numerical analysis is sequentially carried out, the dangerous waste is transferred, but the specific treatment capacity with overlarge discrete coefficient in the selectable site is not removed by an original treatment mode, so that the problem of dangerous waste distribution precision is easily caused.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an off-line automatic control method for dangerous waste transfer based on edge calculation, which solves the problem that the dangerous waste distribution precision is easy to cause because specific handling capacity with overlarge discrete coefficient in a selectable site is not removed.

In order to achieve the above purpose, the invention is realized by the following technical scheme: an off-line automatic control method for dangerous waste transfer based on edge calculation comprises the following steps:

s1, determining a waiting period of time based on dangerous waste yield of unit time of a local station and a current time point, analyzing processing data of a dangerous waste processing station with cooperation of the local station to determine a processing time interval, locking an operation period based on the waiting period of time and the processing time interval of the dangerous waste processing station, comprehensively analyzing the waiting period of time and the operation period to determine a merging period, and calibrating the dangerous waste processing station as a waiting station based on the merging period and the processing time interval:

based on the distance values of the self station and different dangerous waste treatment stations, combining a periodic factor C1, wherein C1 is a preset value, and determining the running period from the self station to the different dangerous waste treatment stations in a mode of multiplying the distance values by the periodic factor C1;

combining the waiting time period of the station and the operation period corresponding to different dangerous waste treatment stations, and locking the combination period of the station and the different dangerous waste treatment stations;

determining whether the time maximum value of the merging period is smaller than the maximum value of the processing time interval, if so, calibrating the dangerous waste processing station as a to-be-determined station, and if not, not performing any calibration in a extremum comparison mode, and calibrating the dangerous waste processing station of which the merging period extremum is smaller than the processing time interval extremum as the to-be-determined station;

s2, determining the processing amount of unit time generated by a plurality of undetermined stations from past data based on the plurality of undetermined stations, locking standard processing amount, determining the remaining period by combining the merging period and the processing time interval, and determining selectable stations from the undetermined stations:

determining the processing capacity of the undetermined stations of not less than thirty groups in different unit time from the past data;

and then removing the processing amount with larger discrete coefficient from a plurality of processing amounts belonging to the same undetermined site, carrying out average processing on the rest processing amounts, and locking the standard processing amount:

calibrating the processing capacity of a plurality of undetermined stations in different unit time as CL _t-o Wherein t represents different pending stations, wherein o represents different throughput per unit time;

determining the specific number M of the corresponding processing capacity of the same undetermined site, and sequencing a plurality of the sites in a small-to-large mode to generate a sequencing set;

if M is an odd number, selecting the processing amount at the middle position of the sequencing set as a reference parameter;

if M is even, selecting any processing amount at the middle position of the sorting set as a reference parameter, wherein when M is even, two groups of processing amounts exist at the middle position;

analyzing whether other processing amounts meet the following conditions: CL (CL) _t-o The reference parameter is greater than or equal to Y1, wherein Y1 is a preset value, if yes, the processing quantity is marked as an abnormal quantity and is directly removed from the sequencing set, and if not, no processing is carried out;

performing average processing on a plurality of groups of processing amounts in the sequencing set, and locking standard processing amounts;

combining the merging period and the processing time interval, locking a residual period, wherein the residual period=the maximum value of the processing time interval-the maximum value of the merging period;

locking the total throughput of the station to be determined by combining the standard throughput and the residual period, wherein the total throughput=the standard throughput multiplied by the residual period;

determining the total periodic dangerous waste transfer amount of the site, if the total treatment amount is greater than or equal to the total periodic dangerous waste transfer amount, calibrating the corresponding to-be-determined site as a selectable site, and if the total treatment amount is less than the total periodic dangerous waste transfer amount, calibrating the to-be-determined site as an unselected site;

s3, when no selectable site exists in the sites to be determined, combining the total treatment capacity of each different site so as to lock the integrated treatment capacity, if the integrated treatment capacity is more than the total amount of the periodic dangerous waste transfer, selecting and calibrating the sites to be determined by adopting a nearby principle, and stopping until the sum of the total treatment capacity of the sites to be determined is more than the total amount of the periodic dangerous waste transfer;

if the integrated treatment capacity is less than or equal to the period dangerous waste transfer total amount, an error signal is generated and displayed for an external person to check, and the total treatment capacity is required to be distributed by an operator.

The invention provides an off-line automatic control method for dangerous waste transfer based on edge calculation. Compared with the prior art, the method has the following beneficial effects:

according to the method, time analysis is carried out on the specific yield of the station and the specific data of the corresponding processing station, whether the undetermined station matched with the station can process the dangerous waste in a designated processing period is judged, the existence time of the dangerous waste is avoided to be too long, so that the dangerous waste can be processed in the first time, and the processing effect of the dangerous waste is improved;

subsequently, in the dangerous waste transfer process, numerical analysis is carried out on the selectable sites matched with the site, in the analysis process, the processing amount with larger internal discrete coefficient is preferentially locked, then the processing amount is directly removed, then the more accurate processing amount is locked, and based on the determined processing amount, numerical analysis is carried out to judge the selection mode among different selectable sites, so that the precision of dangerous waste distribution is improved, the processing effect of the whole dangerous waste transfer is improved, and the first time of dangerous waste is ensured to be processed.

Drawings

FIG. 1 is a schematic flow chart of the method of the present invention;

FIG. 2 is a schematic diagram illustrating the determination of a selectable station according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1, the application provides an off-line automatic control method for hazardous waste transfer based on edge calculation, which comprises the following steps:

s1, determining a waiting time period of a demand transfer signal generated by a station based on dangerous waste yield generated in unit time of the station and a current time point, wherein the specific mode is as follows:

determining a time maximum value and a time minimum value of the total amount of the period dangerous waste transfer generated by the station based on the maximum value and the minimum value of the dangerous waste yield generated in unit time, wherein the total amount of the period transfer is a preset value, and the specific value is drawn by an operator according to experience;

determining a corresponding time period to be transferred based on a current time point and a time maximum value and a time minimum value, wherein the time period to be transferred is a group of time intervals, a demand transfer signal is generated at any time point in the time intervals, a corresponding generation rate exists when corresponding dangerous wastes of a corresponding station are generated, and a fixed period transfer total amount is needed when the determined dangerous waste total amount in the dangerous waste generation process reaches the period transfer total amount;

examples: the maximum value of the dangerous waste yield generated in unit time is set as Cmax, and the minimum value of the dangerous waste yield is set as Cmin;

the total transfer amount of the periodic dangerous waste is marked as ZL, and the method adoptsDetermining a time maximum value Tmax and a time minimum value Tmin, based on the current time point D, so as to lock the corresponding waiting time period [ Zmin, zmax ]]The dangerous waste transfer is needed in the waiting time period;

s2, based on the self site, analyzing the processing data of the dangerous waste processing site with cooperation of the self site, so as to determine the processing time interval of the corresponding dangerous waste processing site, wherein the determination mode of the processing time interval is as follows:

confirming dangerous waste accumulation amounts and treatment efficiencies of different dangerous waste treatment sites from treatment data of different dangerous waste treatment sites, wherein the treatment efficiencies comprise two groups of values which are respectively an efficiency maximum value and an efficiency minimum value;

based on the dangerous waste accumulation amount, the maximum efficiency value and the minimum efficiency value, locking a processing time interval of the dangerous waste processing station by dividing the accumulation amount by the efficiency, wherein the dangerous waste accumulation amount comprises all accumulation amounts before the station at the time point and the accepted order amount;

examples: the maximum efficiency value in the treatment data of different dangerous waste treatment sites is marked as X _imax Calibrating the minimum efficiency value as X _imin Wherein i represents different hazardous waste disposal sites;

and the dangerous waste accumulation amounts of different dangerous waste treatment sites are calibrated as JX _i By usingDetermining treatment time intervals [ P ] of different dangerous waste treatment sites _imin ，P _imax ]The time point of the corresponding dangerous waste treatment station after the corresponding accumulated quantity is treated is positioned in the treatment time interval;

s3, locking a corresponding operation period based on the waiting time period and the treatment time interval of the dangerous waste treatment stations, comprehensively analyzing the waiting time period and the operation period, determining a numerical range, and calibrating the dangerous waste treatment stations as undetermined stations, wherein the specific mode for calibrating is as follows:

based on the distance values of the station and different dangerous waste treatment stations, combining a periodic factor C1, wherein C1 is a preset value, the specific value of the periodic factor C1 is empirically drawn by an operator, and the running period from the station to the different dangerous waste treatment stations is locked in a mode of multiplying the distance value and the periodic factor C1;

based on the waiting time period of the station and the operation period corresponding to different dangerous waste treatment stations, combining the waiting time period and the operation period, and locking the combination period of the station and the different dangerous waste treatment stations;

determining whether the time maximum value of the merging period is smaller than the maximum value of the processing time interval, if so, calibrating the dangerous waste processing station as a to-be-determined station, and if not, not performing any calibration in a extremum comparison mode, and calibrating the dangerous waste processing station of which the merging period extremum is smaller than the processing time interval extremum as the to-be-determined station;

the specific method is as follows: the distance value between the site and different dangerous waste treatment sites is marked as J _k Wherein k represents different dangerous waste disposal sites and adopts J _k ×C1＝YZ _k Determining the running time YZ corresponding to different dangerous waste treatment sites _k I.e. the run-time;

then, based on the corresponding operation period and the waiting time period of the corresponding station, the corresponding merging period can be locked;

and comparing the merging period with the processing time interval, locking the maximum value in the period and the interval, comparing the maximum value, and locking the corresponding undetermined station according to the comparison result.

Example two

In the specific implementation process, compared with the first embodiment, the main difference is that from among a plurality of determined undetermined stations, a station which can be selected is determined and confirmed, and the confirmation mode is as follows:

the method also comprises the following steps:

s4, combining with FIG. 2, determining processing capacity per unit time generated in past data of a plurality of undetermined stations for the determined plurality of undetermined stations, locking standard processing capacity, combining a combining period and a processing time interval, determining a remaining period, and determining selectable stations from the undetermined stations:

the specific method is as follows:

from the past data, determining the processing capacity of a plurality of undetermined stations in different unit time and calibrating the processing capacity as CL _t-o Wherein t represents different pending stations, wherein o represents different throughput per unit time, and the determined throughput is not less than thirty groups;

and then from a plurality of processing amounts belonging to the same undetermined site, removing the processing amount with larger discrete coefficient, carrying out average processing on the rest processing amount, and locking standard processing amount, for example: determining the specific number M of the corresponding processing capacity of the same undetermined site, and sequencing a plurality of the sites in a small-to-large mode to generate a sequencing set;

if M is an odd number, selecting the processing amount at the middle position of the sequencing set as a reference parameter;

if M is even, selecting any processing amount at the middle position of the sorting set as a reference parameter, wherein when M is even, two groups of processing amounts exist at the middle position;

analyzing whether other processing amounts meet the following conditions: CL (CL) _t-o The reference parameter is greater than or equal to Y1, wherein Y1 is a preset value, the specific value is determined by an operator according to experience, if the specific value is met, the processing amount is marked as an abnormal amount, the discrete coefficient of the abnormal amount is larger and is directly removed from the sequencing set, and if the discrete coefficient is not met, no processing is performed;

performing average processing on a plurality of groups of processing amounts in the sequencing set, and locking standard processing amounts;

combining the merging period and the processing time interval, locking a residual period, wherein the residual period=the maximum value of the processing time interval-the maximum value of the merging period;

locking the total throughput of the station to be determined by combining the standard throughput and the residual period, wherein the total throughput=the standard throughput multiplied by the residual period;

determining the total periodic dangerous waste transfer amount of the site, if the total treatment amount is greater than or equal to the total periodic dangerous waste transfer amount, calibrating the corresponding to-be-determined site as a selectable site, and if the total treatment amount is less than the total periodic dangerous waste transfer amount, calibrating the to-be-determined site as an unselected site;

specifically, in the plurality of undetermined stations, corresponding residual periods exist, so that in the determined residual periods, the station generates corresponding treatment total quantity, wherein the corresponding station has corresponding period dangerous waste transfer total quantity, if the treatment total quantity is higher than the period dangerous waste transfer total quantity, the station can be selected, and the station is marked as an unselected station.

Example III

In the implementation process of the embodiment, compared with the second embodiment, the embodiment is mainly aimed at the situation that the undetermined stations are all unselected stations, and the specific implementation mode is made, the second embodiment is aimed at the situation that the undetermined stations have selectable stations, and the second embodiment is a further implementation mode;

the method also comprises the following steps:

s5, when no selectable site exists in the sites to be determined, combining the total treatment capacity of each different site so as to lock the integrated treatment capacity, if the integrated treatment capacity is more than the total amount of the periodic dangerous waste transfer, selecting and calibrating the sites to be determined by adopting a nearby principle, and stopping until the sum of the total treatment capacity of the sites to be determined is more than the total amount of the periodic dangerous waste transfer;

if the integrated treatment capacity is less than or equal to the period dangerous waste transfer total amount, an error signal is generated and displayed for an external person to check, and the total treatment capacity is required to be distributed by an operator.

Example IV

This embodiment includes all of the three embodiments described above in the specific implementation.

Some of the data in the above formulas are numerical calculated by removing their dimensionality, and the contents not described in detail in the present specification are all well known in the prior art.

The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (8)

1. The off-line automatic control method for the dangerous waste transfer based on the edge calculation is characterized by comprising the following steps of:

s1, determining a waiting period of time based on dangerous waste yield of unit time of a local station and a current time point, analyzing processing data of a dangerous waste processing station with cooperation of the local station to determine a processing time interval, locking an operation period based on the waiting period of time and the processing time interval of the dangerous waste processing station, comprehensively analyzing the waiting period of time and the operation period to determine a merging period, and calibrating the dangerous waste processing station as a waiting station based on the merging period and the processing time interval;

s2, determining the processing amount of unit time generated by a plurality of pending stations from past data based on the plurality of pending stations, locking standard processing amount, determining the remaining period by combining the merging period and the processing time interval, and determining the selectable stations from the pending stations.

2. The method for automatically controlling the critical waste transfer offline based on the edge calculation according to claim 1, wherein in the step S1, the method for determining the waiting time period is as follows:

determining a maximum value and a minimum value based on the dangerous waste yield generated in unit time, and determining a time maximum value and a time minimum value of the total amount of the periodic dangerous waste transfer generated by the station, wherein the total amount of the periodic transfer is a preset value;

and determining a corresponding waiting time period based on the current time point, the time maximum value and the time minimum value.

3. The method for automatically controlling the hazardous waste transfer offline based on the edge calculation according to claim 1, wherein in the step S1, the specific manner of determining the processing time interval is as follows:

based on the treatment data of different dangerous waste treatment sites, the treatment data comprise dangerous waste accumulation and treatment efficiency, and the treatment efficiency comprises two groups of values which are respectively an efficiency maximum value and an efficiency minimum value;

and determining a treatment time interval of the dangerous waste treatment site by dividing the accumulated amount by the efficiency based on the dangerous waste accumulated amount, the efficiency maximum value and the efficiency minimum value.

4. The method for automatically controlling the hazardous waste transfer offline based on the edge calculation according to claim 1, wherein in the step S1, the specific mode of calibrating the undetermined site is as follows:

based on the distance values of the self station and different dangerous waste treatment stations, combining a periodic factor C1, wherein C1 is a preset value, and determining the running period from the self station to the different dangerous waste treatment stations in a mode of multiplying the distance values by the periodic factor C1;

combining the waiting time period of the station and the operation period corresponding to different dangerous waste treatment stations, and locking the combination period of the station and the different dangerous waste treatment stations;

and (3) calibrating the dangerous waste treatment sites with the merging period maximum value smaller than the treatment time interval maximum value as undetermined sites by adopting an extremum comparison mode.

5. The method for automatically controlling the hazardous waste transfer offline based on the edge calculation according to claim 1, wherein in the step S2, the specific mode of determining the selectable site is as follows:

determining the processing capacity of the undetermined stations of not less than thirty groups in different unit time from the past data;

then removing the processing amount with larger discrete coefficient from a plurality of processing amounts belonging to the same undetermined site, carrying out average processing on the rest processing amounts, and locking the standard processing amount;

combining the merging period and the processing time interval, locking a residual period, wherein the residual period=the maximum value of the processing time interval-the maximum value of the merging period;

locking the total throughput of the station to be determined by combining the standard throughput and the residual period, wherein the total throughput=the standard throughput multiplied by the residual period;

and determining the total periodic dangerous waste transfer amount of the site, if the total treatment amount is greater than or equal to the total periodic dangerous waste transfer amount, calibrating the corresponding to-be-determined site as a selectable site, and if the total treatment amount is less than the total periodic dangerous waste transfer amount, calibrating the to-be-determined site as an unselected site.

6. The method for automatically controlling the off-line transition of hazardous waste based on edge calculation of claim 5, further comprising the specific mode of locking standard throughput, wherein the specific mode is as follows:

calibrating the processing capacity of a plurality of undetermined stations in different unit time as CL _t-o Wherein t represents different pending stations, wherein o represents different throughput per unit time;

determining the specific number M of the corresponding processing capacity of the same undetermined site, and sequencing a plurality of the sites in a small-to-large mode to generate a sequencing set;

if M is an odd number, selecting the processing amount at the middle position of the sequencing set as a reference parameter;

if M is even, selecting any processing amount at the middle position of the sequencing set as a reference parameter;

analyzing whether other processing amounts meet the following conditions: CL (CL) _t-o The reference parameter is greater than or equal to Y1, wherein Y1 is a preset value, if yes, the processing amount is marked as an abnormal amount and is directly removed from the sequencing set, and if not, no processing is performed;

and carrying out average processing on a plurality of groups of processing amounts in the sequencing set, and locking the standard processing amounts.

7. The method for automatically controlling the off-line transfer of hazardous waste based on edge calculation of claim 6, further comprising the steps of:

and S3, when no selectable site exists in the sites to be determined, combining the total treatment capacity of each different site, thereby locking the integrated treatment capacity, and if the integrated treatment capacity is more than the total amount of the period dangerous waste transfer, selecting and calibrating the sites to be determined by adopting a nearby principle until the sum of the total treatment capacity of the sites to be determined is more than the total amount of the period dangerous waste transfer, and stopping.

8. The method for off-line automatic control of hazardous waste transfer based on edge calculation of claim 7, wherein the step S3 further comprises:

if the integrated treatment capacity is less than or equal to the period dangerous waste transfer total amount, an error signal is generated and displayed for an external person to check, and the total treatment capacity is required to be distributed by an operator.