CN113514096A - Method and system for monitoring water level and controlling flow distribution in real time - Google Patents

Abstract

The invention discloses a method and a system for monitoring and controlling shunt of real-time water level, real-time target water level information comprises real-time water level height information and a real-time water flow speed mark, target preset information of the real-time water level height information and the real-time water flow speed mark is obtained, and the target preset information is transmitted to a shunt control information set; in the information distribution control process of part of information in the information base example, other information and interference are not affected, and the accuracy of the information is increased to the maximum extent.

Description

Method and system for monitoring water level and controlling flow distribution in real time

Technical Field

The invention relates to the technical field of information processing and information control, in particular to a method and a system for monitoring water level and controlling shunt in real time.

Background

At the lower places such as overpasses, pedestrian overpasses and the like, the water level is easy to rise seriously in heavy rain, and vehicles and personnel are easy to be submerged. For example, overpasses in different places have different construction styles according to surrounding environments, and risks caused by water levels are different due to different construction characteristics, so that early warning and monitoring of the water levels in the places are difficult.

At present, the water level early warning and monitoring in these places usually carries out early warning by setting a monitoring alarm containing various sensors, and the cooperation staff observes in real time according to a camera to carry out real-time early warning and monitoring. In the prior art, the water level early warning monitoring cannot be carried out in time based on real-time environment change according to the characteristics of different monitoring places, and huge human resources are required to be consumed.

It is to be noted that the information disclosed in the above background section is only for enhancement of understanding of the background of the present application and therefore may include information that does not constitute prior art known to a person of ordinary skill in the art.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method and a system for real-time water level monitoring and controlling diversion, which can solve the problems of real-time water level height monitoring and timely diversion control.

The invention is realized by the following technical scheme:

a method of real-time water level monitoring and control diversion, the method comprising:

acquiring real-time target water level information sent by an information acquisition end, wherein the real-time target water level information comprises real-time water level height information and a real-time water flow speed identifier, and the real-time water flow speed identifier is used for uniquely identifying a target water level information set to be processed in an information base example;

acquiring target preset information corresponding to the real-time water level height information and the real-time water flow speed identification; and transmitting the target preset information into a distribution control information set, wherein the distribution control information set is an information set corresponding to the target water level information set in the information base example.

Further, the acquiring target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier includes:

acquiring target preset water level height information and a target preset water flow speed identifier corresponding to the real-time water level height information;

determining service water level information corresponding to the target water level information set in the target preset water level height information according to the real-time water flow speed identifier, and determining service log information corresponding to the target water level information set in the target preset water flow speed identifier; the target preset water level height information is storage information obtained by completely storing an information base once in a target preset time period, and the target preset water flow speed identifier is storage information obtained by storing a monitoring log of the information base between the target preset time period and the real-time water level height information.

Further, the transmitting the target preset information to a split control information set includes:

writing back the service water level information corresponding to the target water level information set to the shunting control information set; and after the information write-back is completed, the service log information corresponding to the target water level information set is played back to the shunting control information set.

Further, the acquiring target preset water level height information corresponding to the real-time water level height information includes:

according to the real-time water level height information, determining a storage time interval closest to the real-time water level height information in a storage center as a target preset time interval, wherein X full storage information and X storage time intervals corresponding to the X full storage information are stored in the storage center, and X is a positive number;

and acquiring the corresponding target preset water level height information in the target preset time period.

Further, the method further comprises:

completely storing the information base once every preset time interval to obtain full storage information, wherein the full storage information comprises service water level information corresponding to Y information sets in the information base, and Y is a positive number;

the determining the service water level information in the target water level information set in the target preset water level height information according to the real-time water velocity identifier includes:

and classifying the target preset water level height information through an information classification model according to the real-time water flow speed identifier to obtain service water level information corresponding to the target water level information set.

Further, the method further comprises:

storing the monitoring logs of the information base at preset time intervals or in real time to obtain incremental storage information, wherein the incremental storage information comprises service log information corresponding to Y information sets in the information base, and Y is a positive number;

the determining the service log information corresponding to the target water level information set in the target preset water flow speed identifier includes: and classifying the target preset water flow speed identifications through an information classification model according to the real-time water flow speed identifications to obtain service log information corresponding to the target water level information set.

Further, the playing back the service log information corresponding to the target water level information set to the split control information set includes:

the water level height of the real-time water level information is used for indicating the height value of the service log information corresponding to the primary historical water level height;

acquiring a service water level parameter, wherein the service water level parameter is used for indicating the height difference of a service water level height value corresponding to the service log information in the real-time water level information;

according to the service water level parameters, the water level height of the real-time water level information is counted; and continuously comparing the historical water level height of the service log information according to the counted real-time water level information.

Wherein, the service water level parameter includes a metering rate per second and/or a definite shunt, and the calculating the water level height of the real-time water level information according to the service water level parameter includes:

when the service water level parameter meets a height warning line, multiplying the water level height of the real-time water level information by a first preset coefficient, and calculating to obtain the water level height of the real-time water level information after statistics;

when the service water level height value streams do not meet a height warning line, dividing the water level height of the real-time water level information by a second preset coefficient, and calculating to obtain the counted water level height of the real-time water level information, wherein the first preset coefficient and the second preset coefficient are both greater than 0; wherein the altitude warning line comprises that the metering rate per second is greater than a first preset threshold value, and/or that the determined diversion is less than a second preset threshold value.

Further, the acquiring target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier includes:

when a storage time interval which is the same as the real-time water level height information is found in a storage center, determining the storage time interval as a target preset time interval, wherein X full storage information and X storage time intervals corresponding to the X full storage information are stored in the storage center, and X is a positive number;

acquiring target preset water level height information corresponding to the real-time water level height information; and determining service water level information corresponding to the target water level information set in the target preset water level height information according to the real-time water flow speed identifier.

Further, the real-time target water level information further includes a split control set identifier of the split control information set, and the method further includes:

according to the distribution control set identification in the real-time target water level information, establishing a distribution control information set corresponding to the distribution control set identification in the information base example; the distribution control set identifier is different from the set identifiers corresponding to the at least two information sets in the information base instance.

The utility model provides a system for real-time water level monitoring and control reposition of redundant personnel, includes data acquisition equipment and data processing terminal, data acquisition equipment with data processing terminal, data processing terminal specifically is used for:

acquiring real-time target water level information sent by an information acquisition end, wherein the real-time target water level information comprises real-time water level height information and a real-time water flow speed identifier, and the real-time water flow speed identifier is used for uniquely identifying a target water level information set to be processed in an information base example;

acquiring target preset information corresponding to the real-time water level height information and the real-time water flow speed identification; and transmitting the target preset information into a distribution control information set, wherein the distribution control information set is an information set corresponding to the target water level information set in the information base example.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the invention relates to a method and a system for monitoring and controlling distribution of real-time water level.A target preset message corresponding to real-time water level height information and a real-time water flow speed mark is obtained by obtaining the real-time target water level information sent by an information acquisition end, and the real-time target water level information comprises the real-time water level height information and the real-time water flow speed mark, and the target preset message is transmitted and prepared into a distribution control message set, wherein the distribution control message set is a message set corresponding to the target water level message set in an information base example; the information distribution control method provided by the embodiment of the invention is controlled according to the height of the water collecting level, so that the problem of low distribution control efficiency caused by the fact that all information in the information base example needs to be subjected to distribution control during distribution control of the example in the related technology is solved, the water level is effectively avoided to be controlled, on one hand, when the water level only needs to be subjected to distribution control on part of information in the information base example, the part of information needing distribution control can be subjected to distribution control, and the distribution control efficiency is improved; on the other hand, other information and interference are not affected in the partial information distribution control process in the information base example, and the accuracy of the information is increased to the maximum extent.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic diagram of a system for real-time water level monitoring and diversion control according to an embodiment of the present invention;

FIG. 2 is a flow chart of a method for real-time water level monitoring and controlling diversion according to an embodiment of the present invention;

fig. 3 is a functional block diagram of a device for real-time water level monitoring and controlling diversion according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

To facilitate the description of the method and system for real-time water level monitoring and diversion control, please refer to fig. 1, which provides a schematic view of a communication architecture of a system 100 for real-time water level monitoring and diversion control according to an embodiment of the present invention. The system 100 for monitoring water level and controlling diversion in real time may include an information processing terminal 200 and an information collecting terminal 300, wherein the information processing terminal 200 is in communication connection with the information collecting terminal 300.

In a specific embodiment, the information processing terminal 200 and the information collecting terminal 300 may be a desktop computer, a tablet computer, a notebook computer, a mobile phone, or other electronic devices capable of implementing information processing and information communication, which is not limited herein.

On the basis of the above, please refer to fig. 2, which is a flowchart illustrating a method for real-time water level monitoring and controlling diversion according to an embodiment of the present invention, where the method for real-time water level monitoring and controlling diversion can be applied to the information processing in fig. 1, and further, the method for real-time water level monitoring and controlling diversion specifically includes the following steps S21 and S22.

And step S21, acquiring real-time target water level information sent by an information acquisition end, wherein the real-time target water level information comprises real-time water level height information and a real-time water flow speed identifier, and the real-time water flow speed identifier is used for uniquely identifying a target water level information set to be processed in an information base example.

Step S22, acquiring target preset information corresponding to the real-time water level height information and the real-time water flow speed identification; and transmitting the target preset information into a distribution control information set, wherein the distribution control information set is an information set corresponding to the target water level information set in the information base example.

It can be understood that, when the contents described in the above steps S21 and S22 are executed, by acquiring the real-time target water level information sent by the information acquisition end, where the real-time target water level information includes real-time water level height information and a real-time water flow speed identifier, target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier is acquired, and the target preset information is transmitted to a diversion control information set, where the diversion control information set is an information set corresponding to the target water level information set in the information base example; the information distribution control method provided by the embodiment of the invention is controlled according to the height of the water collecting level, so that the problem of low distribution control efficiency caused by the fact that all information in the information base example needs to be subjected to distribution control during distribution control of the example in the related technology is solved, the water level is effectively avoided to be controlled, on one hand, when the water level only needs to be subjected to distribution control on part of information in the information base example, the part of information needing distribution control can be subjected to distribution control, and the distribution control efficiency is improved; on the other hand, other information and interference are not affected in the partial information distribution control process in the information base example, and the accuracy of the information is increased to the maximum extent.

In the actual operation process, the inventor finds that, when the real-time water level height information and the real-time water flow speed identifier are obtained, there is a technical problem that the obtained data are inaccurate, so that it is difficult to accurately generate the corresponding target preset information, and in order to improve the technical problem, the step of obtaining the target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier described in step S22 may specifically include the contents described in step S221 and step S222 below.

And step S221, acquiring target preset water level height information and target preset water flow speed identification corresponding to the real-time water level height information.

Step S222, determining service water level information corresponding to the target water level information set in the target preset water level height information according to the real-time water flow speed identifier, and determining service log information corresponding to the target water level information set in the target preset water flow speed identifier; the target preset water level height information is storage information obtained by completely storing an information base once in a target preset time period, and the target preset water flow speed identifier is storage information obtained by storing a monitoring log of the information base between the target preset time period and the real-time water level height information.

It can be understood that, when the contents described in the above steps S221 and S222 are executed, when the real-time water level height information and the real-time water flow speed identifier are obtained, the technical problem of inaccurate obtained data is avoided, so that the corresponding target preset information is accurately generated.

In the actual operation process, the inventor finds that, in the step of transmitting the target preset information to the split control information set, there is a technical problem that data transmission is inaccurate, so that it is difficult to accurately transmit the target preset information to the split control information set, and in order to improve the technical problem, the step of transmitting the target preset information to the split control information set described in step S22 may specifically include the content described in the following step q 1.

Step q1, writing back the service water level information corresponding to the target water level information set to the shunting control information set; and after the information write-back is completed, the service log information corresponding to the target water level information set is played back to the shunting control information set.

It can be understood that, when the content described in the above step q1 is executed, the target preset information is transmitted to the split control information set, so that the technical problem of inaccurate data transmission is avoided, and the target preset information can be accurately transmitted to the split control information set.

In the actual operation process, the inventor finds that, when the real-time water level height information is obtained, there is a technical problem that the real-time water level height information is inaccurate, so that it is difficult to accurately generate the corresponding target preset water level height information, and in order to improve the technical problem, the step of obtaining the target preset water level height information corresponding to the real-time water level height information described in step S221 may specifically include the contents described in step w1 and step w2 below.

And w1, according to the real-time water level height information, determining a storage time interval closest to the real-time water level height information in a storage center as a target preset time interval, wherein X full-amount storage information and X storage time intervals corresponding to the X full-amount storage information are stored in the storage center, and X is a positive number.

And step w2, acquiring the corresponding target preset water level height information in the target preset time period.

It can be understood that, when the contents described in the above steps w1 and w2 are performed, the technical problem that the real-time water level height information is inaccurate is avoided when the real-time water level height information is obtained, so that the corresponding target preset water level height information can be accurately generated.

Based on the above basis, the method also comprises the following steps q 1-q 3.

And q1, completely storing the information base once at preset time intervals to obtain full storage information, wherein the full storage information comprises service water level information corresponding to Y information sets in the information base, and Y is a positive number.

Step q2, the determining the service water level information in the target water level information set in the target preset water level height information according to the real-time water velocity identifier includes:

and q3, classifying the target preset water level height information through an information classification model according to the real-time water flow speed identification to obtain service water level information corresponding to the target water level information set.

It can be understood that when the contents described in the above steps q 1-q 3 are performed, the water level height is accurately monitored, so that the harm caused by the overhigh water level is effectively avoided.

In a specific implementation process, the inventor finds that, in the step of playing back the service log information corresponding to the target water level information set to the offloading control information set, there is a technical problem that data of the offloading control information set is unreliable, and in order to improve the technical problem, the step of playing back the service log information corresponding to the target water level information set to the offloading control information set described in step q1 may specifically include the contents described in the following step u1 to step u 6.

And u1, the water level height of the real-time water level information is used for indicating the height value of the service log information corresponding to the primary historical water level height.

And u2, acquiring a service water level parameter, wherein the service water level parameter is used for indicating the height difference of the service water level height value corresponding to the service log information in the real-time water level information.

Step u3, according to the service water level parameters, carrying out statistics on the water level height of the real-time water level information; and continuously comparing the historical water level height of the service log information according to the counted real-time water level information.

Step u4, wherein the service water level parameters include a metering rate per second and/or a determined diversion, and the statistics of the water level height of the real-time water level information according to the service water level parameters includes:

and u5, when the service water level parameter meets a height warning line, multiplying the water level height of the real-time water level information by a first preset coefficient, and calculating to obtain the water level height of the real-time water level information after statistics.

Step u6, when the service water level height value flow does not meet a height warning line, dividing the water level height of the real-time water level information by a second preset coefficient, and calculating to obtain the counted water level height of the real-time water level information, wherein the first preset coefficient and the second preset coefficient are both greater than 0; wherein the altitude warning line comprises that the metering rate per second is greater than a first preset threshold value, and/or that the determined diversion is less than a second preset threshold value.

It can be understood that when the contents described in steps u 1-u 6 are executed, the service log information corresponding to the target water level information set is played back to the split control information set, so that the technical problem that the data of the split control information set is unreliable is avoided.

In the actual operation process, the inventor finds that, in order to improve the technical problem that the preset information is not matched with the target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier, the step of obtaining the target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier described in step S22 may specifically include the contents described in the following steps i1 and i 2.

Step i1, when the storage period identical to the real-time water level height information is found in the storage center, determining the storage period as a target preset period, wherein X full storage information and X storage periods corresponding to the X full storage information are stored in the storage center, and X is a positive number.

Step i2, acquiring target preset water level height information corresponding to the real-time water level height information; and determining service water level information corresponding to the target water level information set in the target preset water level height information according to the real-time water flow speed identifier.

It can be understood that, when the contents described in the above steps i1 and i2 are executed, the target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier is obtained, so that the technical problem that the preset information is not matched is avoided, and the corresponding target preset information can be accurately generated.

Based on the above basis, the following description of step g1 is also included.

Step g1, according to the distribution control set identifier in the real-time target water level information, creating the distribution control information set corresponding to the distribution control set identifier in the information base instance; the distribution control set identifier is different from the set identifiers corresponding to the at least two information sets in the information base instance.

It can be understood that, when the step g1 is executed, the technical problem of the shunt control is effectively solved, and the safety problem caused by the overhigh water level is avoided.

Based on the same inventive concept, a system for real-time water level monitoring and shunt control is also provided, which comprises a data acquisition device and a data processing terminal, wherein the data acquisition device and the data processing terminal are specifically used for:

acquiring real-time target water level information sent by an information acquisition end, wherein the real-time target water level information comprises real-time water level height information and a real-time water flow speed identifier, and the real-time water flow speed identifier is used for uniquely identifying a target water level information set to be processed in an information base example;

acquiring target preset information corresponding to the real-time water level height information and the real-time water flow speed identification; and transmitting the target preset information into a distribution control information set, wherein the distribution control information set is an information set corresponding to the target water level information set in the information base example.

Further, the data processing terminal is specifically configured to:

acquiring target preset water level height information and a target preset water flow speed identifier corresponding to the real-time water level height information;

determining service water level information corresponding to the target water level information set in the target preset water level height information according to the real-time water flow speed identifier, and determining service log information corresponding to the target water level information set in the target preset water flow speed identifier; the target preset water level height information is storage information obtained by completely storing an information base once in a target preset time period, and the target preset water flow speed identifier is storage information obtained by storing a monitoring log of the information base between the target preset time period and the real-time water level height information.

Further, the data processing terminal is specifically configured to:

writing back the service water level information corresponding to the target water level information set to the shunting control information set; and after the information write-back is completed, the service log information corresponding to the target water level information set is played back to the shunting control information set.

Further, the data processing terminal is specifically configured to:

according to the real-time water level height information, determining a storage time interval closest to the real-time water level height information in a storage center as a target preset time interval, wherein X full storage information and X storage time intervals corresponding to the X full storage information are stored in the storage center, and X is a positive number;

and acquiring the corresponding target preset water level height information in the target preset time period.

Further, the data processing terminal is specifically configured to:

completely storing the information base once every preset time interval to obtain full storage information, wherein the full storage information comprises service water level information corresponding to Y information sets in the information base, and Y is a positive number;

the determining the service water level information in the target water level information set in the target preset water level height information according to the real-time water velocity identifier includes:

and classifying the target preset water level height information through an information classification model according to the real-time water flow speed identifier to obtain service water level information corresponding to the target water level information set.

Further, the data processing terminal is specifically configured to:

storing the monitoring logs of the information base at preset time intervals or in real time to obtain incremental storage information, wherein the incremental storage information comprises service log information corresponding to Y information sets in the information base, and Y is a positive number;

the determining the service log information corresponding to the target water level information set in the target preset water flow speed identifier includes: and classifying the target preset water flow speed identifications through an information classification model according to the real-time water flow speed identifications to obtain service log information corresponding to the target water level information set.

Further, the data processing terminal is specifically configured to:

the water level height of the real-time water level information is used for indicating the height value of the service log information corresponding to the primary historical water level height;

acquiring a service water level parameter, wherein the service water level parameter is used for indicating the height difference of a service water level height value corresponding to the service log information in the real-time water level information;

according to the service water level parameters, the water level height of the real-time water level information is counted; according to the counted real-time water level information, continuously comparing historical water level heights with the service log information;

wherein, the service water level parameter includes a metering rate per second and/or a definite shunt, and the calculating the water level height of the real-time water level information according to the service water level parameter includes:

when the service water level parameter meets a height warning line, multiplying the water level height of the real-time water level information by a first preset coefficient, and calculating to obtain the water level height of the real-time water level information after statistics;

when the service water level height value streams do not meet a height warning line, dividing the water level height of the real-time water level information by a second preset coefficient, and calculating to obtain the counted water level height of the real-time water level information, wherein the first preset coefficient and the second preset coefficient are both greater than 0; wherein the altitude warning line comprises that the metering rate per second is greater than a first preset threshold value, and/or that the determined diversion is less than a second preset threshold value.

Further, the data processing terminal is specifically configured to:

when a storage time interval which is the same as the real-time water level height information is found in a storage center, determining the storage time interval as a target preset time interval, wherein X full storage information and X storage time intervals corresponding to the X full storage information are stored in the storage center, and X is a positive number;

acquiring target preset water level height information corresponding to the real-time water level height information; and determining service water level information corresponding to the target water level information set in the target preset water level height information according to the real-time water flow speed identifier.

Further, the data processing terminal is specifically configured to:

according to the distribution control set identification in the real-time target water level information, establishing a distribution control information set corresponding to the distribution control set identification in the information base example; the distribution control set identifier is different from the set identifiers corresponding to the at least two information sets in the information base instance.

Based on the same inventive concept, please refer to fig. 3, which also provides a functional block diagram of a device 500 for real-time water level monitoring and controlling diversion, and the detailed description of the device 500 for real-time water level monitoring and controlling diversion is as follows.

A device 500 for real-time water level monitoring and shunt control is applied to an information processing terminal, the device 500 comprises:

an information obtaining module 510, configured to obtain real-time target water level information sent by an information acquisition end, where the real-time target water level information includes real-time water level height information and a real-time water flow speed identifier, and the real-time water flow speed identifier is used to uniquely identify a target water level information set to be processed in an information base example;

an information control module 520, configured to obtain target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier; and transmitting the target preset information into a distribution control information set, wherein the distribution control information set is an information set corresponding to the target water level information set in the information base example.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A method for monitoring water level and controlling shunt in real time is characterized by comprising the following steps:

acquiring real-time target water level information sent by an information acquisition end, wherein the real-time target water level information comprises real-time water level height information and a real-time water flow speed identifier, and the real-time water flow speed identifier is used for uniquely identifying a target water level information set to be processed in an information base example;

acquiring target preset information corresponding to the real-time water level height information and the real-time water flow speed identification; and transmitting the target preset information into a distribution control information set, wherein the distribution control information set is an information set corresponding to the target water level information set in the information base example.

2. The method of claim 1, wherein the obtaining target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier comprises:

acquiring target preset water level height information and a target preset water flow speed identifier corresponding to the real-time water level height information;

determining service water level information corresponding to the target water level information set in the target preset water level height information according to the real-time water flow speed identifier, and determining service log information corresponding to the target water level information set in the target preset water flow speed identifier; the target preset water level height information is storage information obtained by completely storing an information base once in a target preset time period, and the target preset water flow speed identifier is storage information obtained by storing a monitoring log of the information base between the target preset time period and the real-time water level height information.

3. The method of claim 2, wherein the transmitting the target preset information into a split control information set comprises:

writing back the service water level information corresponding to the target water level information set to the shunting control information set; and after the information write-back is completed, the service log information corresponding to the target water level information set is played back to the shunting control information set.

4. The method of claim 2, wherein the obtaining target preset water level height information corresponding to the real-time water level height information comprises:

according to the real-time water level height information, determining a storage time interval closest to the real-time water level height information in a storage center as a target preset time interval, wherein X full storage information and X storage time intervals corresponding to the X full storage information are stored in the storage center, and X is a positive number;

and acquiring the corresponding target preset water level height information in the target preset time period.

5. The method of claim 2, further comprising:

completely storing the information base once every preset time interval to obtain full storage information, wherein the full storage information comprises service water level information corresponding to Y information sets in the information base, and Y is a positive number;

the determining the service water level information in the target water level information set in the target preset water level height information according to the real-time water velocity identifier includes:

and classifying the target preset water level height information through an information classification model according to the real-time water flow speed identifier to obtain service water level information corresponding to the target water level information set.

6. The method of claim 2, further comprising:

storing the monitoring logs of the information base at preset time intervals or in real time to obtain incremental storage information, wherein the incremental storage information comprises service log information corresponding to Y information sets in the information base, and Y is a positive number;

the determining the service log information corresponding to the target water level information set in the target preset water flow speed identifier includes: and classifying the target preset water flow speed identifications through an information classification model according to the real-time water flow speed identifications to obtain service log information corresponding to the target water level information set.

7. The method according to claim 3, wherein the playing back the service log information corresponding to the target water level information set to the split control information set comprises:

the water level height of the real-time water level information is used for indicating the height value of the service log information corresponding to the primary historical water level height;

acquiring a service water level parameter, wherein the service water level parameter is used for indicating the height difference of a service water level height value corresponding to the service log information in the real-time water level information;

according to the service water level parameters, the water level height of the real-time water level information is counted; according to the counted real-time water level information, continuously comparing historical water level heights with the service log information;

wherein, the service water level parameter includes a metering rate per second and/or a definite shunt, and the calculating the water level height of the real-time water level information according to the service water level parameter includes:

when the service water level parameter meets a height warning line, multiplying the water level height of the real-time water level information by a first preset coefficient, and calculating to obtain the water level height of the real-time water level information after statistics;

when the service water level height value streams do not meet a height warning line, dividing the water level height of the real-time water level information by a second preset coefficient, and calculating to obtain the counted water level height of the real-time water level information, wherein the first preset coefficient and the second preset coefficient are both greater than 0; wherein the altitude warning line comprises that the metering rate per second is greater than a first preset threshold value, and/or that the determined diversion is less than a second preset threshold value.

8. The method of claim 1, wherein the obtaining target preset information corresponding to the real-time water level height information and the real-time water flow speed identifier comprises:

when a storage time interval which is the same as the real-time water level height information is found in a storage center, determining the storage time interval as a target preset time interval, wherein X full storage information and X storage time intervals corresponding to the X full storage information are stored in the storage center, and X is a positive number;

acquiring target preset water level height information corresponding to the real-time water level height information; and determining service water level information corresponding to the target water level information set in the target preset water level height information according to the real-time water flow speed identifier.

9. The method according to any one of claims 1 to 8, wherein the real-time target water level information further includes a split control set identifier of the split control information set, and the method further includes:

according to the distribution control set identification in the real-time target water level information, establishing a distribution control information set corresponding to the distribution control set identification in the information base example; the distribution control set identifier is different from the set identifiers corresponding to the at least two information sets in the information base instance.

10. The utility model provides a system for real-time water level monitoring and control reposition of redundant personnel, its characterized in that includes data acquisition equipment and data processing terminal, data acquisition equipment with data processing terminal, data processing terminal specifically is used for:

acquiring real-time target water level information sent by an information acquisition end, wherein the real-time target water level information comprises real-time water level height information and a real-time water flow speed identifier, and the real-time water flow speed identifier is used for uniquely identifying a target water level information set to be processed in an information base example;

acquiring target preset information corresponding to the real-time water level height information and the real-time water flow speed identification; and transmitting the target preset information into a distribution control information set, wherein the distribution control information set is an information set corresponding to the target water level information set in the information base example.

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