CN114880374A

CN114880374A - Slope monitoring method, device, equipment and medium

Info

Publication number: CN114880374A
Application number: CN202210439720.2A
Authority: CN
Inventors: 胡威; 江伟男; 李兆基; 张�浩; 周扬
Original assignee: Shanxi Dimensional Space Information Technology Co ltd
Current assignee: Shanxi Dimensional Space Information Technology Co ltd
Priority date: 2022-04-25
Filing date: 2022-04-25
Publication date: 2022-08-09

Abstract

The application relates to the field of slope monitoring, in particular to a slope monitoring method, a device, equipment and a medium, wherein the method comprises the following steps: acquiring current slope data information after detecting that a slope monitoring request is triggered; acquiring previous slope data information with the same point position number from a plurality of historical slope data information according to the point position number and the data ID; obtaining a displacement speed according to the current obtaining time and the current point position coordinate of the current slope data information and the obtaining time and the point position coordinate of the previous slope data information; and judging whether the displacement speed is smaller than a preset displacement speed threshold value or not, if the displacement speed is not smaller than the preset displacement speed threshold value, generating alarm information, and giving an alarm according to the alarm information. The application has the following effects: and timely and accurately monitoring the side slope.

Description

Slope monitoring method, device, equipment and medium

Technical Field

The application relates to the field of slope monitoring, in particular to a slope monitoring method, device, equipment and medium.

Background

In recent years, with rapid economic development and progressive scientific and technological progress, various projects in China are developed vigorously, and the construction safety of side slopes as accident-prone areas of projects such as civil engineering, geological construction and road construction attracts people's attention increasingly.

In the related art, the monitoring mode for the side slope is as follows: the laika total station acquires data of each point location, generates a change curve, and monitoring personnel judge whether to alarm through analyzing the change curve, but the point location of laika total station is hundreds of thousands, and monitoring personnel can not timely and accurately analyze the change trend of the analysis side slope in the hundreds of thousands of change curves, and then alarm according to the change trend.

Therefore, how to timely and accurately monitor the side slope is a technical problem to be solved by those skilled in the art.

Disclosure of Invention

In order to timely and accurately monitor the side slope, the application provides a side slope monitoring method, a side slope monitoring device, side slope monitoring equipment and a side slope monitoring medium.

In a first aspect, the present application provides a slope monitoring method, which adopts the following technical scheme:

acquiring current slope data information after detecting that a slope monitoring request is triggered, wherein the current slope data information at least comprises a point position number, a data ID, current acquisition time and current point position coordinates;

acquiring previous slope data information with the same point position number from a plurality of historical slope data information according to the point position number and the data ID;

obtaining a displacement speed according to the current acquisition time and the current point position coordinate of the current slope data information and the acquisition time and the point position coordinate of the previous slope data information;

and judging whether the displacement speed is smaller than a preset displacement speed threshold value or not, if the displacement speed is not smaller than the preset displacement speed threshold value, generating alarm information, and giving an alarm according to the alarm information.

By adopting the technical scheme, the displacement speed is calculated by acquiring the current slope data information and the previous slope data information, whether alarm information is generated or not is judged according to the displacement speed, and the slope can be monitored timely and accurately.

In a possible implementation manner, the obtaining, according to the point location number and the data ID, a previous slope data information having a same point location number from a plurality of historical slope data information includes:

acquiring initial previous slope data information which is the same as the point position number from a plurality of historical slope data information according to the point position number and the data ID;

verifying the initial previous slope data information by using the current acquisition time of the slope data information and the acquisition time of the initial previous slope data information;

and if the slope data information passes the verification, determining that the initial previous slope data information is the previous slope data information.

By adopting the technical scheme, the initial previous slope data information is verified by utilizing the current time of the current slope data information and the acquired acquisition time of the initial previous slope data information, so that the interference of error information is avoided, the error information is historical slope data information for generating alarm information, and the accuracy of slope monitoring is improved.

In a possible implementation manner, the current slope data information further includes a governing area to which the current slope data information belongs, and determines whether the displacement speed is less than a preset displacement speed threshold, further including:

and determining the preset displacement speed threshold value from a corresponding relation according to the treatment area to which the current slope data information belongs, wherein the corresponding relation is the corresponding relation between each treatment area and the displacement speed threshold value corresponding to the treatment area.

By adopting the technical scheme, the preset displacement speed threshold value is determined according to the corresponding relation between the belonging treatment area and the corresponding relation, so that the slope monitoring of different slopes is realized, the condition that the judgment is inaccurate because different slopes use the same preset displacement speed threshold value is avoided, and the slope monitoring accuracy is improved.

In a possible implementation manner, after the alarm according to the alarm information, the method further includes:

and recording and storing the current slope data information and the displacement speed.

By adopting the technical scheme, the current slope data information and the displacement speed of the alarm information are judged and generated, and the management of the current slope data information and the displacement speed of the alarm information is facilitated.

In one possible implementation manner, the method further includes:

judging whether slope data information corresponding to the next data ID exists or not;

if so, acquiring slope data information of the next data ID to monitor the slope data information of the next data ID;

if not, judging whether slope data information of the next data ID exists again after a preset time interval until the slope data information of the next data ID exists.

By adopting the technical scheme, whether the slope data information of the next data ID exists is judged, if not, whether the slope data information of the next data ID exists is judged again after the preset time interval, so that the situation that when the slope data information of the next data ID does not exist, the electronic equipment immediately acquires the slope data information of the next data ID, and a large amount of resources are wasted is avoided, and the resource consumption can be reduced.

In one possible implementation, the slope monitoring method further includes at least one of:

calculating slope accumulated displacement according to the current point location coordinate, the point location coordinate of the previous slope data information and historical total displacement; judging whether to generate displacement alarm information or not based on the accumulated side slope displacement and a preset displacement threshold value; if the displacement alarm information is generated, alarming according to the displacement alarm information;

when the current slope data information further comprises current slope humidity and/or current slope temperature, judging whether to generate environment alarm information or not based on the current slope humidity and/or the current slope temperature; and if the environment alarm information is generated, alarming according to the environment alarm information.

By adopting the technical scheme, whether to alarm or not is judged through accumulated displacement, current humidity and current temperature, so that the situation that the life safety of side slope constructors is threatened due to inaccurate and untimely side slope monitoring is avoided, and the accuracy of side slope monitoring is improved.

In one possible implementation manner, the alarming according to the alarm information includes at least one of the following:

sending the alarm information to a voice broadcasting system so that the voice broadcasting system gives an alarm according to the alarm information;

sending the alarm information to corresponding client equipment;

wherein, the alarm information at least comprises the current acquisition time, the name of the point number and the displacement speed.

Through adopting above-mentioned technical scheme, report alarm information through utilizing the voice broadcast system, remind constructor to pay attention to safety, avoided because constructor carries out the safety problem that the construction caused, improved side slope engineering constructor's security.

In a second aspect, the present application provides a slope monitoring device, which adopts the following technical scheme:

a first obtaining module: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring current slope data information after detecting that a slope monitoring request is triggered, and the current slope data information at least comprises a point position number, a data ID, current acquisition time and current point position coordinates;

a second obtaining module: the slope data information acquisition module is used for acquiring previous slope data information which is the same as the point position number from a plurality of historical slope data information according to the point position number and the data ID;

a displacement velocity obtaining module: the displacement speed is obtained according to the current acquisition time and the current point position coordinate of the current slope data information and the acquisition time and the point position coordinate of the previous slope data information;

a judging module: and the alarm device is used for judging whether the displacement speed is smaller than a preset displacement speed threshold value or not, if the displacement speed is not smaller than the preset displacement speed threshold value, generating alarm information, and giving an alarm according to the alarm information.

By adopting the technical scheme, the displacement speed is calculated by acquiring the current slope data information and the previous slope data information, and whether alarm information is generated or not is judged according to the displacement speed, so that the slope can be monitored timely and accurately.

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

an electronic device, comprising:

at least one processor;

a memory;

at least one application, wherein the at least one application is stored in the memory and configured to be executed by the at least one processor, the at least one application configured to: the method for monitoring the side slope is executed.

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

a computer readable storage medium having instructions stored therein, which when executed on a computer, cause the computer to perform a slope monitoring method.

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

1. the displacement speed is calculated by acquiring the current slope data information and the previous slope data information, and whether alarm information is generated or not is judged according to the displacement speed, so that the slope can be timely and accurately monitored.

Drawings

Fig. 1 is a schematic flowchart of a slope monitoring method according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a slope monitoring device according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to fig. 1-3.

After reading this description, those skilled in the art can make modifications to the embodiments without inventive contribution as required, but all of them are protected by patent laws within the scope of the embodiments of this application.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the embodiments in the present application.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship, unless otherwise specified.

The embodiments of the present application will be described in further detail with reference to the drawings attached hereto.

In recent years, with rapid economic development and increasingly advanced scientific technology, various projects in China are actively developed, and the construction safety of slopes as high-accident sections of projects such as civil engineering, geological construction and road construction attracts increasing attention.

In order to solve the technical problem, the embodiment of the application provides a slope monitoring method. Specifically, the displacement speed is calculated by acquiring the current slope data information and the previous slope data information, and whether alarm information is generated or not is judged according to the displacement speed, so that the slope can be monitored timely and accurately.

Specifically, the embodiment of the application provides a slope monitoring method, which is executed by an electronic device, where the electronic device may be a server or a terminal device, where the server may be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, or a cloud server providing cloud computing services. The terminal device may be a smart phone, a tablet computer, a notebook computer, a desktop computer, or the like, but is not limited thereto, and the terminal device and the server may be directly or indirectly connected through wired or wireless communication, and the embodiment of the present application is not limited herein.

With reference to fig. 1, fig. 1 is a schematic flow chart of a slope monitoring method provided in an embodiment of the present application, where the method includes step S100, step S101, step S102, and step S103, and includes:

step S100, after detecting that the slope monitoring request is triggered, acquiring current slope data information, wherein the current slope data information at least comprises a point position number, a data ID, current acquisition time and current point position coordinates.

Wherein, the current slope data information can be collected by a come card monitoring device. The laika monitoring equipment sends the collected point number, the current acquisition time and the current point coordinate to the laika total station, and the laika total station stores the point number, the current acquisition time and the current point coordinate collected by each laika monitoring equipment in a database, wherein the preferred database is an sql server database. The laika monitoring equipment can set the position on the side slope according to the actual requirement of a user, multiple laika monitoring equipment can exist on the same side slope, the laika monitoring equipment also can exist on the side slope, and after the laika monitoring equipment is set, the laika monitoring equipment acquires side slope data information according to a preset time interval.

The point number is a reference number of the come card monitoring device, and each come card monitoring device corresponds to a point number. The data ID is a data number stored in the database, the database numbers data information according to a sequence in which the point number, the current acquisition time, and the current point location coordinate are written in the database from small to large, the current acquisition time is a time at which the data information is acquired by the laika monitoring device, and the point location coordinate is a coordinate of a point location at which the laika monitoring software is located. During construction, a constructor carries out civil engineering work under a side slope, the height of the side slope may change due to the change of the internal structure of the side slope, and the position coordinates of the laika monitoring equipment arranged on the side slope can also change accordingly.

Specifically, after detecting that the slope monitoring request is triggered, the electronic device obtains the current slope data information stored in the database, where the method for obtaining the current slope data information of the database may be obtaining according to the data ID or obtaining according to the current obtaining time.

And S101, acquiring previous slope data information with the same point position from a plurality of historical slope data information according to the point position number and the data ID.

Since the laika monitoring device can constantly acquire the slope data information at regular time intervals and write the data information into the database, a plurality of pieces of historical slope data information with the same bit number are stored in the database in advance to be acquired by the electronic device.

Since there are multiple come card monitoring devices, and the point number, the current acquisition time, and the current slope coordinate acquired by the multiple come card monitoring devices are all written in the same database, the slope data information in the database is irregular.

Specifically, since the data information in the database is arranged irregularly, after all the data information with the same point number is obtained from the plurality of historical slope data information, the previous slope data information with the same point number, that is, the previous slope data information collected by the same laika monitoring device, is screened according to the data ID, wherein the screening method may be that the data information with the same point number is screened according to the point number, and then the slope data information corresponding to the data ID with the smallest data ID difference in the current slope data information is selected as the previous slope data information.

And S102, obtaining the displacement speed according to the current obtaining time and the current point position coordinate of the current slope data information and the obtaining time and the point position coordinate of the previous slope data information.

The point location coordinates comprise any one or more of horizontal coordinates, vertical coordinates and high-level coordinates; and calculating the horizontal displacement speed according to the acquisition time and the horizontal coordinate of the data information and the acquisition time and the horizontal coordinate of the previous piece of data, calculating the longitudinal displacement speed according to the acquisition time and the vertical coordinate of the data information and the acquisition time and the vertical coordinate of the previous piece of data, and calculating the high-rise displacement speed according to the acquisition time and the high-rise coordinate of the data information and the acquisition time and the high-rise coordinate of the previous piece of data, wherein the displacement speed comprises any one or more of the horizontal displacement speed, the vertical displacement speed and the high-rise displacement speed.

The calculation method comprises the following steps that V is any one or more of a transverse displacement speed, a longitudinal displacement speed and a high-rise displacement speed, is any one of a transverse coordinate, a longitudinal coordinate and a high-rise coordinate of data information, is a coordinate of the last slope data information corresponding to the data information, is the current acquisition time of the data information, and is the current acquisition time of the last slope data information.

And S103, judging whether the displacement speed is smaller than a preset displacement speed threshold value or not, if the displacement speed is not smaller than the preset displacement speed threshold value, generating alarm information, and giving an alarm according to the alarm information.

The embodiment of the application does not limit the preset displacement speed threshold, and the preset displacement speed threshold can be set in a user-defined mode according to user requirements. Further, when the unit of the preset displacement speed threshold is not consistent with the unit of the displacement speed, the unit of the preset displacement speed threshold and/or the unit of the displacement speed are adjusted to enable the unit of the preset displacement speed threshold and the unit of the displacement speed to be the same. For example, the preset displacement speed threshold is set to be 6 meters per day, the displacement speed is 0.1 meter per hour, the unit conversion of the preset displacement speed threshold can be performed, and the preset displacement speed threshold is 0.25 meter per hour.

When the displacement speed is not less than the preset displacement speed threshold value, alarm information is generated, and when the displacement speed is less than the preset displacement speed threshold value, the alarm information is not generated.

Wherein, generating the alarm information may include: and automatically generating alarm information according to the displacement speed, the point position number and the current acquisition time and a preset template.

It can be understood that, as long as the displacement speed is not less than the preset displacement speed threshold, the alarm information is generated based on the same preset template, for example, the preset template may be: "dangerous early warning of point location number, the current displacement speed of the slope at the current acquisition time is, please continuously pay attention! Of course, other preset templates may be used, and the embodiment of the present application is not limited, as long as the purpose of the embodiment can be achieved.

Of course, it may also be that when the displacement speed is not less than the preset displacement speed threshold, the corresponding preset template is determined according to the displacement speed range of the displacement speed, and specifically, the determining process of the preset template includes: determining a target displacement speed range to which the displacement speed belongs from a plurality of displacement speed ranges; and determining a preset template corresponding to the target displacement speed range from the plurality of templates. The template corresponding to each displacement speed range comprises a corresponding early warning grade, specifically, when the displacement speed is not less than a preset displacement speed threshold, a plurality of displacement speed ranges can be set, each displacement speed range corresponds to a different early warning grade, the template corresponding to each corresponding displacement speed range also comprises the early warning grade, and of course, the template can also comprise the displacement speed, a point position number and the current acquisition time. For example, when the early warning level corresponding to the target displacement speed range where the displacement speed is located is the first early warning level, the preset template may be: "first early warning level, dangerous early warning of point location, current displacement speed of slope at current acquisition time is, please continuously pay attention! "; when the early warning level corresponding to the target displacement speed range where the displacement speed is located is the second early warning level, the preset template may be: "second early warning level, point location danger early warning, current displacement speed of slope at current acquisition time is, please continuously pay attention! ".

The embodiment of the present application does not limit the alarm manner, for example: broadcast formula warning, light warning, send the SMS suggestion etc. wherein, send the SMS suggestion and can be: the electronic equipment prestores constructor information, and after the alarm information is generated, the alarm information is sent to a mobile phone of the constructor according to the mobile phone number of the constructor, wherein the constructor information at least comprises the mobile phone number of the constructor.

Specifically, the embodiment of the application provides a slope monitoring method, which includes calculating a displacement speed by obtaining current slope data information and previous slope data information, and judging whether alarm information is generated according to the displacement speed, so that a slope can be monitored timely and accurately.

Further, in this embodiment of the application, in order to improve the accuracy of slope monitoring, step S101 includes:

acquiring initial previous slope data information with the same point position number from a plurality of historical slope data information according to the point position number and the data ID;

Since there may be error information in the historical slope data, it is necessary to verify the previous slope data information of the same point number in the historical slope data information, where the error information is the slope data information corresponding to the data ID for determining the generated alarm information.

In order to obtain the latest displacement speed of the slope corresponding to the same point location number, the last data of the same point location number needs to be verified, so that the condition that the slope monitoring is inaccurate due to error information is avoided.

An implementable method of validating an initial previous piece of slope data comprises: calculating the time interval between the current acquisition time of the current side slope data information and the acquisition time of the initial previous side slope data information, matching the time interval with the information acquisition time interval of the laika monitoring equipment of the same bit number, if the matching is successful, determining that the initial previous side slope data information is the previous side slope data information, and if the matching is unsuccessful, determining that the initial previous side slope data information is not the previous side slope data information.

Another implementable method of validating the initial previous slope data includes: calculating the acquisition time of a piece of slope data information according to the current acquisition time of the current slope data information and the information acquisition time interval of the Leica monitoring equipment with the same bit number, matching the initial previous slope data information with the calculated acquisition time of the previous slope data information, if the matching is successful, determining that the initial previous slope data information is the previous slope data information, and if the matching is unsuccessful, determining that the initial previous slope data information is not the previous slope data information.

Specifically, the initial previous slope data information is verified by using the current time of the current slope data information and the acquired acquisition time of the initial previous slope data information, so that the interference of error information is avoided, the error information is historical slope data information for generating alarm information, and the accuracy of slope monitoring is improved.

Further, in this application embodiment, in order to improve the accuracy of slope monitoring, the current slope data information further includes a management area to which the slope data information belongs, and whether the displacement speed is smaller than a preset displacement speed threshold value is determined, further including:

and determining a preset displacement speed threshold value from a corresponding relation according to the governing area to which the current slope data information belongs, wherein the corresponding relation is the corresponding relation between each governing area and the displacement speed threshold value corresponding to the governing area.

The management area belongs to is the management area where the come card monitoring equipment corresponding to the point location number is located, wherein, the belonging management area can be freely set according to monitoring personnel, in the embodiment of the application, a plurality of side slopes exist, generally speaking, one side slope can be set as one management area, correspondingly, because the slope grade and the height of the side slope are different from the construction condition of the side slope engineering, the corresponding preset displacement speed threshold value is different, and the corresponding preset displacement speed threshold value can be set according to the slope grade and the height of the side slope and the construction condition of the side slope engineering. Specifically, the electronic device prestores a preset corresponding relationship between an affiliated treatment area and a preset displacement speed threshold, and after the current slope data information is acquired, the affiliated treatment area in the current slope data information is analyzed, and the preset displacement speed threshold is determined according to the affiliated treatment area.

Specifically, the preset displacement speed threshold is determined according to the corresponding relation and the belonging treatment area, so that slope monitoring on different slopes is realized, the condition that judgment is inaccurate due to the fact that different slopes use the same preset displacement speed threshold is avoided, and the slope monitoring accuracy is improved.

Further, in this embodiment of the application, in order to facilitate management of current slope data information and displacement speed for generating alarm information, after alarming according to the alarm information, the method further includes:

In order to facilitate the statistics and analysis of the current slope data information and the displacement speed of the generated alarm information by the staff, the current slope data information and the displacement speed of the generated alarm information can be recorded, stored and judged.

A method for recording and storing the current slope data information and the displacement speed in an achievable way is to write the current slope data information and the displacement speed into a working table by utilizing an openpyxl technology, preferably, the working table is an excel table, and specifically, an excel file is created; and obtaining an excel worksheet, and writing the current slope data information and the displacement speed into the excel worksheet according to a preset rule, wherein the preset rule comprises writing according to rows or columns.

Another method for recording and storing the current slope data information and the displacement speed, which can be realized, is as follows: and sending the current slope data information and the displacement speed to a recording database for recording and storing.

Specifically, the current slope data information and the displacement speed of the alarm information are judged and generated, and are recorded and stored, so that the management of the current slope data information and the displacement speed of the alarm information is facilitated.

Further, in this embodiment of the present application, in order to reduce consumption of resources, the method further includes:

Since the laika monitoring apparatus continuously acquires data information and writes the data information into the database at regular time intervals, there is not only a laika monitoring apparatus, the time monitoring of data acquisition of each come card monitoring device is not necessarily the same, the data information in the database is arranged irregularly, the data ID is the data number stored in the database, the database numbers the data information according to the sequence of writing the data information into the database, therefore, in determining whether the displacement velocity is less than the predetermined displacement velocity threshold, after determining that the displacement velocity is less than the predetermined displacement velocity threshold, and if the displacement velocity is not less than the predetermined displacement velocity threshold, generating alarm information, recording and storing the current slope data information and the displacement speed, acquiring the slope data information of the next data ID, and taking the slope information corresponding to the next data ID as new slope information to continuously execute the slope monitoring method.

Since time for the card come monitoring equipment to collect slope data information and write the slope data information into the database through the card come total station cannot be determined, after judgment of the current slope data information is finished, whether the slope data information of the next data ID exists in the database needs to be judged before data information corresponding to the next data ID is obtained, if yes, the slope data information of the next data ID can be directly obtained, subsequent steps are executed for judgment, if not, waiting is carried out according to preset waiting time, and after the preset waiting time is finished, the judging step is continuously executed until the slope data information of the next data ID exists.

When slope data information of the next data ID does not exist, the electronic equipment cannot execute a slope monitoring process, so that the electronic equipment can continuously acquire the slope data information, and a large amount of resources are wasted.

In order to achieve real-time acquisition of slope data information, the waiting time is generally set to be 3-5 seconds.

Specifically, whether slope data information of the next data ID exists or not is judged, if not, waiting is carried out according to waiting time, and therefore the situation that when the slope data information of the next data ID does not exist, the electronic equipment continuously acquires the slope data information of the next data ID, a large amount of resources are wasted, and resource consumption is reduced.

Further, in this application embodiment, in order to improve the rate of accuracy of slope monitoring, still include:

calculating slope accumulated displacement according to the current point position coordinate, the point position coordinate of the previous slope data information and the historical total displacement; judging whether to generate displacement alarm information or not based on the accumulated side slope displacement and a preset displacement threshold value; if the displacement alarm information is generated, alarming according to the displacement alarm information;

In the preset time interval, the displacement speed of the same point number is smaller than the preset displacement speed threshold value, but the displacement is still carried out, although the alarm information is not generated for alarming, when the displacement of the side slope reaches a certain threshold value, danger exists, and therefore the displacement alarm information needs to be generated and the alarm is carried out according to the displacement alarm information.

The method for calculating the accumulated slope displacement can comprise the following steps: and acquiring the current point location coordinate, and acquiring the last point location coordinate of the same point location number according to a preset time interval. And calculating the accumulated displacement of the side slope according to the current point position coordinate and the last point position coordinate.

If the accumulated displacement of the side slope is larger than a preset accumulated displacement threshold value, generating displacement alarm information and giving an alarm according to the displacement alarm information;

and if the slope accumulated displacement is not greater than the preset accumulated displacement threshold, no displacement alarm information is generated.

The side slope humidity and/or the side slope temperature are one of the main factors influencing the humidity stability, and when the side slope humidity is greater than the preset side slope humidity threshold value and/or the current side slope temperature is greater than the preset side slope temperature threshold value, conditions such as collapse and landslide may be caused, and the life safety of side slope constructors is threatened.

The current slope humidity and/or the current slope temperature are collected by the laika monitoring equipment and stored in the database by the laika total station, so that after the current slope humidity and/or the current slope temperature are obtained, whether the current slope humidity is greater than a preset slope humidity threshold value and/or whether the current slope temperature is greater than a preset slope temperature threshold value is judged.

When the current slope humidity is larger than a preset slope humidity threshold value, generating environment alarm information, and giving an alarm according to the environment alarm information;

when the current slope temperature is greater than a preset slope temperature threshold value, generating environment alarm information, and giving an alarm according to the environment alarm information;

and when the current slope temperature is not greater than the preset slope preset threshold value and the current slope humidity is not greater than the preset slope humidity threshold value, no environment alarm information is generated.

Further, the preset humidity threshold and/or the preset temperature threshold are set according to the corresponding treatment areas, correspondingly, due to the fact that the slopes, the heights and the soil qualities of the side slopes are different, the preset humidity threshold and/or the preset temperature threshold of each treatment area are different, and the monitoring personnel set the corresponding preset humidity threshold and/or the preset temperature threshold according to the slopes, the heights and the soil qualities of the corresponding treatment areas. Specifically, the corresponding relation between the belonging treatment area preset by the monitoring personnel and the preset humidity threshold and/or the preset temperature threshold is prestored in the electronic device, and after the current slope data is obtained, the belonging treatment area in the current slope data information is analyzed, and the preset humidity threshold and/or the preset temperature threshold is determined according to the treatment area.

Specifically, whether to alarm or not is judged through accumulated displacement, current humidity and current temperature, so that the situation that the life safety of side slope constructors is threatened due to inaccurate and untimely side slope monitoring is avoided, and the accuracy of side slope monitoring is improved.

Further, in the embodiment of the present application, the alarming according to the alarm information includes at least one of the following:

sending the alarm information to corresponding client equipment;

The voice broadcast system is a system for realizing alarm by using alarm information, wherein the content broadcast by the voice broadcast system can be one or more of a number calling name, a displacement speed, a treatment area to which the voice broadcast system belongs and current acquisition time, and can be set in a user-defined mode according to user requirements.

Because the region of side slope is great, side slope engineering constructor's distribution is more dispersed, when confirming that current side slope data message need generate alarm information, reports to the police according to alarm information through the voice broadcast system, reminds side slope engineering constructor to pay attention to safety, has avoided the safety problem because side slope engineering constructor's construction causes.

Specifically, the embodiment of the application provides a method for alarming according to alarm information, and the alarm information is broadcasted through the voice broadcast system, so that constructors are reminded of paying attention to safety, the safety problem caused by construction of the constructors is avoided, and the safety of slope engineering constructors is improved.

In the above embodiments, a slope monitoring method is introduced from the perspective of the method flow, and the following embodiments describe a slope monitoring device from the perspective of a module or a unit, which are described in detail in the following embodiments. Referring to fig. 2, fig. 2 is a schematic structural diagram of a slope monitoring device according to an embodiment of the present application, including:

the first obtaining module 210: the slope monitoring system is used for acquiring current slope data information after a slope monitoring request triggered by a worker is detected, wherein the slope data information at least comprises a point position number, a data ID, current acquisition time and a current point position coordinate;

the second obtaining module 220: the slope data information acquisition module is used for acquiring previous slope data information with the same point position number from a plurality of historical slope data information according to the point position number and the data ID;

displacement velocity obtaining module 230: the displacement speed is obtained according to the current obtaining time and the coordinate of the data information and the current obtaining time and the coordinate of the previous slope data information;

the first determining module 240: and the alarm information processing unit is used for judging whether the displacement speed is less than a preset displacement speed threshold value or not, if the displacement speed is not less than the preset displacement speed threshold value, generating alarm information and giving an alarm according to the alarm information.

In a possible implementation manner of the embodiment of the present application, when the second obtaining module 220 obtains the previous slope data information that is the same as the point location number from the multiple historical slope data information according to the point location number and the data ID, the second obtaining module is specifically configured to:

A possible implementation manner of the embodiment of the present application further includes:

a first determination module: and the method is used for determining a preset displacement speed threshold value from a corresponding relation according to the governing area to which the current slope data information belongs, wherein the corresponding relation is the corresponding relation between each governing area and the displacement speed threshold value corresponding to the governing area.

a recording and saving module: and the method is used for recording and storing the current slope data information and the displacement speed.

a second judging module: judging whether slope data information corresponding to the next data ID exists or not;

a third judging module: calculating slope accumulated displacement according to the current point position coordinate, the point position coordinate of the previous slope data information and the historical total displacement; judging whether to generate displacement alarm information or not based on the accumulated side slope displacement and a preset displacement threshold value; if the displacement alarm information is generated, alarming according to the displacement alarm information;

According to a possible implementation method of the embodiment of the application, the method for alarming according to the alarm information comprises the following steps:

sending the alarm information to corresponding client equipment;

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the slope monitoring device described above may refer to the corresponding process in the foregoing method embodiment, and is not described herein again.

An embodiment of the present application provides an electronic device, as shown in fig. 3, fig. 3 is a schematic structural diagram of the electronic device provided in the embodiment of the present application, and an electronic device 300 shown in fig. 3 includes: a processor 301 and a memory 303. Wherein processor 301 is coupled to memory 303, such as via bus 302. Optionally, the electronic device 300 may also include a transceiver 304. It should be noted that the transceiver 304 is not limited to one in practical applications, and the structure of the electronic device 300 is not limited to the embodiment of the present application.

The Processor 301 may be a CPU (Central Processing Unit), a general-purpose Processor, a DSP (Digital Signal Processor), an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array) or other Programmable logic device, a transistor logic device, a hardware component, or any combination thereof. Which may implement or perform the various illustrative logical blocks, modules, and circuits described in connection with the disclosure of the embodiments of the application. The processor 301 may also be a combination of computing functions, e.g., comprising one or more microprocessors, a combination of a DSP and a microprocessor, or the like.

Bus 302 may include a path that transfers information between the above components. The bus 302 may be a PCI (Peripheral Component Interconnect) bus, an EISA (Extended Industry Standard Architecture) bus, or the like. The bus 302 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in FIG. 3, but this does not mean only one bus or one type of bus.

The Memory 303 may be a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory), a CD-ROM (Compact Disc Read Only Memory) or other optical Disc storage, optical Disc storage (including Compact Disc, laser Disc, optical Disc, digital versatile Disc, blu-ray Disc, etc.), a magnetic Disc storage medium or other magnetic storage device, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to these.

The memory 303 is used for storing application program codes for executing the embodiments of the present application, and is controlled by the processor 301. The processor 301 is configured to execute application program code stored in the memory 303 to implement the aspects illustrated in the foregoing method embodiments.

Among them, electronic devices include but are not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., car navigation terminals), and the like, and fixed terminals such as digital TVs, desktop computers, and the like. The electronic device shown in fig. 3 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present application.

The following describes a computer-readable storage medium provided by embodiments of the present application, and the computer-readable storage medium described below and the method described above may be referred to correspondingly.

The embodiment of the application provides a computer-readable storage medium, wherein a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the steps of the slope monitoring method are realized. Compared with the prior art, in the embodiment of the application, the displacement speed is calculated by acquiring the current slope data information and the previous slope data information, whether alarm information is generated or not is judged according to the displacement speed, and the slope can be monitored timely and accurately.

Since embodiments of the computer-readable storage medium section correspond to embodiments of the method section, reference is made to the description of the embodiments of the method section for embodiments of the computer-readable storage medium section.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least a portion of the steps in the flow chart of the figure may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The foregoing is only a partial embodiment of the present application, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present application, and these modifications and decorations should also be regarded as the protection scope of the present application.

Claims

1. A method of slope monitoring, comprising:

obtaining a displacement speed according to the current obtaining time and the current point position coordinate of the current slope data information and the obtaining time and the point position coordinate of the previous slope data information;

2. The side slope monitoring method according to claim 1, wherein the obtaining of the last side slope data information with the same point location number from a plurality of historical side slope data information according to the point location number and the data ID comprises:

3. The method according to claim 1, wherein the current slope data information further includes a governing area to which the current slope data information belongs, and whether the displacement speed is smaller than a preset displacement speed threshold is determined, further comprising:

4. The side slope monitoring method according to claim 1, further comprising, after the alarming according to alarm information,:

5. The slope monitoring method according to claim 4, further comprising:

6. The slope monitoring method according to claim 1, further comprising at least one of:

7. The side slope monitoring method according to claim 1, wherein the alarming according to alarm information comprises at least one of:

sending the alarm information to corresponding client equipment;

8. A slope monitoring device, comprising:

9. An electronic device, comprising:

at least one processor;

a memory;

at least one application, wherein the at least one application is stored in the memory and configured to be executed by the at least one processor, the at least one application configured to: a computer program for a method according to any one of claims 1 to 7.

10. A computer-readable storage medium having stored therein instructions which, when executed on a computer, cause the computer to perform the method of any one of claims 1 to 7.