CN115545261A - Wind image information monitoring method and device, electronic equipment and storage medium - Google Patents

Abstract

The application provides a wind condition information monitoring method, a wind condition information monitoring device, electronic equipment and a storage medium, wherein the method comprises the following steps: acquiring a first wind condition monitoring sub-area, in which wind condition information in a target wind condition monitoring area meets preset monitoring conditions, wherein the wind condition information at least comprises wind speed information and wind direction information; and according to the wind image information of the first wind image monitoring sub-region, obtaining a second wind image monitoring sub-region adjacent to the first wind image monitoring sub-region in the target wind image monitoring region, and obtaining the wind image information of the second wind image monitoring sub-region. The wind condition information monitoring method can perform early warning on the engineering equipment in the second wind condition monitoring subarea in advance according to the wind condition information of the second wind condition monitoring subarea obtained in advance, and can improve the working safety of the engineering equipment.

Description

Wind image information monitoring method and device, electronic equipment and storage medium

Technical Field

The invention relates to the field of wind condition monitoring, in particular to a wind condition information monitoring method. The invention also relates to a wind condition information monitoring device, an electronic device and a storage medium.

Background

In the working process of engineering equipment, often can receive the influence of meteorological condition to lead to engineering equipment's work precision and work safety all to receive the influence, if: for engineering equipment for working aloft, the wind speed not only has great influence on the operating efficiency and precision of the engineering equipment, but also may cause safety risks. Therefore, in order to ensure that the engineering equipment can avoid the work precision and the work safety caused by the wind speed, the work of the engineering equipment is often required to be suspended or stopped based on the wind image information monitoring.

The existing wind condition information monitoring scheme is generally as follows: and monitoring the real-time wind speeds of different areas in different areas to obtain the real-time wind speeds of the different areas. For engineering equipment for carrying out complex operation, certain time is needed for preparation when the construction is paused or stopped, and the working safety of the engineering equipment is often low by obtaining real-time wind speeds in different areas and carrying out early warning on the engineering equipment.

Disclosure of Invention

The invention provides a wind image information monitoring method, a wind image information monitoring device, electronic equipment and a storage medium, which are used for improving the working safety of engineering equipment.

The embodiment of the invention provides a wind condition information monitoring method, which comprises the following steps:

acquiring a first wind condition monitoring sub-area, in which wind condition information in a target wind condition monitoring area meets preset monitoring conditions, wherein the wind condition information at least comprises wind speed information and wind direction information;

and according to the wind image information of the first wind image monitoring sub-region, obtaining a second wind image monitoring sub-region adjacent to the first wind image monitoring sub-region in the target wind image monitoring region, and obtaining the wind image information of the second wind image monitoring sub-region.

Optionally, the preset monitoring condition includes a first wind speed threshold;

the first wind condition monitoring sub-region for acquiring the wind condition information in the target wind condition monitoring region and meeting the preset monitoring conditions comprises the following steps:

acquiring wind image information of a monitoring sub-area in the target wind image monitoring area;

acquiring wind speed information corresponding to the wind image information of the monitored sub-area as wind speed information to be judged;

judging whether the wind speed value corresponding to the wind speed information to be judged reaches the first wind speed threshold value within a specified time interval;

and taking the monitoring sub-area corresponding to the wind speed information to be judged, of which the wind speed value reaches the first wind speed threshold value, as the first wind condition monitoring sub-area.

Optionally, the obtaining, in the target wind image monitoring region, a second wind image monitoring sub-region adjacent to the first wind image monitoring sub-region according to the wind image information of the first wind image monitoring sub-region includes: and obtaining the second wind image monitoring sub-region according to the wind direction information corresponding to the wind image information of the first wind image monitoring sub-region.

Optionally, the method for monitoring wind direction information provided in the embodiment of the present application further includes: and obtaining target action information which needs to be executed by target engineering equipment in the second wind condition monitoring sub-area according to the wind condition information of the second wind condition monitoring sub-area.

Optionally, the obtaining of the wind image information of the second wind image monitoring sub-region includes:

obtaining topographic information between the second wind image monitoring sub-region and the first wind image monitoring sub-region;

according to the terrain information and first wind speed information and/or first wind direction information corresponding to the wind image information of the first wind image monitoring sub-area, obtaining second wind speed information and/or second wind direction information corresponding to the wind image information of the second wind image monitoring sub-area;

the obtaining of the target action information to be executed by the target engineering equipment in the second wind condition monitoring sub-area according to the wind condition information of the second wind condition monitoring sub-area comprises: and obtaining the target action information according to the second wind speed information and/or the second wind direction information.

Optionally, the target action information includes one of the following action information:

first target action information for instructing the target engineering equipment to execute a normal action;

second target action information for instructing the target engineering equipment to execute a specified action.

Optionally, the method for monitoring wind direction information provided in the embodiment of the present application further includes: and obtaining risk information existing in the target engineering equipment according to the second wind speed information and/or the second wind direction information.

Another embodiment of the present invention further provides a wind condition information monitoring device, including:

the first wind condition monitoring subarea obtaining unit is used for obtaining a first wind condition monitoring subarea of which wind condition information in a target wind condition monitoring area meets preset monitoring conditions, and the wind condition information at least comprises wind speed information and wind direction information;

and the wind image information monitoring unit is used for acquiring a second wind image monitoring sub-area adjacent to the first wind image monitoring sub-area in the target wind image monitoring area according to the wind image information of the first wind image monitoring sub-area and acquiring the wind image information of the second wind image monitoring sub-area.

Another embodiment of the present invention further provides an electronic device, including:

a processor; and

and the memory is used for storing the program of the method, and the device executes the method provided by the embodiment of the invention after being powered on and running the program of the method through the processor.

In another embodiment of the present invention, a storage medium is further provided, where the storage medium stores a computer program, and the computer program is executed by a processor to perform the method provided in the embodiment of the present invention.

Compared with the prior art, the invention has the following advantages:

the wind condition information monitoring method provided by the embodiment of the invention can improve the working safety of engineering equipment, and is described in detail below with reference to specific embodiments.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic view of a first application scenario of a wind condition information monitoring method according to an embodiment of the present invention.

Fig. 2 is a schematic view of a second application scenario of the wind condition information monitoring method according to the embodiment of the present invention.

Fig. 3 is a flowchart of a wind condition information monitoring method according to a first embodiment of the present invention.

Fig. 4 is a flowchart of a first obtaining method for a sub-area of wind condition monitoring according to a first embodiment of the present invention.

Fig. 5 is a schematic view of a wind condition information monitoring apparatus according to a second embodiment of the present invention.

Fig. 6 is a schematic diagram of an electronic device provided in an embodiment of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In order to more clearly show the wind condition information monitoring method provided by the embodiment of the invention, an application scenario of the wind condition information monitoring method provided by the embodiment of the invention is described first.

In practical application, the wind condition information monitoring method provided by the invention can be applied to a scene for monitoring the wind condition information of an area where the hoisting equipment is located. In this case, the target construction equipment is: hoisting equipment. The hoisting equipment specifically includes, but is not limited to, a crane, a tower crane and the like.

The execution main body of the wind condition information monitoring method provided by the embodiment of the invention can be a user end provided with software or a program capable of executing the wind condition information monitoring method provided by the invention. The user side is generally an electronic device, such as a mobile phone, a computer, etc., capable of displaying information through a human-computer interaction interface, and the user side may also be an electronic device directly installed on a target engineering device.

In addition, the execution main body of the wind condition information monitoring method provided by the embodiment of the present invention may be a server for providing data services to a user side of software or a program for executing the wind condition information monitoring method provided by the present invention, and a general implementation manner of the server is a server or a server cluster.

The following specifically takes the target engineering equipment as a crane as an example, and explains an application scenario of the wind condition information monitoring method provided in the embodiment of the present invention, and for an application scenario of the wind condition information monitoring method when the target engineering equipment is other engineering equipment than the crane, please refer to an application scenario of the wind condition information monitoring method when the target engineering equipment is the crane, which is not described herein any more.

Please refer to fig. 1, which is a schematic view of a first application scenario of a wind condition information monitoring method according to an embodiment of the present invention, where fig. 1 includes: server 101, client 102, and crane 103.

Firstly, determining a target wind condition monitoring area, dividing the target wind condition monitoring area into a plurality of different wind condition monitoring sub-areas in advance according to longitude and latitude information, and obtaining and storing the wind condition monitoring sub-areas adjacent to each wind condition monitoring sub-area.

Secondly, monitoring wind image information of the target wind image monitoring area through wind image monitoring equipment arranged in the target wind image monitoring area to obtain wind image information of a wind image monitoring sub-area in the target wind image monitoring area; the weather information of the weather monitoring sub-area is sent to the server 101.

By wind image information is meant information that is used to describe the wind image, including but not limited to wind speed information and wind direction information.

After obtaining the wind image information of the wind image monitoring sub-region, the server 101 further obtains a first wind image monitoring sub-region in the target wind image monitoring region, where the wind image information meets the preset monitoring condition.

The preset monitoring conditions are preset monitoring conditions for screening the wind condition monitoring sub-regions according to the prior values, and generally comprise wind speed thresholds and the like.

Thirdly, the server 101 obtains, in the target weather monitoring area, a weather monitoring sub-area adjacent to the first weather monitoring sub-area and satisfying the wind direction information as a second weather monitoring sub-area according to the wind direction information, and obtains the weather information of the second weather monitoring sub-area according to the weather information of the first weather monitoring sub-area.

Fig. 2 is a schematic view of a second application scenario of the wind condition information monitoring method according to the embodiment of the present invention. In a specific implementation process, the first wind condition monitoring sub-region may be any wind condition monitoring sub-region that meets preset monitoring conditions in a target wind condition monitoring region (including the wind condition monitoring sub-regions 1-8 and the wind condition monitoring sub-region marked with an asterisk).

In the embodiment of the present invention, specifically, taking the first weather monitoring sub-region as a central sub-region (marked as an asterisk weather monitoring sub-region) in the target weather monitoring region as an example, when the first weather monitoring sub-region is the central sub-region in the target weather monitoring region, if the wind direction corresponding to the weather information of the first weather monitoring sub-region faces east, the weather monitored by the first weather monitoring sub-region can only affect an adjacent weather monitoring sub-region located on the east side of the first weather monitoring sub-region. At this time, the second wind condition monitoring sub-area is sub-areas 3, 5, and 8 within the target wind condition monitoring area. That is, when determining the second wind condition monitoring sub-area, the first wind direction information corresponding to the wind condition information of the first wind condition monitoring sub-area needs to be considered.

Finally, referring to fig. 1 again, when the user terminal 102 sends the action information acquisition request information to the server terminal 101, the server terminal 101 may obtain, according to the second weather information, target action information that needs to be executed by the target engineering equipment 103 in the second weather monitoring sub-area, and send the target action information to the user terminal 102 according to the action information acquisition request information.

In addition, the server 101 may further obtain risk information of the target engineering equipment according to the second weather information, and mark the risk information in the target action information to prompt related personnel.

After obtaining the target action information, the user terminal 102 displays the target action information through the human-computer interaction interface, and is used for instructing the user to operate the target engineering equipment 103 to execute an action according to the target action information.

The target action information includes, but is not limited to, first target action information for instructing the target engineering equipment to perform a normal action, and second target action information for instructing the target engineering equipment to perform a specified action. The designated action includes, but is not limited to, an action of suspending the work of the target construction equipment, an action of adjusting the standing posture of the target construction equipment, an action of reinforcing the target construction equipment, and an action of transferring the target construction equipment.

After obtaining the target action information, the user can execute the specified action according to the target action information so as to ensure the working safety of the target engineering equipment. In addition, the target action information can be input into a controller for controlling the target engineering equipment, and then the target engineering equipment is controlled by the controller to execute corresponding specified actions, so that the working safety of the target engineering equipment is ensured.

In the embodiment of the present invention, an application scenario of the electrical weather information monitoring method provided in the embodiment of the present invention is not specifically limited, for example: the method for monitoring the electric weather information provided by the invention can also be applied to other engineering equipment, and is not repeated. The embodiment corresponding to the application scenario of the electrical wind image information monitoring method is provided for facilitating understanding of the electrical wind image information monitoring method provided by the present invention, and is not used for limiting the electrical wind image information monitoring method provided by the present invention.

First embodiment

A method for monitoring weather information is provided in a first embodiment of the present invention, and the method for monitoring weather information provided in the first embodiment of the present invention is described in detail below with reference to fig. 3. Fig. 3 is a flowchart of a wind condition information monitoring method according to a first embodiment of the present invention.

In step S301, a first wind condition monitoring sub-area where wind condition information in the target wind condition monitoring area meets a preset monitoring condition is obtained, where the wind condition information at least includes wind speed information and wind direction information.

By wind image information is meant information that is used to describe the wind image, including but not limited to wind speed information and wind direction information.

The target wind condition monitoring area is a wind condition monitoring area which is divided in advance according to requirements or actual geographic environments, and the target wind condition monitoring area is further divided into a plurality of different wind condition monitoring sub-areas according to geographic position information. Specifically, the target wind condition monitoring area may be divided into a plurality of different wind condition monitoring sub-areas according to the corresponding position information of different terrains.

In the embodiment of the invention, different wind condition monitoring sub-areas correspond to different terrains, so that the monitoring of the wind condition information is more convenient.

In a specific implementation process, the target wind condition monitoring area can be divided into a plurality of different wind condition monitoring sub-areas according to the longitude and latitude information of the geographic position information. In general, each wind condition monitoring sub-region has 8 adjacent wind condition monitoring sub-regions, but for a wind condition monitoring sub-region at the edge of the target wind condition monitoring region, the number of adjacent wind condition monitoring sub-regions may be less than 8. In addition, it should be noted that, in the first embodiment of the present invention, the number of the wind condition monitoring sub-regions adjacent to each wind condition monitoring sub-region is not limited, but needs to be determined according to a partitioning manner corresponding to a specific partitioning requirement. In a first embodiment of the invention, the preset monitoring condition comprises a first wind speed threshold value, which is a wind speed threshold value set according to the requirements of the equipment in the first wind condition monitoring sub-area for the wind speed.

When the preset monitoring condition includes the first wind speed threshold, a specific implementation process of the first wind condition monitoring sub-region, in which the wind condition information in the target wind condition monitoring region meets the preset monitoring condition, is shown in fig. 4, which is a flowchart of the method for obtaining the first wind condition monitoring sub-region according to the first embodiment of the present invention.

Step S401: and obtaining wind image information of the monitoring sub-area in the target wind image monitoring area.

The wind image information of the monitoring subareas can be obtained by wind image information monitoring equipment which is arranged in the corresponding monitoring subareas and is used for monitoring the wind image information.

Step S402: and obtaining wind speed information corresponding to the wind image information of the monitored sub-area as wind speed information to be judged.

Step S403: and judging whether the wind speed value corresponding to the wind speed information to be judged in the specified time interval reaches a first wind speed threshold value.

Step S404: and taking the monitoring subarea corresponding to the wind speed information to be judged with the wind speed value reaching the first wind speed threshold value as a first wind condition monitoring subarea.

Referring to fig. 3 again, in step S302, according to the wind image information of the first wind image monitoring sub-region, a second wind image monitoring sub-region adjacent to the first wind image monitoring sub-region is obtained in the target wind image monitoring region, and the wind image information of the second wind image monitoring sub-region is obtained.

The target engineering equipment includes but is not limited to hoisting equipment. The hoisting equipment specifically includes, but is not limited to, a crane, a tower crane and the like. In the first embodiment of the present invention, a specific implementation process for obtaining the second weather monitoring sub-region includes: firstly, obtaining wind direction information corresponding to the wind condition information of a first wind condition monitoring subregion; and then, according to the wind direction information corresponding to the wind image information of the first wind image monitoring sub-area, obtaining a wind image monitoring sub-area which is adjacent to the first wind image monitoring sub-area and accords with the wind direction corresponding to the wind direction information in the target wind image monitoring area as a second wind image monitoring sub-area. Namely, the second wind condition monitoring subarea is obtained according to the first wind direction information corresponding to the wind condition information of the first wind condition monitoring subarea.

The first wind direction information may be obtained by at least one device having a wind direction monitoring function, which is provided in the first wind condition monitoring area.

If the first weather monitoring sub-area has eight or other number of adjacent weather monitoring sub-areas, then if the wind direction is east, the weather monitored in the first weather monitoring sub-area can only affect the adjacent weather monitoring sub-areas located east of the first weather monitoring sub-area. At this time, the second wind condition monitoring sub-region is an adjacent wind condition monitoring sub-region located on the east side of the first wind condition monitoring sub-region.

In addition, if the wind direction is not defined or is not determined, the second wind image monitoring sub-area can also be an adjacent wind image monitoring sub-area located in the entirety of the first wind image monitoring sub-area.

The specific implementation manner of obtaining the target action information is as follows: firstly, obtaining the wind image information of a second wind image monitoring sub-area according to the wind image information of the first wind image monitoring sub-area. And then, acquiring target action information according to the wind image information of the second wind image monitoring sub-area.

The obtaining of the wind image information of the second wind image monitoring sub-region according to the wind image information of the first wind image monitoring sub-region specifically includes: and predicting the wind image information of the second wind image monitoring sub-area according to the wind image information of the first wind image monitoring sub-area. The prediction process comprises the following steps: and obtaining second wind speed information corresponding to the wind image information of the second wind image monitoring subarea according to the first wind speed information corresponding to the wind image information of the first wind image monitoring subarea. The prediction process further comprises: and obtaining second wind direction information corresponding to the wind image information of the second wind image monitoring sub-area according to the first wind direction information corresponding to the wind image information of the first wind image monitoring sub-area. That is, in the first embodiment of the present invention, a specific implementation manner of obtaining the wind condition information of the second wind condition monitoring sub-area is as follows: firstly, obtaining topographic information between the second wind condition monitoring sub-area and the first wind condition monitoring sub-area; and then, according to the terrain information and the first wind speed information and/or the first wind direction information corresponding to the wind image information of the first wind image monitoring sub-area, obtaining second wind speed information and/or second wind direction information corresponding to the wind image information of the second wind image monitoring sub-area.

Specifically, the wind condition information of the second wind condition monitoring sub-area is predicted according to the distance information, the terrain information and the like between the first wind condition monitoring sub-area and the second wind condition monitoring sub-area.

The terrain information includes obstacle information between the first wind image monitoring sub-area and the second wind image monitoring sub-area. Wherein, the obstacles specifically may be: mountains, buildings, canyons, and the like, and the obstacle information includes an obstacle height value.

In the first embodiment of the present invention, since the target engineering device is an engineering device in the second wind condition monitoring sub-region, obtaining the topographic information between the second wind condition monitoring sub-region and the first wind condition monitoring sub-region may specifically be: and acquiring topographic information between the wind condition monitoring point and the target engineering equipment in the first wind condition monitoring sub-area. That is to say, in the first embodiment of the present invention, the topographic information between the second weather monitoring sub-area and the first weather monitoring sub-area may specifically be topographic information between a weather monitoring point in the first weather monitoring sub-area and the target engineering device. The specific implementation process of obtaining the second wind speed information corresponding to the wind image information of the second wind image monitoring subarea according to the first wind speed information corresponding to the wind image information of the first wind image monitoring subarea comprises the following steps: first, an obstacle height value corresponding to the obstacle information is obtained. And then, judging whether the height value of the obstacle corresponding to the obstacle information reaches a preset height value. Finally, if the height value of the obstacle corresponding to the obstacle information reaches the preset height value, it is determined that the wind speed value corresponding to the second wind speed information is smaller than the second wind speed threshold value, and at this time, a specific value of the wind speed value corresponding to the second wind speed information may be further obtained, or the specific value of the wind speed value corresponding to the second wind speed information may not be obtained.

In addition, if the obstacle height value corresponding to the obstacle information does not reach the preset height value, the wind speed value corresponding to the second wind speed information needs to be further calculated according to the wind speed value corresponding to the first wind speed information and the obstacle height value corresponding to the obstacle information.

In the first embodiment of the invention, the wind image information of the second wind image monitoring sub-region can be predicted according to the wind image information of the first wind image monitoring sub-region, as well as the wind image information obtained by the wind image information monitoring equipment which is arranged in the corresponding monitoring sub-region and used for monitoring the wind image information. That is, different types of weather information obtaining methods are provided in the first embodiment of the present invention, so that the flexibility of obtaining weather information can be improved.

In addition, the convenience of obtaining the wind image information can be improved by predicting the wind image information of the second wind image monitoring sub-area through the wind image information of the first wind image monitoring sub-area.

After step S302, the method for monitoring weather information according to the first embodiment of the present application further includes: and obtaining target action information which needs to be executed by target engineering equipment in the second wind image monitoring sub-area according to the wind image information of the second wind image monitoring sub-area.

In the first embodiment of the present invention, the target action information includes, but is not limited to, first target action information for instructing the target engineering equipment to perform a normal action, and second target action information for instructing the target engineering equipment to perform a specified action. The designated action includes, but is not limited to, an action of suspending the work of the target construction equipment, an action of adjusting the standing posture of the target construction equipment, an action of reinforcing the target construction equipment, and an action of transferring the target construction equipment. In the first embodiment of the present invention, a specific implementation manner of obtaining target action information that needs to be executed by target engineering equipment in the second wind condition monitoring sub-area according to the wind condition information of the second wind condition monitoring sub-area is as follows: firstly, according to the first wind speed information, obtaining second wind speed information corresponding to the wind image information of a second wind image monitoring sub-area; then, target action information is obtained according to the second wind speed information. Having described the process of obtaining the target action information based on the second wind speed information, the process may be divided into two different processes as follows:

the first process is as follows: and when the height value of the obstacle corresponding to the obstacle information reaches the preset height value, judging that the wind speed value corresponding to the second wind speed information does not reach a second wind speed threshold value, and acquiring first target action information for indicating the target engineering equipment to execute normal actions.

The second wind speed threshold value is a wind speed threshold value set according to the requirements of the equipment in the second wind condition monitoring subarea for the wind speed.

Taking target engineering equipment as an example of hoisting equipment, the normal actions include: lifting action of the lifting equipment, swing arm action of the lifting equipment and the like.

The second process is as follows: the height value of the obstacle corresponding to the obstacle information does not reach the preset height value, at this time, the wind speed value corresponding to the second wind speed information needs to be obtained, whether the wind speed value corresponding to the second wind speed information reaches a second wind speed threshold value is further judged, and the target action information is obtained according to the judgment result, wherein the details are as follows: and if the wind speed value corresponding to the second wind speed information reaches a second wind speed threshold value, obtaining second target action information for indicating the target engineering equipment to execute the specified action according to the wind condition information of the second wind condition monitoring sub-area. And if the wind speed value corresponding to the second wind speed information does not reach the second wind speed threshold value, obtaining first target action information.

In addition, regardless of whether the first process of obtaining the target motion information or the second process of obtaining the target motion information is adopted, the second wind speed information and the influence of the second wind direction information on the target motion information need to be considered. That is, the wind direction corresponding to the second wind speed information affects the action corresponding to the target action information, such as: if there is an article which is likely to be blown down by wind, the action corresponding to the target action information should be an action away from the article.

The specific implementation process of obtaining the second target action information for instructing the target engineering equipment to execute the specified action is as follows: firstly, according to the wind speed value corresponding to the second wind speed information, the wind speed grade corresponding to the wind image information of the second wind image monitoring sub-area is obtained. Then, a correspondence between the wind speed level and the specified action is obtained. And finally, obtaining second target action information according to the wind speed grade and the corresponding relation.

The wind speed grade can be divided into seventeen grades according to the international wind speed division standard in sequence, and can also be divided autonomously according to the working safety requirement of equipment.

The designated actions corresponding to different wind speed levels are different, and the designated actions include, but are not limited to, actions of suspending the operation of the target engineering equipment, actions of adjusting the standing posture of the target engineering equipment, actions of reinforcing the target engineering equipment, and actions of transferring the target engineering equipment.

In a first embodiment of the invention, the determined specified action is different for different wind speed classes. In other words, it is possible to ensure that the work safety of the target engineering equipment is ensured by taking different actions according to the wind speed levels, so that the work safety of the target engineering equipment can be ensured for different wind speed levels, and the flexibility of executing actions on the target engineering equipment can be improved on the basis of ensuring the work safety of the target engineering equipment.

In the first embodiment of the present invention, when the height value of the obstacle corresponding to the obstacle information does not reach the preset height value, the target action information may be obtained by the following steps:

first, a difference value between a wind speed value corresponding to the first wind speed information and a wind speed value corresponding to the second wind speed information is obtained.

Then, judging whether the difference value reaches a preset difference value or not;

finally, if yes, second target action information used for indicating the target engineering equipment to execute the specified action is obtained; and if the difference value does not reach the preset difference value, obtaining first target action information for indicating the target engineering equipment to execute the normal action.

In addition, when the difference value reaches the preset difference value or the wind speed value corresponding to the first wind speed information is larger than the first wind speed threshold value, the time interval for obtaining the wind image information can be reduced, and the frequency for obtaining the wind image information is improved, so that the target action to be executed on the target engineering equipment is closely monitored, and the working safety of the engineering equipment is further improved.

In addition, the method for monitoring weather information provided in the first embodiment of the present application may further obtain risk information existing in the target engineering equipment according to the second weather information, and after the risk information is marked in the target action information, the risk information is used to prompt the relevant personnel.

It should be noted that, the execution subject of the wind condition information monitoring method provided in the first embodiment of the present invention may be: at this time, the wind condition information monitoring method provided in the first embodiment of the present invention may further display the target action information.

In addition, the execution subject of the wind condition information monitoring method provided in the first embodiment of the present invention may further be: the server is configured to provide data services to a client installed with software or a program for implementing a target action information query function, and at this time, the weather information monitoring method provided in the first embodiment of the present invention sends target action information to the client in response to action information acquisition request information sent by the client after acquiring the action information acquisition request information.

The wind condition information monitoring method provided in the first embodiment of the present invention can display target action information, ensure that relevant personnel can obtain the target action information, and execute corresponding actions on target engineering equipment according to the target action information, thereby ensuring the real-time performance of the work safety of the engineering equipment.

In the wind condition information monitoring method provided by the first embodiment of the present invention, the target wind condition monitoring area is divided into different wind condition monitoring sub-areas, and when there is a wind condition monitoring sub-area satisfying the preset monitoring condition in the target wind condition monitoring area, according to the wind condition information of the first wind condition monitoring sub-area, a second wind condition monitoring sub-area is obtained in an adjacent wind condition monitoring sub-area of the first wind condition monitoring sub-area, and the wind condition information of the second wind condition monitoring sub-area is obtained in advance.

Second embodiment

The second embodiment of the invention also provides a wind condition information monitoring device, which corresponds to the embodiment corresponding to the application scene of the wind condition information monitoring method provided by the invention and the wind condition information monitoring method provided by the first embodiment. Since the embodiment of the apparatus is basically similar to the embodiment corresponding to the application scenario and the first embodiment, the description is relatively simple, and for relevant points, reference may be made to the embodiment corresponding to the application scenario and part of the description of the first embodiment. The device embodiments described below are merely illustrative.

Fig. 5 is a schematic view of a wind condition information monitoring device according to a second embodiment of the present invention.

A wind condition information monitoring apparatus provided in a second embodiment of the present invention includes:

a first weather monitoring sub-region obtaining unit 501, configured to obtain a first weather monitoring sub-region where weather information in a target weather monitoring region meets a preset monitoring condition, where the weather information at least includes wind speed information and wind direction information;

and a wind image information monitoring unit 502, configured to obtain, in the target wind image monitoring region, a second wind image monitoring sub-region adjacent to the first wind image monitoring sub-region according to the wind image information of the first wind image monitoring sub-region, and obtain wind image information of the second wind image monitoring sub-region.

Optionally, the preset monitoring condition includes a first wind speed threshold;

the first wind condition monitoring sub-region obtaining unit 501 is specifically configured to obtain wind condition information of a monitoring sub-region in the target wind condition monitoring region; acquiring wind speed information corresponding to the wind condition information of the monitoring subarea as wind speed information to be judged; judging whether the wind speed value corresponding to the wind speed information to be judged reaches the first wind speed threshold value within a specified time interval; and taking the wind speed information to be judged with the wind speed value reaching the first wind speed threshold value as the first wind condition monitoring sub-area correspondingly.

Optionally, the wind condition information monitoring unit 502 is specifically configured to obtain the second sub-region according to the first wind direction information corresponding to the wind condition information of the first sub-region.

Optionally, the wind condition information monitoring apparatus provided in the second embodiment of the present application further includes: and the target action information obtaining unit is used for obtaining target action information which needs to be executed by target engineering equipment in the second wind condition monitoring subarea according to the wind condition information of the second wind condition monitoring subarea.

Optionally, the wind image information monitoring unit 502 is specifically configured to obtain terrain information between the second wind image monitoring sub-area and the first wind image monitoring sub-area; according to the terrain information and first wind speed information and/or first wind direction information corresponding to the wind image information of the first wind image monitoring sub-area, obtaining second wind speed information and/or second wind direction information corresponding to the wind image information of the second wind image monitoring sub-area;

the target action information obtaining unit is specifically configured to obtain the target action information according to the second wind speed information and/or the second wind direction information.

Optionally, the target action information includes one of the following action information:

first target action information for instructing the target engineering equipment to execute a normal action;

second target action information for instructing the target engineering equipment to execute a specified action.

Optionally, the target action information obtaining unit is further configured to obtain risk information existing in the target engineering device according to the second wind speed information and/or the second wind direction information.

Third embodiment

The third embodiment of the present invention also provides an electronic device, corresponding to the embodiments corresponding to the application scenarios of the wind condition information monitoring method provided by the present invention and the wind condition information monitoring method provided by the first embodiment. Since the third embodiment is basically similar to the embodiment corresponding to the application scenario and the first embodiment, the description is relatively simple, and for relevant points, reference may be made to the embodiment corresponding to the application scenario and part of the description of the first embodiment. The third embodiment described below is merely illustrative.

Fig. 6 is a schematic view of an electronic device according to an embodiment of the present invention.

The electronic device includes: a processor 601; and a memory 602 for storing a program of the wind image information monitoring method, wherein the wind image information monitoring method provided in the above-described embodiment of the present invention is executed after the apparatus is powered on and the program of the wind image information monitoring method is executed by the processor.

It should be noted that, for the detailed description of the electronic device provided in the third embodiment of the present invention, reference may be made to the related description of the first embodiment provided in the present invention, and details are not repeated here.

Fourth embodiment

The fourth embodiment of the present invention also provides a storage medium corresponding to the embodiments corresponding to the application scenarios of the wind condition information monitoring method provided by the present invention and the wind condition information monitoring method provided by the first embodiment. Since the fourth embodiment is basically similar to the embodiment corresponding to the application scenario and the first embodiment, the description is relatively simple, and reference may be made to the embodiment corresponding to the application scenario and part of the description of the first embodiment for relevant points. The fourth embodiment described below is merely illustrative.

The storage medium stores a computer program that is executed by a processor to perform the wind condition information monitoring method provided in the first embodiment of the present invention.

It should be noted that, for the detailed description of the storage medium provided in the fourth embodiment of the present invention, reference may be made to the related description of the first method embodiment provided in the present invention, and details are not repeated here.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications derived therefrom are intended to be within the scope of the invention.

Claims (10)

1. A wind condition information monitoring method is characterized by comprising the following steps:

acquiring a first wind condition monitoring sub-area, in which wind condition information in a target wind condition monitoring area meets preset monitoring conditions, wherein the wind condition information at least comprises wind speed information and wind direction information;

and according to the wind image information of the first wind image monitoring sub-region, obtaining a second wind image monitoring sub-region adjacent to the first wind image monitoring sub-region in the target wind image monitoring region, and obtaining the wind image information of the second wind image monitoring sub-region.

2. The method of claim 1, wherein the preset monitoring condition comprises a first wind speed threshold;

the first weather monitoring subarea for acquiring weather information in the target weather monitoring area and meeting the preset monitoring condition comprises:

acquiring wind image information of a monitoring sub-area in the target wind image monitoring area;

acquiring wind speed information corresponding to the wind image information of the monitored sub-area as wind speed information to be judged;

judging whether the wind speed value corresponding to the wind speed information to be judged reaches the first wind speed threshold value within a specified time interval;

and taking the monitoring sub-area corresponding to the wind speed information to be judged, of which the wind speed value reaches the first wind speed threshold value, as the first wind condition monitoring sub-area.

3. The method according to claim 1, wherein the obtaining a second weather monitoring sub-area adjacent to the first weather monitoring sub-area in the target weather monitoring area according to the weather information of the first weather monitoring sub-area comprises: and obtaining the second wind condition monitoring sub-area according to the first wind direction information corresponding to the wind condition information of the first wind condition monitoring sub-area.

4. The method of claim 1, further comprising: and obtaining target action information which needs to be executed by target engineering equipment in the second wind condition monitoring sub-area according to the wind condition information of the second wind condition monitoring sub-area.

5. The method of claim 4, wherein obtaining weather information for the second weather monitoring sub-region comprises:

obtaining topographic information between the second weather monitoring sub-region and the first weather monitoring sub-region;

according to the terrain information and first wind speed information and/or first wind direction information corresponding to the wind image information of the first wind image monitoring sub-area, obtaining second wind speed information and/or second wind direction information corresponding to the wind image information of the second wind image monitoring sub-area;

the obtaining of the target action information to be executed by the target engineering equipment in the second wind condition monitoring sub-area according to the wind condition information of the second wind condition monitoring sub-area comprises: and obtaining the target action information according to the second wind speed information and/or the second wind direction information.

6. The method of claim 5, wherein the target action information comprises one of the following action information:

first target action information for instructing the target engineering equipment to execute a normal action;

second target action information for instructing the target engineering equipment to execute a specified action.

7. The method of claim 5, further comprising: and obtaining risk information existing in the target engineering equipment according to the second wind speed information and/or the second wind direction information.

8. A wind condition information monitoring device, comprising:

the first wind condition monitoring subarea obtaining unit is used for obtaining a first wind condition monitoring subarea of which wind condition information in a target wind condition monitoring area meets preset monitoring conditions, and the wind condition information at least comprises wind speed information and wind direction information;

and the wind image information monitoring unit is used for acquiring a second wind image monitoring sub-area adjacent to the first wind image monitoring sub-area in the target wind image monitoring area according to the wind image information of the first wind image monitoring sub-area and acquiring the wind image information of the second wind image monitoring sub-area.

9. An electronic device, comprising:

a processor; and

a memory for storing a program of a method, the device performing the method of any one of claims 1-7 when powered on and the program of the method is executed by the processor.

10. A storage medium, characterized in that the storage medium stores a computer program which is run by a processor for performing the method of any one of claims 1-7.

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