CN117557043A - Visualized flood prevention scheduling monitoring management method and system for hydropower plant group - Google Patents
Visualized flood prevention scheduling monitoring management method and system for hydropower plant group Download PDFInfo
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Abstract
The invention provides a hydropower plant group flood prevention visual dispatching monitoring management method and a system, wherein the method comprises the following steps: building a flood prevention visual model of the hydropower plant group; displaying the flood prevention visual model to a user; the user can schedule and monitor the hydropower plant group based on the flood prevention visual model. According to the hydropower plant group flood control visual scheduling monitoring management method and system, the flood control visual model of the hydropower plant group is built, the flood control visual model is displayed to a user, the user can schedule and monitor the hydropower plant group based on the flood control visual model, management staff does not need to go to the site in the hydropower plant group to conduct flood control scheduling and monitoring, convenience is improved, management staff can intuitively conduct flood control treatment on the hydropower plant group from the global angle, and management efficiency and management comprehensiveness of the management staff are improved.
Description
Technical Field
The invention relates to the technical field of flood control of hydropower plants, in particular to a hydropower plant group flood control visual scheduling monitoring management method and system.
Background
In order to ensure the power generation stability of the hydropower plant group when the basin where the hydropower plant group is located enters the flood season and the safety of the dam, the hydropower plant group needs to be subjected to flood prevention treatment. Generally, when a hydropower plant group performs flood control handling, management personnel are required to perform real-time scheduling and monitoring, but the management personnel need to go to the site in the hydropower plant group to perform scheduling and monitoring, which is complex and has low convenience. In addition, the method for managing staff to intuitively perform flood prevention treatment on hydropower plants from the global angle is lacking, so that the management efficiency and the management comprehensiveness of the managing staff are low. Accordingly, there is a need for a solution that addresses at least some of the deficiencies in the prior art.
Disclosure of Invention
The invention provides a hydropower plant group flood control visual dispatching monitoring management method and system, which are used for constructing a hydropower plant group flood control visual model, displaying the flood control visual model to a user, enabling the user to dispatch and monitor the hydropower plant group based on the flood control visual model, enabling a manager to not need to go to a site in the hydropower plant group for flood control dispatching and monitoring, improving convenience, enabling the manager to intuitively conduct flood control treatment on the hydropower plant group from a global angle, and improving management efficiency and management comprehensiveness of the manager.
The invention provides a hydropower plant group flood prevention visual dispatching monitoring management method, which comprises the following steps:
building a flood prevention visual model of the hydropower plant group;
displaying the flood prevention visual model to a user;
the user can schedule and monitor the hydropower plant group based on the flood prevention visual model.
Preferably, a flood control visual model of the hydropower plant group is built, which comprises:
acquiring flood control dynamic information of a hydropower plant group;
based on flood control dynamic information, a preset building three-dimensional model corresponding to the hydropower plant group is built;
and carrying out holographic configuration on the three-dimensional building model based on the flood control dynamic information to obtain a flood control visual model.
Preferably, obtaining flood control dynamic information of a hydropower plant group includes:
acquiring a plurality of preset information sources corresponding to a hydropower plant group;
acquiring the source type of an information source and a corresponding preset information acquisition template; the source types include: personnel and equipment;
when the source type is personnel, determining whether the information source accords with a first trigger condition;
when the information is matched, acquiring first dynamic information of an information source based on the information acquisition template, and taking the first dynamic information as flood control dynamic information;
when the source type is equipment, determining whether the information source accords with a second trigger condition;
when the information is matched with the information, acquiring second dynamic information of the information source based on the acquisition template, and taking the second dynamic information as flood control dynamic information;
wherein the first trigger condition includes:
the track length of a part of tracks of the moving tracks generated in the first time which is recently preset by the information source and falls into a target area in the hydropower plant group is greater than or equal to a preset length threshold; the target area includes: presetting a plurality of key areas, a preset first responsibility area corresponding to an information source and a preset second responsibility area corresponding to an associated information source of the information source;
uncooled tasks corresponding to information sources exist in a preset task issuing library;
the continuous occurrence time length of the information source in the building three-dimensional model is greater than or equal to a preset time length threshold;
wherein the second trigger condition comprises:
the information sources exist in a preset key information source library;
the preset key event library contains key events related to information sources.
Preferably, the visualized flood prevention scheduling monitoring management method for the hydropower plant group further comprises the following steps:
when a user invites at least one expert to conduct collaborative monitoring, a flood prevention visual model is displayed to the expert;
acquiring a person behavior sequence generated in a second time recently preset by a user and expert personnel;
determining a collaboration area based on the person behavior sequence;
displaying preset first prompt information to users and expert personnel;
waiting for a preset first duration, and displaying a local area model of the collaboration area in the visual model to a user and expert personnel;
extracting scheduling object information in the local area model;
generating a scheduling toolbar based on the scheduling object information;
waiting for a preset second time length, and displaying a dispatching toolbar to a user and expert personnel;
receiving and responding to a scheduling instruction input by a user and expert personnel based on a scheduling toolbar;
wherein determining a collaboration area based on the sequence of person behaviors includes:
determining whether a standard behavior sequence in a preset standard behavior sequence library exists in the personnel behavior sequence;
when the standard behavior sequence exists, taking the standard behavior sequence existing in the personnel behavior sequence as a target standard behavior sequence;
acquiring a preset cooperation area determining rule corresponding to a target standard behavior sequence;
and determining the cooperation area according to the target standard behavior sequence based on the cooperation area determination rule.
Preferably, the visualized flood prevention scheduling monitoring management method for the hydropower plant group further comprises the following steps:
monitoring a request to check an external source of the flood control visual model;
carrying out identity verification on an external source;
and when the verification is passed, allowing an external source to view the flood control visual model.
The invention provides a visualized flood prevention scheduling monitoring management system for a hydropower plant group, which comprises the following components:
the flood control visual model building module is used for building a flood control visual model of a hydropower plant group;
the display module is used for displaying the flood control visual model to a user;
and the service module is used for a user to schedule and monitor the hydropower plant group based on the flood control visual model.
Preferably, the flood control visual model building module builds a flood control visual model of the hydropower plant group, including:
acquiring flood control dynamic information of a hydropower plant group;
based on flood control dynamic information, a preset building three-dimensional model corresponding to the hydropower plant group is built;
and carrying out holographic configuration on the three-dimensional building model based on the flood control dynamic information to obtain a flood control visual model.
Preferably, the flood control visual model building module obtains flood control dynamic information of the hydropower plant group, including:
acquiring a plurality of preset information sources corresponding to a hydropower plant group;
acquiring the source type of an information source and a corresponding preset information acquisition template; the source types include: personnel and equipment;
when the source type is personnel, determining whether the information source accords with a first trigger condition;
when the information is matched, acquiring first dynamic information of an information source based on the information acquisition template, and taking the first dynamic information as flood control dynamic information;
when the source type is equipment, determining whether the information source accords with a second trigger condition;
when the information is matched with the information, acquiring second dynamic information of the information source based on the acquisition template, and taking the second dynamic information as flood control dynamic information;
wherein the first trigger condition includes:
the track length of a part of tracks of the moving tracks generated in the first time which is recently preset by the information source and falls into a target area in the hydropower plant group is greater than or equal to a preset length threshold; the target area includes: presetting a plurality of key areas, a preset first responsibility area corresponding to an information source and a preset second responsibility area corresponding to an associated information source of the information source;
uncooled tasks corresponding to information sources exist in a preset task issuing library;
the continuous occurrence time length of the information source in the building three-dimensional model is greater than or equal to a preset time length threshold;
wherein the second trigger condition comprises:
the information sources exist in a preset key information source library;
the preset key event library contains key events related to information sources.
Preferably, the visualized flood prevention scheduling monitoring management system for the hydropower plant group further comprises:
an auxiliary module for including:
when a user invites at least one expert to conduct collaborative monitoring, a flood prevention visual model is displayed to the expert;
acquiring a person behavior sequence generated in a second time recently preset by a user and expert personnel;
determining a collaboration area based on the person behavior sequence;
displaying preset first prompt information to users and expert personnel;
waiting for a preset first duration, and displaying a local area model of the collaboration area in the visual model to a user and expert personnel;
extracting scheduling object information in the local area model;
generating a scheduling toolbar based on the scheduling object information;
waiting for a preset second time length, and displaying a dispatching toolbar to a user and expert personnel;
receiving and responding to a scheduling instruction input by a user and expert personnel based on a scheduling toolbar;
wherein determining a collaboration area based on the sequence of person behaviors includes:
determining whether a standard behavior sequence in a preset standard behavior sequence library exists in the personnel behavior sequence;
when the standard behavior sequence exists, taking the standard behavior sequence existing in the personnel behavior sequence as a target standard behavior sequence;
acquiring a preset cooperation area determining rule corresponding to a target standard behavior sequence;
and determining the cooperation area according to the target standard behavior sequence based on the cooperation area determination rule.
Preferably, the visualized flood prevention scheduling monitoring management system for the hydropower plant group further comprises:
an external module for including:
monitoring a request to check an external source of the flood control visual model;
carrying out identity verification on an external source;
and when the verification is passed, allowing an external source to view the flood control visual model.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.
The technical scheme of the invention is further described in detail through the drawings and the embodiments.
Drawings
The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:
FIG. 1 is a flow chart of a method for visualized flood prevention scheduling, monitoring and management of a hydropower plant group in an embodiment of the invention;
fig. 2 is a schematic diagram of a visual flood prevention scheduling monitoring management system for a hydropower plant group in an embodiment of the invention.
Detailed Description
The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.
The invention provides a visualized flood prevention scheduling monitoring management method for a hydropower plant group, which is shown in fig. 1 and comprises the following steps:
step S1: building a flood prevention visual model of the hydropower plant group;
step S2: displaying the flood prevention visual model to a user;
step S3: the user can schedule and monitor the hydropower plant group based on the flood prevention visual model.
Building a flood prevention visual model of a hydropower plant group, comprising:
acquiring flood control dynamic information of a hydropower plant group; wherein, flood control dynamic information includes: the positions of flood control personnel in the hydropower plant group, the residual capacity of a flood control reservoir of the hydropower plant group, the water level of a dam and the like;
based on flood control dynamic information, a preset building three-dimensional model corresponding to the hydropower plant group is built; the building three-dimensional model is a three-dimensional model of a 1:1 hydropower plant group, and can be built in advance based on BIM, GIS technology and the like;
and carrying out holographic configuration on the three-dimensional building model based on the flood control dynamic information to obtain a flood control visual model. The holographic configuration refers to representing flood control dynamic information in a three-dimensional model of a building.
The utility model builds the visualized flood control model of hydroelectric power plant group, shows visualized flood control model to the user, supplies the user to schedule the visualized flood control model to monitor hydroelectric power plant group, and the managers need not to go to the scene in the hydroelectric power plant group and carry out flood control dispatch, monitor, has promoted the convenience, can also realize supplying the managers to handle the flood control to hydroelectric power plant group from global angle directly perceivedly, has promoted managers' management efficiency, management comprehensiveness.
In one embodiment, obtaining flood control dynamic information for a hydropower plant group includes:
acquiring a plurality of preset information sources corresponding to a hydropower plant group;
acquiring the source type of an information source and a corresponding preset information acquisition template; the source types include: personnel and equipment;
when the source type is personnel, determining whether the information source accords with a first trigger condition;
when the information is matched, acquiring first dynamic information of an information source based on the information acquisition template, and taking the first dynamic information as flood control dynamic information;
when the source type is equipment, determining whether the information source accords with a second trigger condition;
when the information is matched with the information, acquiring second dynamic information of the information source based on the acquisition template, and taking the second dynamic information as flood control dynamic information;
in the technical scheme, the information sources are sources of flood control dynamic information, the source types of the information sources are divided into personnel and equipment, and the information acquisition templates are templates for the system to acquire the flood control dynamic information of the information sources in contrast; when the source type is personnel, the information source is flood prevention personnel in the hydropower plant group, and the information acquisition template can be, for example: acquiring the position, responsible area, responsibility, position and the like of flood prevention personnel; when the source type is equipment, the information source is equipment in a hydropower plant group, etc., and the information acquisition template may be, for example: acquiring the running temperature, capacity and the like of equipment; when the information source accords with the first trigger condition/accords with the second trigger condition, the first dynamic information/the second dynamic information of the information source is required to be acquired and is used as flood control dynamic information to be expressed in the building three-dimensional model, namely, management staff is required to check;
wherein the first trigger condition includes:
the track length of a part of tracks of the moving tracks generated in the first time which is recently preset by the information source and falls into a target area in the hydropower plant group is greater than or equal to a preset length threshold; the target area includes: presetting a plurality of key areas, a preset first responsibility area corresponding to an information source and a preset second responsibility area corresponding to an associated information source of the information source; the first time may be, for example: 10 minutes; the length threshold may be, for example: 30 meters; the key areas are important areas for flood control in the hydropower plant group, such as: flood control reservoir control centers and the like; the first responsibility area is a responsible area of information sources in the hydropower plant group; the associated information sources are other field personnel in the hydropower plant group, and an associated relation exists between the associated information sources, and the associated relation can be, for example: both just completing the call, belonging to the same department, etc.; by setting the first triggering condition, when the information source stays in the target area for a long time, the flood control dynamic information of the information source can appear in the flood control visual model, so that the rationality of the system is improved;
uncooled tasks corresponding to information sources exist in a preset task issuing library; the uncooled task is a task which is issued to the information source but the information source is not executed; when uncooled tasks exist, flood control dynamic information of information sources needs to appear in a flood control visual model, so that the first trigger condition is set, and the rationality of the system is improved;
the continuous occurrence time length of the information source in the building three-dimensional model is greater than or equal to a preset time length threshold; the duration threshold may be, for example: 10 minutes; the duration of continuous occurrence is the duration of continuous occurrence of flood control dynamic information of historical information sources in a flood control visual model; when the duration time is greater than or equal to the duration threshold value, the flood control dynamic information of the information source in history is indicated to appear in the flood control visual model for a long time, and then the new flood control dynamic information of the information source is kept to appear in the flood control visual model, so that the information display error interruption caused by direct absence is avoided, and the rationality of the system is improved;
wherein the second trigger condition comprises:
the information sources exist in a preset key information source library; when information sources exist in a key information source library, it is important to indicate information sources for flood control, such as: the information sources are flood discharge valves and the like;
the preset key event library contains key events related to information sources. The key event is the progress event of hydropower plant group flood prevention, such as: and (3) an event for adjusting the flood discharge valve, wherein the information source related to the key event is the flood discharge valve.
In the above technical solution, in general, when a visual model of a site is built, all information of the site is represented in the visual model, and at this time, the problems of overlapping of contents, incomplete display, excessive occupation of display resources and the like caused by excessive information in the visual model can be caused. The embodiment of the invention introduces the first trigger condition and the second trigger condition, selectively selects information to be represented in the visual model, solves the problems, and has particular applicability.
In one embodiment, the visualized flood prevention scheduling monitoring management method for the hydropower plant group further comprises the following steps:
when a user invites at least one expert to conduct collaborative monitoring, a flood prevention visual model is displayed to the expert; wherein, expert personnel can be professional in hydropower plant group flood prevention personnel; when the user invites expert personnel to conduct collaborative monitoring, the flood control visual model is displayed to the expert personnel, and the user and the expert personnel check the flood control visual model together to know the scene situation of the hydropower plant group; the user and expert personnel can also carry out online dialogue;
acquiring a person behavior sequence generated in a second time recently preset by a user and expert personnel; the second time may be, for example: 5 minutes; the personnel behavior sequence comprises personnel behaviors which are sequenced according to the sequence of the behaviors, wherein the personnel behaviors can be dialogue contents of users and expert personnel, operation behaviors performed on a flood control visual model and the like;
determining a collaboration area based on the person behavior sequence; the collaboration area is an area where users and expert personnel want to conduct command and dispatch;
displaying preset first prompt information to users and expert personnel; the first prompt information is used for prompting a user and expert personnel to conduct collaborative command scheduling on a collaborative area, for example: 'the cooperative area appears, please wait for screen throwing, cooperate together to command and dispatch';
waiting for a preset first duration, and displaying a local area model of the collaboration area in the visual model to a user and expert personnel; the first duration may be, for example: 300 seconds; the first time is reserved, so that the user and expert personnel can finish the transaction at hand, and humanization is improved;
extracting scheduling object information in the local area model; the scheduling object information includes: the location, name, etc. of the schedulable person;
generating a scheduling toolbar based on the scheduling object information; there are multiple scheduling tools in the scheduling toolbar, such as: means for scheduling which schedulable person to perform which scheduling;
waiting for a preset second time length, and displaying a dispatching toolbar to a user and expert personnel; the second duration may be, for example: 1000 seconds; the second time is reserved for users and expert personnel to think, discuss and the like, so that humanization is further improved; displaying a dispatching toolbar to users and expert personnel, so that the users and the expert personnel can conveniently and quickly input dispatching instructions based on the dispatching toolbar;
receiving and responding to a scheduling instruction input by a user and expert personnel based on a scheduling toolbar; responding to the scheduling instruction, namely executing;
wherein determining a collaboration area based on the sequence of person behaviors includes:
determining whether a standard behavior sequence in a preset standard behavior sequence library exists in the personnel behavior sequence;
when the standard behavior sequence exists, taking the standard behavior sequence existing in the personnel behavior sequence as a target standard behavior sequence;
acquiring a preset cooperation area determining rule corresponding to a target standard behavior sequence;
and determining the cooperation area according to the target standard behavior sequence based on the cooperation area determination rule.
In the above technical solution, when a standard behavior sequence exists, the representative user and expert personnel want to conduct command and dispatch on the same area in the hydropower plant group, and the rule for determining the collaboration area is a rule for determining the collaboration area according to the target standard behavior sequence, for example: the standard behavior sequence is that a user views an area A in the flood control visual model, expert staff drags the flood control visual model to go to the area A, the user indicates that the expert staff views the area A as soon as possible, and if command scheduling is required to be carried out on the area A, the cooperation area determining rule is that the area A which is being viewed by the user is used as a cooperation area.
And the cooperation area is rapidly determined, so that the intellectualization is improved, and the efficiency of cooperation scheduling monitoring of users and expert personnel is greatly improved.
In one embodiment, the visualized flood prevention scheduling monitoring management method for the hydropower plant group further comprises the following steps:
monitoring a request to check an external source of the flood control visual model; the external sources can be national government departments, news platforms and the like;
carrying out identity verification on an external source;
and when the verification is passed, allowing an external source to view the flood control visual model.
The invention provides a visualized flood prevention dispatching monitoring management system for a hydropower plant group, which is shown in fig. 2 and comprises the following components:
the flood control visual model building module 1 is used for building a flood control visual model of a hydropower plant group;
the display module 2 is used for displaying the flood control visual model to a user;
and the service module 3 is used for a user to schedule and monitor the hydropower plant group based on the flood control visual model.
The flood control visual model building module 1 builds a flood control visual model of a hydropower plant group, and comprises the following components:
acquiring flood control dynamic information of a hydropower plant group;
based on flood control dynamic information, a preset building three-dimensional model corresponding to the hydropower plant group is built;
and carrying out holographic configuration on the three-dimensional building model based on the flood control dynamic information to obtain a flood control visual model.
The flood control visual model construction module 1 acquires flood control dynamic information of a hydropower plant group, and comprises the following steps:
acquiring a plurality of preset information sources corresponding to a hydropower plant group;
acquiring the source type of an information source and a corresponding preset information acquisition template; the source types include: personnel and equipment;
when the source type is personnel, determining whether the information source accords with a first trigger condition;
when the information is matched, acquiring first dynamic information of an information source based on the information acquisition template, and taking the first dynamic information as flood control dynamic information;
when the source type is equipment, determining whether the information source accords with a second trigger condition;
when the information is matched with the information, acquiring second dynamic information of the information source based on the acquisition template, and taking the second dynamic information as flood control dynamic information;
wherein the first trigger condition includes:
the track length of a part of tracks of the moving tracks generated in the first time which is recently preset by the information source and falls into a target area in the hydropower plant group is greater than or equal to a preset length threshold; the target area includes: presetting a plurality of key areas, a preset first responsibility area corresponding to an information source and a preset second responsibility area corresponding to an associated information source of the information source;
uncooled tasks corresponding to information sources exist in a preset task issuing library;
the continuous occurrence time length of the information source in the building three-dimensional model is greater than or equal to a preset time length threshold;
wherein the second trigger condition comprises:
the information sources exist in a preset key information source library;
the preset key event library contains key events related to information sources.
Hydropower plant crowd flood control visual dispatch monitoring management system still includes:
an auxiliary module for including:
when a user invites at least one expert to conduct collaborative monitoring, a flood prevention visual model is displayed to the expert;
acquiring a person behavior sequence generated in a second time recently preset by a user and expert personnel;
determining a collaboration area based on the person behavior sequence;
displaying preset first prompt information to users and expert personnel;
waiting for a preset first duration, and displaying a local area model of the collaboration area in the visual model to a user and expert personnel;
extracting scheduling object information in the local area model;
generating a scheduling toolbar based on the scheduling object information;
waiting for a preset second time length, and displaying a dispatching toolbar to a user and expert personnel;
receiving and responding to a scheduling instruction input by a user and expert personnel based on a scheduling toolbar;
wherein determining a collaboration area based on the sequence of person behaviors includes:
determining whether a standard behavior sequence in a preset standard behavior sequence library exists in the personnel behavior sequence;
when the standard behavior sequence exists, taking the standard behavior sequence existing in the personnel behavior sequence as a target standard behavior sequence;
acquiring a preset cooperation area determining rule corresponding to a target standard behavior sequence;
and determining the cooperation area according to the target standard behavior sequence based on the cooperation area determination rule.
Hydropower plant crowd flood control visual dispatch monitoring management system still includes:
an external module for including:
monitoring a request to check an external source of the flood control visual model;
carrying out identity verification on an external source;
and when the verification is passed, allowing an external source to view the flood control visual model.
It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
Claims (10)
1. A visualized flood prevention scheduling monitoring management method for a hydropower plant group is characterized by comprising the following steps:
building a flood prevention visual model of the hydropower plant group;
displaying the flood control visual model to a user;
and the user performs scheduling monitoring on the hydropower plant group based on the flood control visual model.
2. The method for monitoring and managing flood control visualization of a hydropower plant group according to claim 1, wherein the constructing the flood control visualization model of the hydropower plant group comprises:
acquiring flood control dynamic information of the hydropower plant group;
based on the flood control dynamic information, a preset building three-dimensional model corresponding to the hydropower plant group is obtained;
and carrying out holographic configuration on the building three-dimensional model based on the flood control dynamic information to obtain the flood control visual model.
3. The method for visualized flood control scheduling and monitoring management of a hydropower plant group according to claim 2, wherein the step of obtaining flood control dynamic information of the hydropower plant group comprises the steps of:
acquiring a plurality of preset information sources corresponding to the hydropower plant group;
acquiring the source type of the information source and a corresponding preset information acquisition template; the source types include: personnel and equipment;
when the source type is the person, determining whether the information source meets a first trigger condition;
when the information is matched, acquiring a first dynamic information of the information source based on the information acquisition template, and taking the first dynamic information as the flood control dynamic information;
when the source type is the equipment, determining whether the information source meets a second trigger condition;
when the information is accordant, based on the acquisition template, acquiring second dynamic information of the information source and taking the second dynamic information as the flood control dynamic information;
wherein the first triggering condition includes:
the track length of a part of tracks of the moving tracks generated in the first time which is recently preset by the information source and falls into the target area in the hydropower plant group is greater than or equal to a preset length threshold; the target area includes: presetting a plurality of key areas, a preset first responsibility area corresponding to the information source and a preset second responsibility area corresponding to the associated information source of the information source;
the uncooled tasks corresponding to the information sources exist in a preset task issuing library;
the duration time of the information source in the building three-dimensional model is greater than or equal to a preset duration threshold;
wherein the second triggering condition includes:
the information sources exist in a preset key information source library;
and the preset key event library contains key events related to the information sources.
4. The hydropower plant group flood control visual dispatch monitoring management method of claim 1, further comprising:
when a user invites at least one expert to conduct collaborative monitoring, displaying the flood control visual model to the expert;
acquiring a personnel behavior sequence generated in a second time which is recently preset by a user and expert personnel;
determining a collaboration area based on the person behavior sequence;
displaying preset first prompt information to a user and expert personnel;
waiting for a preset first duration, and displaying a local area model of the collaboration area in the visual model to a user and the expert personnel;
extracting scheduling object information in the local area model;
generating a scheduling toolbar based on the scheduling object information;
waiting for a preset second time length, and displaying the dispatching toolbar to a user and the expert personnel;
receiving and responding to a scheduling instruction input by a user and the expert personnel based on the scheduling toolbar;
wherein the determining a collaboration area based on the person behavior sequence includes:
determining whether a standard behavior sequence in a preset standard behavior sequence library exists in the personnel behavior sequence;
when the standard behavior sequence exists, the standard behavior sequence existing in the personnel behavior sequence is used as a target standard behavior sequence;
acquiring a preset cooperation area determining rule corresponding to the target standard behavior sequence;
and determining the cooperation area according to the target standard behavior sequence based on the cooperation area determination rule.
5. The hydropower plant group flood control visual dispatch monitoring management method of claim 1, further comprising:
monitoring a request to check an external source of the flood control visual model;
performing identity verification on the external source;
and when the verification is passed, allowing the external source to view the flood control visual model.
6. A visualized flood prevention scheduling monitoring management system for a hydropower plant group is characterized by comprising:
the flood control visual model building module is used for building a flood control visual model of a hydropower plant group;
the display module is used for displaying the flood control visual model to a user;
and the service module is used for enabling the user to schedule and monitor the hydropower plant group based on the flood prevention visual model.
7. The hydropower plant group flood control visual dispatch monitoring management system of claim 6, wherein the flood control visual model building module builds a flood control visual model of the hydropower plant group, comprising:
acquiring flood control dynamic information of the hydropower plant group;
based on the flood control dynamic information, a preset building three-dimensional model corresponding to the hydropower plant group is obtained;
and carrying out holographic configuration on the building three-dimensional model based on the flood control dynamic information to obtain the flood control visual model.
8. The hydropower plant group flood control visual scheduling monitoring management system of claim 7, wherein the flood control visual model building module obtains flood control dynamic information of the hydropower plant group, and the flood control visual scheduling monitoring management system comprises:
acquiring a plurality of preset information sources corresponding to the hydropower plant group;
acquiring the source type of the information source and a corresponding preset information acquisition template; the source types include: personnel and equipment;
when the source type is the person, determining whether the information source meets a first trigger condition;
when the information is matched, acquiring a first dynamic information of the information source based on the information acquisition template, and taking the first dynamic information as the flood control dynamic information;
when the source type is the equipment, determining whether the information source meets a second trigger condition;
when the information is accordant, based on the acquisition template, acquiring second dynamic information of the information source and taking the second dynamic information as the flood control dynamic information;
wherein the first triggering condition includes:
the track length of a part of tracks of the moving tracks generated in the first time which is recently preset by the information source and falls into the target area in the hydropower plant group is greater than or equal to a preset length threshold; the target area includes: presetting a plurality of key areas, a preset first responsibility area corresponding to the information source and a preset second responsibility area corresponding to the associated information source of the information source;
the uncooled tasks corresponding to the information sources exist in a preset task issuing library;
the duration time of the information source in the building three-dimensional model is greater than or equal to a preset duration threshold;
wherein the second triggering condition includes:
the information sources exist in a preset key information source library;
and the preset key event library contains key events related to the information sources.
9. The hydropower plant group flood control visual dispatch monitoring management system of claim 6, further comprising:
an auxiliary module for including:
when a user invites at least one expert to conduct collaborative monitoring, displaying the flood control visual model to the expert;
acquiring a personnel behavior sequence generated in a second time which is recently preset by a user and expert personnel;
determining a collaboration area based on the person behavior sequence;
displaying preset first prompt information to a user and expert personnel;
waiting for a preset first duration, and displaying a local area model of the collaboration area in the visual model to a user and the expert personnel;
extracting scheduling object information in the local area model;
generating a scheduling toolbar based on the scheduling object information;
waiting for a preset second time length, and displaying the dispatching toolbar to a user and the expert personnel;
receiving and responding to a scheduling instruction input by a user and the expert personnel based on the scheduling toolbar;
wherein the determining a collaboration area based on the person behavior sequence includes:
determining whether a standard behavior sequence in a preset standard behavior sequence library exists in the personnel behavior sequence;
when the standard behavior sequence exists, the standard behavior sequence existing in the personnel behavior sequence is used as a target standard behavior sequence;
acquiring a preset cooperation area determining rule corresponding to the target standard behavior sequence;
and determining the cooperation area according to the target standard behavior sequence based on the cooperation area determination rule.
10. The hydropower plant group flood control visual dispatch monitoring management system of claim 6, further comprising:
an external module for including:
monitoring a request to check an external source of the flood control visual model;
performing identity verification on the external source;
and when the verification is passed, allowing the external source to view the flood control visual model.
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