CN112785046A - Multisource hydraulic engineering image information system - Google Patents
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Abstract
The invention discloses a multi-source hydraulic engineering image information system, which comprises: the hydraulic engineering image data acquisition module is used for acquiring image information of different states of each hydraulic engineering; the hydraulic engineering terrain model building module is connected with the hydraulic engineering image data acquisition module and used for building a plurality of prediction evaluation models; the hydraulic engineering terrain estimation module is connected with the hydraulic engineering terrain model construction module and used for carrying out prediction estimation on the plurality of prediction estimation models and screening out the prediction estimation models with optimal hydraulic engineering terrain data information as optimal information; the hydraulic engineering image information management module is connected with the hydraulic engineering terrain estimation module and used for managing hydraulic engineering image information; and the server is connected with the hydraulic engineering image information management module and used for transmitting the stored optimal information and the prediction evaluation model to the server. The method can effectively improve the accuracy of image data acquisition and realize the management and query of the image information of the hydraulic engineering in different states.
Description
Technical Field
The invention relates to the technical field of hydraulic engineering management, in particular to a multi-source hydraulic engineering image information system.
Background
With the development of society, China builds a large number of hydraulic engineering which plays an important role in flood control, waterlogging removal, irrigation, power generation and the like. However, the corresponding image information records of the hydraulic engineering are extremely lacking, and the information records are not carried out on the engineering overall situation, the four-season environment characteristics, and many established and built projects. Along with the change of the basin environment and the management mode, the operation characteristics and the state of the hydraulic engineering change, and especially the information at the initial operation stage is difficult to acquire, so that the general mastery of engineering buildings, the basin environment and the like is lacked, and the situation of being passive can be possibly caused during the operation management of the hydraulic engineering.
The invention patent CN104268939A of retrieval China proposes that a three-dimensional panoramic technology is applied to the virtual reality of a transformer substation, so that a worker can be visually and clearly familiar with the equipment distribution and performance state of the current transformer substation area. However, the management of a single state of a single transformer substation is only realized, different states of the transformer substation are not displayed, and the adopted acquisition technology is single.
The invention patent CN105718650A of retrieval China proposes that the three-dimensional panoramic technology is applied to the record filing of the hidden project, but the adopted acquisition technology is single, a special information management system is not established, and the data management is not easy.
The patent CN107248022A of the invention discloses a multi-source hydraulic engineering image information system, which comprises a hydraulic engineering image data acquisition module, a hydraulic engineering image three-dimensional panoramic roaming production module and a hydraulic engineering image information management module. The hydraulic engineering image data acquisition module acquires image information of different states of a hydraulic engineering site; the hydraulic engineering image three-dimensional panoramic roaming manufacturing module is used for processing the acquired hydraulic engineering image information and manufacturing a three-dimensional panoramic roaming system; the hydraulic engineering image information management module is used for managing and inquiring hydraulic engineering image data. The method comprises the steps of collecting image information of different states of a hydraulic engineering site in multiple modes, processing and combining the obtained image information to manufacture a three-dimensional panoramic roaming system, and establishing an image information management system. The operating conditions of the hydraulic engineering under different states are remotely mastered, and the management efficiency of the hydraulic engineering is improved.
However, the multi-source image information system for the hydraulic engineering is not reasonable enough in design, and is inconvenient to predict the acquisition accuracy by relying on the existing large data resources, so that the acquisition scheme is easy to cause inapplicable situation when being acquired on site, and therefore a multi-source image information system for the hydraulic engineering is urgently needed.
An effective solution to the problems in the related art has not been proposed yet.
Disclosure of Invention
The invention aims to provide a multi-source hydraulic engineering image information system which can overcome the technical problems in the prior related art.
In order to achieve the purpose, the technical scheme of the invention is as follows: a multi-source hydraulic engineering image information system comprises:
the hydraulic engineering image data acquisition module is used for acquiring image information of different states of a hydraulic engineering site in a region to be acquired based on internet data;
the hydraulic engineering terrain model building module is connected with the hydraulic engineering image data acquisition module, takes the acquired hydraulic engineering image information as parameter information, and builds a plurality of prediction evaluation models of a region to be acquired in each hydraulic engineering field state;
the hydraulic engineering terrain estimation module is connected with the hydraulic engineering terrain model construction module, carries out prediction estimation on each prediction estimation model in each hydraulic engineering field state, and screens out the prediction estimation model with optimal hydraulic engineering terrain data information as the optimal information in the state;
the hydraulic engineering image information management module is connected with the hydraulic engineering terrain estimation module and used for managing the optimal information in each state and estimating the terrain information of the region to be detected according to the optimal information in each state;
and the server is connected with the hydraulic engineering image information management module, and is used for transmitting the stored optimal information and the constructed project prediction evaluation model to the server as target hydraulic engineering regional source data information, and the server monitors the target hydraulic engineering regional source data information.
The hydraulic engineering image data acquisition module acquires image information of hydraulic engineering sites of regions to be acquired based on internet data, wherein the image information comprises the following different states: plain photos, panoramic photos, and video data.
Wherein, the different states in hydraulic engineering scene of the region of waiting to gather contain: the area, shape, height, depth, tide rule, wind power and wind direction of the region to be collected.
When the hydraulic engineering image information of the region to be acquired is missing, the hydraulic engineering image data acquisition module selects and collects data of places near the hydraulic engineering, and the adjacent image information is used for supplementing the missing data.
The image information of the place near the hydraulic engineering is the image information of the place which is closest to the region to be collected within the range of 5km of the square circle of the region to be collected; and when no influence information which can be acquired exists within the range of 5km of the region square circle to be acquired, the image information of the places near the hydraulic engineering is the image information of a plurality of places within the range of 10km of the region square circle to be acquired.
Wherein, hydraulic engineering image information management module contains: the information reading unit is used for reading the optimal information obtained by the hydraulic engineering terrain estimation module; the storage unit is connected with the information reading unit and used for storing the acquired optimal information; and the presentation unit is connected with the storage unit and is used for carrying out human-computer interaction presentation on the optimal information and realizing the preview, query, editing and permission distribution on the hydraulic engineering site information of the collected region.
Wherein the memory cell comprises: the first storage area is used for storing a plurality of prediction evaluation models under the field state of each hydraulic engineering; and a second storage area for storing the optimum information.
The server side comprises: and the login detection unit is used for receiving a login request of the user account input by the user and verifying and identifying the user account sent by the login detection unit.
Furthermore, the hydraulic engineering image information management module and the server are respectively connected with the wireless communication module.
Specifically, the wireless communication module includes: any one or combination of any several of 5G communication module, 4G communication module, bluetooth module, wiFi module, GSM module, Zigbee module and loRa module.
Compared with the prior art, the invention has the following remarkable advantages and effects: the multi-source hydraulic engineering image information system provided by the invention can effectively estimate the topographic information of the region to be measured and effectively improve the image data acquisition accuracy, and the established image information management system realizes the management and query of the image information of the hydraulic engineering in different states so as to master the operation conditions of the hydraulic engineering in different states, thereby improving the efficiency of the hydraulic engineering management.
Drawings
Fig. 1 is a schematic block diagram of the present invention.
Detailed Description
The technical contents, the structural features, the achieved objects and the effects of the present invention are described in detail below with reference to the accompanying drawings.
The invention provides a multi-source hydraulic engineering image information system, as shown in fig. 1, comprising: the hydraulic engineering image data acquisition module 1 is used for acquiring image information of different states of a hydraulic engineering site in a region to be acquired based on internet data; the hydraulic engineering terrain model building module 2 is connected with the hydraulic engineering image data acquisition module 1, takes the acquired hydraulic engineering image information as parameter information, and builds a prediction evaluation model of a region to be acquired in the field state of each hydraulic engineering; the hydraulic engineering terrain estimation module 3 is connected with the hydraulic engineering terrain model construction module 2, carries out prediction estimation on each prediction estimation model in each hydraulic engineering field state, and screens out the prediction estimation model with optimal hydraulic engineering terrain data information as the optimal information in the state; the hydraulic engineering image information management module 4 is connected with the hydraulic engineering terrain estimation module 3 and is used for managing the optimal information in each state and estimating the terrain information of the region to be detected according to the optimal information in each state; and the server 5 is connected with the hydraulic engineering image information management module 4 and used for transmitting the stored optimal information to the server as target hydraulic engineering regional source data information, and the server 5 carries out data monitoring on the target hydraulic engineering regional source data information.
Specifically, each hydraulic engineering image information acquired by the hydraulic engineering image data acquisition module 1 based on the internet data contains common photos, panoramic photos and video data of different states of the hydraulic engineering site in the region to be acquired.
Wherein, the different states in hydraulic engineering scene of the region of waiting to gather contain: the area, shape, height, depth, tide rule, wind power, wind direction, image information and video information of the region to be collected.
Inevitably, the hydraulic engineering image information of the region to be acquired may have a certain loss, and at this time, the hydraulic engineering image data acquisition module 1 selects to collect data of a place near the hydraulic engineering, and uses the image information of the adjacent region to supplement the residual data.
Specifically, the image information of the place near the hydraulic engineering is the image information of the place which is closest to the region to be acquired within the range of 5km of the square circle of the region to be acquired; and when no influence information which can be acquired exists within the range of 5km of the region square circle to be acquired, the image information of the places near the hydraulic engineering is the image information of a plurality of places within the range of 10km of the region square circle to be acquired.
The hydraulic engineering terrain model building module 2 collects various tide, wind power, wind direction and other data through various hydraulic engineering image information, and predicts the hydraulic engineering image information in a period of time in the future. Specifically, taking the tide law as an example, the information of the hydraulic engineering terrain model building module 2 is used as parameter information, the tide level information is collected through pictures obtained by a Synthetic Aperture Radar (SAR), the tide law is calculated, the future tide law is predicted by using the past tide data, and the method has important significance on the design and maintenance of the hydraulic engineering
Specifically, the management of the hydraulic engineering image information by the hydraulic engineering image information management module 4 includes: reading the best information, and establishing association between the best information and the established project prediction evaluation model.
Hydraulic engineering image information management module 4 contains: the information reading unit is used for reading the optimal information obtained by the hydraulic engineering terrain estimation module 3; the storage unit is connected with the information reading unit and used for storing the acquired optimal information; and the presentation unit is connected with the storage unit and is used for carrying out human-computer interaction presentation on the optimal information so as to realize preview, query, editing and permission distribution on the optimal information.
Wherein the memory cell comprises: the first storage area is used for storing a plurality of prediction evaluation models under the field state of each hydraulic engineering; and a second storage area storing the optimum information.
Based on the technical scheme, the multisource hydraulic engineering image information system provided by the invention can effectively improve the accuracy of image data acquisition, and the established image information management system realizes the management and query of image information of hydraulic engineering in different states, so that a user can conveniently master the operation conditions of the hydraulic engineering in different states, and the efficiency of hydraulic engineering management can be improved.
Furthermore, the data information management has low cost, convenient maintenance and high reliability.
Further, the server 5 includes a login detection unit, configured to receive a login request of a user account input by a user, and check and identify the user account sent by the login detection unit;
further, hydraulic engineering image information management module 4 with server 5 still is connected with wireless communication module, wireless communication module includes any one or the combination of several kinds in 5G communication module, 4G communication module, bluetooth module, wiFi module, GSM module, Zigbee module and the loRa module.
While the present invention has been described in detail with reference to the preferred embodiments, it should be understood that the above description should not be taken as limiting the invention. Various modifications and alterations to this invention will become apparent to those skilled in the art upon reading the foregoing description. Accordingly, the scope of the invention should be determined from the following claims.
Claims (10)
1. A multi-source hydraulic engineering image information system is characterized by comprising:
the hydraulic engineering image data acquisition module is used for acquiring image information of different states of a hydraulic engineering site in a region to be acquired based on internet data;
the hydraulic engineering terrain model building module is connected with the hydraulic engineering image data acquisition module, takes the acquired hydraulic engineering image information as parameter information, and builds a plurality of prediction evaluation models of a region to be acquired in each hydraulic engineering field state;
the hydraulic engineering terrain estimation module is connected with the hydraulic engineering terrain model construction module, carries out prediction estimation on each prediction estimation model in each hydraulic engineering field state, and screens out the prediction estimation model with optimal hydraulic engineering terrain data information as the optimal information in the state;
the hydraulic engineering image information management module is connected with the hydraulic engineering terrain estimation module and used for managing the optimal information in each state and estimating the terrain information of the region to be detected according to the optimal information in each state;
and the server is connected with the hydraulic engineering image information management module, is used for transmitting the stored optimal information to the server as target hydraulic engineering regional source data information, and carries out data monitoring on the target hydraulic engineering regional source data information.
2. The multi-source hydraulic engineering image information system of claim 1, wherein the hydraulic engineering image data acquisition module acquires image information of different states of a hydraulic engineering site of a region to be acquired based on internet data, and the image information comprises: plain photos, panoramic photos, and video data.
3. The multi-source hydraulic engineering image information system of claim 2, wherein the hydraulic engineering site different states of the area to be collected comprise: the area, shape, height, depth, tide rule, wind power and wind direction of the region to be collected.
4. The multi-source hydraulic engineering image information system of claim 3, wherein when there is a lack of hydraulic engineering image information of the area to be collected, the hydraulic engineering image data collection module selects to collect image information of a location near the hydraulic engineering, and uses the image information to supplement the missing data.
5. The multi-source hydraulic engineering image information system of claim 4, wherein the image information of the locations near the hydraulic engineering is the image information of the location closest to the area to be collected within 5km of the square circle of the area to be collected; and when no influence information which can be acquired exists within the range of 5km of the region square circle to be acquired, the image information of the places near the hydraulic engineering is the image information of a plurality of places within the range of 10km of the region square circle to be acquired.
6. The multi-source hydraulic engineering image information system of claim 1, wherein the hydraulic engineering image information management module comprises: the information reading unit is used for reading the optimal information obtained by the hydraulic engineering terrain estimation module; the storage unit is connected with the information reading unit and used for storing the acquired optimal information; and the presentation unit is connected with the storage unit and is used for carrying out human-computer interaction presentation on the optimal information so as to realize preview, query, editing and permission distribution on the optimal information.
7. The multi-source hydraulic engineering image information system of claim 6, wherein the storage unit comprises: the first storage area is used for storing a plurality of prediction evaluation models under the field state of each hydraulic engineering; and a second storage area for storing the optimum information.
8. The multi-source hydraulic engineering image information system of claim 1, wherein the server comprises: and the login detection unit is used for receiving a login request of the user account input by the user and verifying and identifying the user account sent by the login detection unit.
9. The multi-source hydraulic engineering image information system of claim 1, wherein the hydraulic engineering image information management module and the server are respectively connected to a wireless communication module.
10. The multi-source hydraulic engineering image information system of claim 9, wherein the wireless communication module comprises: 5G communication module, 4G communication module, bluetooth module, wiFi
Any one or combination of any several of module, GSM module, Zigbee module and LoRa module.
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN113793070A (en) * | 2021-10-09 | 2021-12-14 | 江苏弗雷恩德科技有限公司 | Water conservancy planning construction assessment method |
Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107248022A (en) * | 2017-05-03 | 2017-10-13 | 大连理工大学 | A kind of multi-source hydraulic engineering image information system |
| CN107273640A (en) * | 2017-07-11 | 2017-10-20 | 黄河勘测规划设计有限公司 | Hydraulic and Hydro-Power Engineering Schedule monitoring method based on three-dimensional digital model |
| CN107809611A (en) * | 2017-09-28 | 2018-03-16 | 福建四创软件有限公司 | A kind of 720 ° of Panoramic Warping method for real-time monitoring of hydraulic engineering and system |
| CN109242291A (en) * | 2018-08-28 | 2019-01-18 | 天津大学 | River and lake basin water environment wisdom management method |
| KR101965535B1 (en) * | 2018-08-02 | 2019-04-03 | 김남식 | Intelligent Water Management System |
| CN111402418A (en) * | 2020-04-24 | 2020-07-10 | 许艳杰 | Multisource hydraulic engineering image information system |
-
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- 2021-01-05 CN CN202110005982.3A patent/CN112785046A/en active Pending
Patent Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107248022A (en) * | 2017-05-03 | 2017-10-13 | 大连理工大学 | A kind of multi-source hydraulic engineering image information system |
| CN107273640A (en) * | 2017-07-11 | 2017-10-20 | 黄河勘测规划设计有限公司 | Hydraulic and Hydro-Power Engineering Schedule monitoring method based on three-dimensional digital model |
| CN107809611A (en) * | 2017-09-28 | 2018-03-16 | 福建四创软件有限公司 | A kind of 720 ° of Panoramic Warping method for real-time monitoring of hydraulic engineering and system |
| KR101965535B1 (en) * | 2018-08-02 | 2019-04-03 | 김남식 | Intelligent Water Management System |
| CN109242291A (en) * | 2018-08-28 | 2019-01-18 | 天津大学 | River and lake basin water environment wisdom management method |
| CN111402418A (en) * | 2020-04-24 | 2020-07-10 | 许艳杰 | Multisource hydraulic engineering image information system |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113793070A (en) * | 2021-10-09 | 2021-12-14 | 江苏弗雷恩德科技有限公司 | Water conservancy planning construction assessment method |
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