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Augmented reality monitoring and management method and system based on urban underground pipeline model

An underground pipeline and augmented reality technology, applied in biological neural network models, 3D modeling, data processing applications, etc., can solve the problems of untimely, inefficient, and inconvenient monitoring and management, and achieve positioning and maintenance supervision , Realize the effects of monitoring and management, and improve maintenance efficiency

Active Publication Date: 2021-09-24
TERRA DIGITAL CREATING SCI & TECH (BEIJING) CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] When it is necessary to enter the home for maintenance or check the meter, professionals generally need the user to indicate the installation location of the meter, and the meter cannot be found in time
[0006] The above-mentioned problems are attributed to the invisibility of urban underground pipelines and the untimely, inconvenient, inaccurate and inefficient monitoring and management caused by the inability to systematize water and gas network management.

Method used

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  • Augmented reality monitoring and management method and system based on urban underground pipeline model
  • Augmented reality monitoring and management method and system based on urban underground pipeline model
  • Augmented reality monitoring and management method and system based on urban underground pipeline model

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0078] Such as figure 1 It is an augmented reality monitoring and management method flow for an underground pipeline model in a region of a city, specifically including:

[0079] S1 sets up the server S and the monitoring center C, and builds the combined three-dimensional information model Mod of the city's underground water pipelines, natural gas pipelines, user meters and user networking devices 3D ;

[0080] S2 Install data collection and transmission and geolocation devices A1 and A2 in user water meters and gas meters respectively, install geolocation device B in networked devices, install monitoring and management application apps on smart phones of users and professionals, and regularly formulate For the detection of underground water pipelines and natural gas pipelines, buried optical fibers and networking devices, use a trolley-type underground pipeline leak detector to check for leaks in the water and gas pipelines buried in the roads in the area, and use a hand-he...

Embodiment 2

[0096] S2 specifically includes:

[0097] Such as Figure 2a As shown, S2-1 collects and sends data to the electronic water meter installed in the three-storey building indicated by the menu and sends data to the electronic gas meter installed in the geographic positioning device A1. The data collection and sending and geographic positioning devices A1 and A2 measure the user's water and gas consumption data in real time. From bottom to top in the menu, it represents the water and air data data from the 1st floor to the 3rd floor and the geographic location information loc in the E coordinate system. Send the data data and the coordinates of the meter under E to the server S.

[0098] S2-2 Set the geolocation device B in the networked device in the three-story building, and display the running status in the data column of the menu. Figure 2a In the menu, a1, b1, and c1 represent the water, gas, and network operation data from floors 1 to 3, and a2, b2, and c2 represent the...

Embodiment 3

[0102] Such as Figure 5 , the augmented reality device for professionals is AR glasses 1, which is characterized in that it includes a main body frame 11, a visual lens 12, a projecting screen 13, a projector 14, a processor 15, a coordinate locator 16, and a wireless data transceiver 17 , a voice recognition and prompt system 18 and a high-definition pinhole camera 19. The coordinate locator 16 is used to locate the origin o' of the F coordinate system, and send the coordinates of the origin o' under E to the server S, which may use the Beidou positioning system. The main frame is made of a transparent material (such as transparent tempered glass); the coordinate system F of the augmented reality device for construction professionals specifically includes selecting a point on the processor 15 of the AR glasses 1 as the coordinate origin o', which is parallel to the projection screen. The left direction is the a-axis, the b-axis is perpendicular to the a-axis and the visual ...

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Abstract

The invention discloses an augmented reality monitoring and management method based on an urban underground pipeline model. The method comprises the following steps: constructing an urban underground pipeline, a user meter and a user networking device combined three-dimensional information model Mod3D; arranging a professional reality augmentation device, constructing a professional reality augmentation device coordinate system F, carrying out real-time or regular monitoring and management on water and gas pipelines and an optical fiber network of a city based on a joint three-dimensional information model Mod3D'marked with data and geographic positioning, and achieving visual monitoring and management of the pipelines. The AR device and the mobile terminal app are utilized to improve the maintenance efficiency of a problem pipeline or a networking device, resource waste is avoided, on-site remote systematized positioning and maintenance supervision are realized, and the working efficiency of home-entry maintenance meters and the timeliness of general report notice are improved.

Description

technical field [0001] The invention relates to a monitoring and management method for underground pipelines, in particular to an augmented reality monitoring and management method and system based on an urban underground pipeline model, belonging to the field of urban underground pipeline monitoring and management. Background technique [0002] Urban underground pipelines include underground water pipes, gas pipelines (including gas and natural gas), buried optical fibers, etc. The development of smart cities must consider the monitoring and management of all aspects of the city to achieve efficient operation. Due to the invisibility of underground pipelines, it is generally only when there is a problem in the pipeline that it can be checked, and even when the problem is exposed to the ground, the on-site repair is rushed, such as a water pipe rupture or a gas pipeline leak, or a network disconnection. During the period, it is inevitable to delay the repair time (for exampl...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06T19/00G06T17/00G06Q50/26G06Q50/06G06N3/04
CPCG06T19/006G06T17/00G06Q50/06G06Q50/26G06N3/045
Inventor 刘俊伟
Owner TERRA DIGITAL CREATING SCI & TECH (BEIJING) CO LTD