Inspection and analysis system for transmission lines, towers, and utility poles.
The system will accommodate automation by anticipating the details of daily tasks related to the inspection and analysis of power transmission, transformation, and distribution.
The product is designed to anticipate the details of daily tasks related to the inspection and analysis of power transmission, transformation, and distribution. It can process and analyze vast amounts of point cloud data, quickly and accurately extracting problem areas. It provides functions such as early warning analysis of operational status, completion inspection of transmission lines, multi-period data analysis, and detailed inspection route planning, enabling the safe operation of power systems. The software 'LiPowerline' developed by GreenValley International, along with the hardware 'LiAir X4' that can be mounted on drones, will be available for immediate use after purchase. 【Features】 ■ AI-based processing and analysis of terabyte-level LiDAR point cloud data - Capable of reading raw point cloud data from over 1,000 towers without using sparse extraction methods that derive answers from limited data. - With high processing and analysis efficiency, it can handle 300 km of data processing per person per day on the main grid. - Automatically classifies categories such as towers, conductors, shield wires, insulators, drainage ditches, crossing lines, grounding points, trees growing below, buildings, roads, and water bodies with one click. - Classification accuracy of up to 95%.
basic information
(Related Video Explanation) 0:23 Automatically detects and classifies transmission towers and power lines, displaying in 2D/3D 0:42 Detects areas where power lines may come into contact with trees and analyzes whether sufficient distance is maintained where power lines intersect 1:03 3D simulation under high temperatures, ice accumulation, and strong winds 1:15 Checks for sagging of power lines 1:22 Confirms the condition of transmission towers (tilt of the tower, height from the ground to the arm, etc.) 1:33 Detects damaged components of transmission towers (Tree Analysis Around Power Lines) Checks the condition of individual trees and calculates areas where felling is necessary Quickly detects the number, location, height of hazardous trees, and the crown width of the upper part of the trees Creates a report on the height and density distribution of trees within the area
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Applications/Examples of results
(Tree Analysis Around Transmission Lines) Check the condition of individual trees and calculate areas that require felling. Calculate the number, position, height of dangerous trees, and the crown width of the upper part of the trees. Create a report on the height and density distribution of trees in the area. (Simulating Work Environment and Identifying Potential Hazards) Vectorization of the transmission line's batch. Simulate and analyze tree collapse and growth. Simulate under high temperatures, ice accumulation, and strong winds. (Assistance with Transmission Line Inspection Until Completion) Calculate sag of the transmission line, clearance distance, safe distance from drainage ditches, spacing between conductors and shield wires, tilt of the towers, positions of multiple arms, height from the top surface of the tower foundation to the lowest arm, and provide analysis results of the lengths and angles of the four sides of the cross-section of the selected tower location. (Precision Inspection) Conduct precision inspections of towers, wires, channels, and bulk generation of various routes. Automatically recognize the position of parts based on the type of tower. Save and rename inspection images. (Management of Power Transmission and Distribution Networks) Manage the transmission network in a tree structure. Automatically extract the positions of towers. Convert tower information ledger into a KML file that can display geographic data and import it into Google Earth. Create inspection routes for the distribution network and support their safety.
Detailed information
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Analysis of trees around power transmission lines • Check the condition of individual trees and calculate areas that require felling. • Quickly detect information on the number, location, height, and crown width of hazardous trees. • Create a report on the height and density distribution of trees in the area.
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Simulate the work environment and identify potential hazard areas. • Batch vectorization of power lines. • Simulate and analyze tree collapse and growth. • Simulations under high temperatures, icing, and strong winds.
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Assistance until the completion of the power line inspection • We will provide analysis results such as the sag of the power line, the clearance distance from the power line, the safety distance between the power line and the drainage ditch, the spacing between the conductor and the shield wire, the tilt of the tower, the positions of multiple arm braces, the height from the top surface of the tower foundation to the lowest arm brace, and the lengths and angles of the four sides of the cross-section at the selected location of the tower.
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Precision Inspection • Comprehensive generation of precision inspections for towers, wire inspections, channel inspections, and various other routes. • Automatic recognition of component positions based on the type of tower. • Ability to save and rename inspection images.
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Management of the Transmission Network • Managing the transmission network in a tree structure. • Automatically extracting the locations of transmission towers. • Creating a ledger of tower information converted into a KML file that can display geographic data. Supports import into Google Earth.
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Distribution network inspection • Creating routes for inspecting the distribution network and supporting the safety of those routes.
