Design and Implementation of the Airborne Laser Effector for Autonomous Pipeline Alignment

Hai Fang Liu; Rui Wang; Shi Sheng Zhong

doi:10.4028/www.scientific.net/AMM.496-500.1327

Paper Titles

Intelligent Identification and Locating System of Steel Coil Based on Laser Technology
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Research on Open CNC System for Rolling Machine Based on PMAC
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Research on the Shift Schedule of Dual Clutch Transmission for Pure Electric Vehicle
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Research of Single-Device Test Based on Relay Protection Simulation and Training System
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Design and Implementation of the Airborne Laser Effector for Autonomous Pipeline Alignment
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The Application and Improve of Fuzzy Clustering in Classifying Control Targets
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Simulation Analysis of Synchronization Control for Ultrahigh Pressure Sterilization Equipment Based on AMESim
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Far-Field Energy Density of the Laser Detection System
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Small Module Involute Gear Precise Modeling and NC Machining
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 496-500Design and Implementation of the Airborne Laser...

Design and Implementation of the Airborne Laser Effector for Autonomous Pipeline Alignment

Abstract:

Abstract. High-accuracy beam pointing is one of the key problems in the airborne laser remote sensing of natural gas pipeline leak. In response to the domestic demand for the long-distance natural pipeline leak detection, this study proposes an airborne laser effector for autonomous pipeline alignment based on CH₄/H₂S detector. Mainly structured on 2DOF serial mechanism, the device under discussion is designed with a control system operated on IPC and PMAC, followed by the design of hierarchical modular software. Once completed, the device is placed for indoors pointing experiments as well as simulated airborne test. The results show the effector can conduct full-angle scan of the pod area, achieve a static measuring precision of less than 0.4m as an alignment point is about 100 meters from the laser and detect leakage in dynamic simulated experiment, which meets with the design requirements. In other words, both the design and control algorithm are proved to be feasible. The effector holds an important engineering value for solving the problem of remote detection of the natural gas pipeline leakage.