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Design of wireless and self-adaptive oil-gas pipeline traction robot

Published: 18 August 2021 Publication History
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References

[1]
LUO Kedong, “Construction Foundation and Development Direction of Intelligent Oil and Gas Pipe Network in China,” pp.82-85,2002.
[2]
HU Dengmoing,LUO Hui, “Analysis of Natural Gas Pipeline Accidents at Home and abroad,”Chengdu,pp.8, September 2009.
[3]
LI Zhuxin,SU Yi,LU Hongqing,MENG Haolong, “Research on pipeline online detection technology and detection robot,”Chongqing,pp.41-45+53,2006.
[4]
LI Weiwan,KOU Xiaoping, “Analysis of hidden danger of long-distance pipeline safety,”Taiyuan,pp.173-174,
[5]
WU Lishuang, “Study on Safety Problems and Countermeasures Based on Long Gas Transmission Pipeline,”Tianjin,vol.07,pp.355+339,2020.
[6]
ZHU Guang, “Oil and Gas Pipeline Risk Analysis and Protection Measures,”Lanzhou,vol.19,pp.256,2020.
[7]
LIU Qingyou, “Research Status and Development Tendency of the Oil and Gas In-Pipe Robot,” Chengdu,vol.35.pp.1-6, January 2016.
[8]
CHANG Yulian,SHAO Shoujun,GAO Sheng, “Development and application prospect of the pipeline robot technology in the petroleum industry,” Daqing, vol.09,pp.122-126+2,2006.
[9]
Houldey P, Envy C. Sensor system for a pipeline inspection tool: US, 7458289[P]. 2008-11-2.
[10]
Williams B D, Williams D L, Raghavan V T. Pipeline in-line inspection system:US, 0305875[P]. 2010-3-15.
[11]
ZHANG Shimin,HE Zichen,ZHU Xiaoxiao, “Study on a New Type of Wax ༲emoval Pig for Crude Oil Pipeline,”Beijing,vol.2,pp.136-144,2019.
[12]
Sungmoo Ryew, Hyoulkryeol Choi. Double Active Universal Joint(DAUJ): Robotic Joint Mechanism for Humanlike Motions. IEEE Transactions On Robotics and Automation, Vol.17, No.3, pp.290-300,2001
[13]
Burkett S, Schempf H. Exploer-Ⅱ: Wireless Self-powered Visual Robotic Inspection System for Live Gas Distribution Mains, DOE Award No. DE-FC26-04NT-42264[R]. Pitsburgh: Camegie Mellon University,2008
[14]
ZHANG Yunwei, “Dissertation Submitted for Ph.D. of Shanghai JiaoTong University,”Shanghai,2007.
[15]
TANG Dewei,LI Qingkai,JIANG Shengyuan,al etc. “Differential Property and Traction Force of Tri-axial DifferentialPipeline Robot in Elbow,” Harbin,vol.32,pp.91, January 2010.
[16]
Young SK, Hoon L, EuiJJ, etal Design and m otion planning ofa tw o-m oduled indoorp ipe line in spection robot[C].2008EEE htemationalCon ference on Robotics and A u tom ation, Pasadena, Califomia, USA,2008.
[17]
MAO Limin, WANG Zhiguo,”Study on the Mobile Mechanism of Pipe Robot with Four Automatic Position Changing Pedrails,” Shanghai, vol.28, pp.635-637,May 2009.
[18]
LIU Qingyou,LI Yujia,REN Tao,al etc, “An Active Helical Drive In-pipe Robot,” Chengdu,vol.36,pp.711, November 2014.
[19]
LI Peng,MA Shugen,Libin,al etc, “Screw Drive In-pipe Robot with Axial and Circum-directional Inspection Ability,” Shenyang,vol.46,pp.19, November 2010.
[20]
SHI Wei, “Research on Earthworm-like Peristaltic Micro In-pipe Robot Driven by SMA,”Harbin,March 2008.
[21]
Scholl K U, Kepplin V, Berns K, Dillmann R. Controlling a multi-joint robot for autonomous sewer inspection. Robotics and Automation,2000. Proceedings. ICRA '00. EEE Intemational Conference on, Volume:2,24-28 Apmil 2000, Pages:1701-1706 vol.2
[22]
YANG Lijian, “High precision pipeline Magnetic Flux Leakage on-line inspection technology,”SHENYang,vol.27,pp.46-49, October 2005.
[23]
XU Fengping,DENG Zongquan, “Research on Traveling-capability of Pipeline Robot in Elbow,”Harbin,vol.26,pp.155-160, March 2004.
[24]
Roh S G, Choi H R. Differential-drive in-pipe robot for moving inside urban gas pipelines [J]. IEEE Transactions on Robotics, 2005, 21(1): 1-17.
[25]
WANG Chenzhong, “Design and study ofdifferential-drive adaptive in-pipe robot,”SHEN Yang, March 2016.
[26]
CHEN Xiao,WU Zhipeng,HE Siyu,and XIAO Xiaohui, “Passing property design of adaptive support pipeline detection robot,”Wuhan, vol.49,pp. 2953-2962, December 2018.

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ICAIIS 2021: 2021 2nd International Conference on Artificial Intelligence and Information Systems
May 2021
2053 pages
ISBN:9781450390200
DOI:10.1145/3469213
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Published: 18 August 2021

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