Modeling of the in-pipe inspection robot: A comprehensive review

Abstract The in-pipe inspection robotic system is crucial in examining the inside of a pipe without compromising its structural safety. The in-pipe inspection robotic system is a promising alternative to conventional methods of x-ray inspection and visual inspection. Despite the ongoing investigation, the effectiveness of the in-pipe inspection robotic system, particularly regarding the mathematical modeling of the system design, still needs to be improved. The in-pipe inspection robot which is normally equipped with a camera or non-destructive testing (NDT) equipment moves inside the pipeline to conduct a pipe integrity assessment. The main problem during an inspection is the restricted maneuverability of the robot due to geometric changes in the pipe. This can be overcome by designing a proper mathematical model to develop an effective inspection robotic system. Therefore, this paper provides a systematic review of different modeling types of the in-pipe inspection robotic systems, including the assessment of the kinematic and dynamic mathematical models for the system. This review paper covers in-pipe inspection robotic systems with several driving mechanisms such as fluid-driven, wheeled mobile drive (WMD), screw or helical drive, legged and biomimetic drives.

[1]  Aldan O'donoghue Why pigs get stuck, and how to avoid it , 2003 .

[2]  J W Qiao,et al.  Research on pipeline elbow passing for in-pipe robot , 2012 .

[3]  Xu,et al.  Key Techniques of the X-ray Inspection Real-time Imaging Pipeline Robot , 2004 .

[4]  Zheng Hu,et al.  Dynamic characteristics of a novel self-drive pipeline pig , 2005, IEEE Transactions on Robotics.

[5]  Fernando Borja Pereira,et al.  In search of the lost pig , 2006 .

[6]  Ioannis Gravalos,et al.  Dynamic behaviour of an in-pipe sensor-based platform for soil water monitoring , 2017, Comput. Electron. Agric..

[7]  Zheng Liu,et al.  State of the art review of inspection technologies for condition assessment of water pipes , 2013 .

[8]  Khairul Salleh Mohamed Sahari,et al.  A Review: Hybrid Locomotion of In-pipe Inspection Robot , 2012, ISR 2012.

[9]  Sung-Soo Kim,et al.  Efficient Analysis of a Deep-Seabed Integrated Mining System Using a Subsystem Synthesis Method , 2015 .

[10]  Yunhui Liu,et al.  Energy-efficient control of a screw-drive pipe robot with consideration of actuator’s characteristics , 2016, Robotics and biomimetics.

[11]  Mohammad Eghtesad,et al.  Dynamic Modeling of an Out-Pipe Inspection Robot and Experimental Validation of the Proposed Model using Image Processing Technique , 2016 .

[12]  Yang Wang,et al.  Analysis of the Motion Mechanism of Actively Spirally Driven Pipe Robot , 2018, 2018 3rd Asia-Pacific Conference on Intelligent Robot Systems (ACIRS).

[13]  F. N. Sibai,et al.  Design and construction of an in-pipe robot for inspection and maintenance , 2012, 2012 International Conference on Computer Systems and Industrial Informatics.

[14]  Satyandra K. Gupta,et al.  Design and Modeling of a New Drive System and Exaggerated Rectilinear-Gait for a Snake-Inspired Robot , 2014 .

[15]  Marcelo Becker,et al.  Study of Robots to Pipelines, Mathematical Models and Simulation , 2013, 2013 Latin American Robotics Symposium and Competition.

[16]  Felix Becker,et al.  Bristle-bots in swarm robotics - approaches on agent development and locomotion , 2017, 2017 IEEE International Conference on Advanced Intelligent Mechatronics (AIM).

[17]  Muhammad Safeer Khan An approach for crack detection in sewer pipes using acoustic signals , 2017, 2017 IEEE Global Humanitarian Technology Conference (GHTC).

[18]  Toshio Fukuda,et al.  Autonomous pipeline inspection and maintenance robot with inch worm mobile mechanism , 1987, Proceedings. 1987 IEEE International Conference on Robotics and Automation.

[19]  Sheng Yuan Jiang,et al.  Design and Research on the Mechanical Adaptive In-Pipe Robot Drive Unit , 2009 .

[20]  Yonghua Chen,et al.  Characteristic analysis of a novel in-pipe driving robot , 2013 .

[21]  Tan Tien Nguyen,et al.  Dynamic modeling and its analysis for PIG flow through curved section in natural gas pipeline , 2001, Proceedings 2001 IEEE International Symposium on Computational Intelligence in Robotics and Automation (Cat. No.01EX515).

[22]  You Wu,et al.  Modeling and parameter estimation for in-pipe swimming robots , 2015, 2015 American Control Conference (ACC).

[23]  Hyouk Ryeol Choi,et al.  In-pipe robot based on selective drive mechanism , 2009 .

[24]  Friedrich Pfeiffer,et al.  "MORITZ" a pipe crawler for tube junctions , 2003, 2003 IEEE International Conference on Robotics and Automation (Cat. No.03CH37422).

[25]  Qiang Zhang,et al.  Design and stability analysis of the no power and self-propelled spraying robot used in the pipe wall , 2016, 2016 International Conference on Robotics and Automation Engineering (ICRAE).

[26]  Xiao Lin,et al.  On Optimizing Autonomous Pipeline Inspection , 2012, IEEE Transactions on Robotics.

[27]  Renato Maia Matarazzo Orsino,et al.  Lagrange’s, Maggi’s and Kane’s Equations Applied to the Dynamic Modelling of Serial Manipulator , 2017 .

[28]  Sateesh Kumar Pradhan,et al.  Design of a New In-Pipe Inspection Robot , 2014 .

[29]  Y. Ando,et al.  Wireless Piping Inspection Vehicle Using Magnetic Adsorption Force , 2012, IEEE/ASME Transactions on Mechatronics.

[30]  Lei Zhang,et al.  Stable motion analysis and verification of a radial adjustable pipeline robot , 2016, 2016 IEEE International Conference on Robotics and Biomimetics (ROBIO).

[31]  Yonghua Chen,et al.  A simple and novel helical drive in-pipe robot , 2015, Robotica.

[32]  Robert C. Richardson,et al.  Advances in the Inspection of Unpiggable Pipelines , 2017, Robotics.

[33]  Robert C. Richardson,et al.  Errata for: Kinematic Analysis and Locomotion Strategy of a Pipe Inspection Robot Concept for Operation in Active Pipelines , 2012 .

[34]  Hui Ping Shen,et al.  Design and Development of Screw-Drive In-Pipe Robot , 2010 .

[35]  Satoshi Tadokoro,et al.  High-speed sliding-inchworm motion mechanism with expansion-type pneumatic hollow-shaft actuators for in-pipe inspections , 2018, Mechatronics.

[36]  H. Dikshit,et al.  Locomotion Methods of Pipe Climbing robots: A Review , 2018 .

[37]  Noorfaizal Yidris,et al.  Detection, Localisation and Assessment of Defects in Pipes Using Guided Wave Techniques: A Review , 2018, Sensors.

[38]  Zdenko Kovacic,et al.  Development of Structure and Behavioral Model for Screw Driving In-pipe Inspection Robot based on Adaptive Mechanism on Legs , 2017 .

[39]  Wang Yang,et al.  Development of an Adaptive Vehicle for In-Pipe Inspection Task , 2011 .

[40]  Hao Tian,et al.  Research on Key Technologies of the Cableless Pipeline Robot , 2012 .

[41]  Fang Cui,et al.  The Mechanical Design and Simulation of Marine In-Pipe Robot Based on Metamorphic Mechanism , 2013 .

[42]  Guozheng Yan,et al.  In-pipe inspection robot with active pipe-diameter adaptability and automatic tractive force adjusting , 2007 .

[43]  Byung-Ju Yi,et al.  Design and Motion Planning of a Two-Module Collaborative Indoor Pipeline Inspection Robot , 2012, IEEE Transactions on Robotics.

[44]  Yong Tang,et al.  Performance analysis and parameter optimization of an inner spiral in-pipe robot , 2014, Robotica.

[45]  Mansour Karkoub,et al.  Design and Fabrication of a Novel Autonomous Pipeline Scanning Robot , 2017 .

[46]  Da Yu,et al.  Numerical simulation of contact force on bi-directional pig in gas pipeline: At the early stage of pigging , 2015 .

[47]  M. Erdogmus,et al.  To Pig or Not to Pig: The Marlin Experience With Stuck Pig , 2006 .

[48]  S. Hirose,et al.  Design of in-pipe inspection vehicles for /spl phi/25, /spl phi/50, /spl phi/150 pipes , 1999, Proceedings 1999 IEEE International Conference on Robotics and Automation (Cat. No.99CH36288C).

[49]  Yong Tang,et al.  Operational numerical simulation of a four-spiral in-pipe robot , 2015, Simul..

[50]  Xudong Jiang,et al.  Research on a Tri-axial Differential-Drive In-Pipe Robot , 2008, ICIRA.

[51]  Pengfei Sun,et al.  Kinematic modeling and simulation of wheeled pipe robot in elbow at planar motion stage , 2017, 2017 2nd Asia-Pacific Conference on Intelligent Robot Systems (ACIRS).

[52]  Wang Li,et al.  Development of a novel oil and gas in-pipe robot , 2015 .

[53]  Byung-Ju Yi,et al.  A flat pipeline inspection robot with two wheel chains , 2011, 2011 IEEE International Conference on Robotics and Automation.

[54]  Hamad Karki,et al.  Application of robotics in onshore oil and gas industry - A review Part I , 2016, Robotics Auton. Syst..

[55]  Te Li Control Strategies of Energy Optimization for an In-pipe Robot with Inclining-angle-adjustable Screw Rollers , 2014 .

[56]  Akio Gofuku,et al.  Proposal of helical wave propagate motion for a snake robot to across a branch on a pipe , 2016, 2016 IEEE/SICE International Symposium on System Integration (SII).

[57]  Renato Maia Matarazzo Orsino A contribution on modeling methodologies for multibody systems , 2016 .

[58]  Tang Yong,et al.  Dynamics Modeling and Numerical Simulation of Inner and Outer Spiral In-pipe Robots , 2013 .

[59]  Zheng Jie,et al.  Structure Design of Spiral Driven Adaptive Pipeline Robot Under Complex Conditions , 2018, 2018 2nd IEEE Advanced Information Management,Communicates,Electronic and Automation Control Conference (IMCEC).

[60]  Santhakumar Mohan,et al.  Prediction of Torque Variations in a Pipe Inspection Robot through Computational Fluid Dynamics , 2017, ICMRE 2017.

[61]  Yonghua Chen,et al.  Optimized inchworm motion planning for a novel in-pipe robot , 2014 .

[62]  Jin Tao,et al.  Development of magnetic flux leakage pipe inspection robot using Hall sensors , 2004, Micro-Nanomechatronics and Human Science, 2004 and The Fourth Symposium Micro-Nanomechatronics for Information-Based Society, 2004..

[63]  Sun Hanxu,et al.  Traction Force and Flexible Shaft Stability Analysis of Flexible Squirming Pipe Robot , 2013 .

[64]  Werner Neubauer A spider-like robot that climbs vertically in ducts or pipes , 1994, Proceedings of IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS'94).

[65]  Yogo Takada,et al.  Development and Evaluation of Compact Robot Imitating a Hermit Crab for Inspecting the Outer Surface of Pipes , 2015, J. Robotics.

[66]  Akio Gofuku,et al.  Helical wave propagation motion for a snake robot on a vertical pipe containing a branch , 2018, Artificial Life and Robotics.

[67]  Edgar A. Martínez-García,et al.  Directional fields algebraic non-linear solution equations for mobile robot planning , 2014 .

[68]  Takeo Kanade,et al.  A Three-Wheeled Self-Adjusting Vehicle in a Pipe, FERRET-1 , 1987 .

[69]  Shugen Ma,et al.  Stiffness Design of Springs for a Screw Drive In-Pipe Robot to Pass through Curved Pipes and Vertical Straight Pipes , 2012, Adv. Robotics.

[70]  Yanan Zhang,et al.  Development of Robotic Inspection System for Small Pipelines , 2000 .

[71]  Houxiang Zhang,et al.  Crawling gait realization of the mini-modular climbing caterpillar robot , 2009 .

[72]  Rui Zhang,et al.  Finite Element Analysis Based Design of Mobile Robot for Removing Plug Oil Well , 2013, J. Comput..

[73]  Satoshi Tadokoro,et al.  A high-speed locomotion mechanism using pneumatic hollow-shaft actuators for in-pipe robots , 2015, 2015 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS).

[74]  W. Jorden,et al.  Systematical Development of an Autonomous HPF Driven And Controlled Inspection Robot , 1994 .

[75]  Josep M. Mirats Tur,et al.  The Malta cistern mapping project: Underwater robot mapping and localization within ancient tunnel systems , 2010 .

[76]  William Leary,et al.  Robotic pipeline inspection system , 2004 .

[77]  Xinjun Wu,et al.  Development of an inspection robot for long-distance transmission pipeline on-site overhaul , 2009, Ind. Robot.

[78]  Kostas Hrissagis,et al.  On the development of a modular external-pipe crawling omni-directional mobile robot , 2006, Ind. Robot.

[79]  H. Tourajizadeh,et al.  Optimal Control of Screw In-pipe Inspection Robot with Controllable Pitch Rate , 2018, J. Intell. Robotic Syst..

[80]  Tan Tien Nguyen,et al.  Modeling and simulation for PIG flow control in natural gas Pipeline , 2001 .

[81]  Norihiko Saga,et al.  Steering System of Cylindrical Elastic Crawler Robot , 2018 .

[82]  Tang Wei,et al.  Pipeline spraying robot: structure and pose adjustment , 2015 .

[83]  Hyoukryeol Choi,et al.  An In-pipe robot with multi-axial differential gear mechanism , 2013, 2013 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[84]  Tang Dewei Adaptive control characteristics of pipeline inspection traction device , 2012 .

[85]  Hyungpil Moon,et al.  A remotely controlled out-pipe climbing robot , 2013, 2013 10th International Conference on Ubiquitous Robots and Ambient Intelligence (URAI).

[86]  Robert R. Sattarov,et al.  Electromagnetic worm-like locomotion system for in-pipe robots: Design and vibration-driven motion analysis , 2017, 2017 Dynamics of Systems, Mechanisms and Machines (Dynamics).

[87]  Tao Jiang,et al.  A Spiral Actuated Micro In-Pipe Robot for Pipes Diameter 15mm , 2013 .

[88]  Wail Gueaieb,et al.  Planar kinematics analysis of a snake-like robot , 2014, Robotica.

[89]  Yi Wang,et al.  A review over state of the art of in-pipe robot , 2015, 2015 IEEE International Conference on Mechatronics and Automation (ICMA).

[90]  M M Moghaddam,et al.  ON THE IN-PIPE INSPECTION ROBOTS TRAVERSING THROUGH ELBOWS , 2015 .

[91]  Sergey Jatsun,et al.  Six-Link In-pipe Crawling Robot , 2014 .

[92]  Sangdeok Park,et al.  Development of mobile robot systems for automatic diagnosis of boiler tubes in fossil power plants and large size pipelines , 2002, IEEE/RSJ International Conference on Intelligent Robots and Systems.

[93]  Panagiotis Polygerinos,et al.  Water pipe robot utilizing soft inflatable actuators , 2018, 2018 IEEE International Conference on Soft Robotics (RoboSoft).

[94]  G. K. Ananthasuresh,et al.  A Compact and Compliant External Pipe-Crawling Robot , 2013, IEEE Transactions on Robotics.

[95]  A. Anuar,et al.  Development of in-pipe inspection robot: A review , 2012, 2012 IEEE Conference on Sustainable Utilization and Development in Engineering and Technology (STUDENT).

[96]  魏明生 Wei Ming-sheng,et al.  Adaptive localization method based on wireless magnet sensors for pipeline robots , 2012 .

[97]  Howie Choset,et al.  Motion estimation of snake robots in straight pipes , 2013, 2013 IEEE International Conference on Robotics and Automation.

[98]  Jie Zheng,et al.  Design of a self-adaptive pipe robot based on multi — axis differential system , 2017, 2017 IEEE 2nd Information Technology, Networking, Electronic and Automation Control Conference (ITNEC).