2019 IEEE/SICE International Symposium on System Integration (SII) 2019
DOI: 10.1109/sii.2019.8700363
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Control and Mechanical Design of a Multi-diameter Tri-Legged In- Pipe Traversing Robot

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Cited by 14 publications
(6 citation statements)
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“…In this section, we designed a multi-phase motion control for our proposed robot that enables maneuverability with stabilized motion in complicated configurations of pipeline that is has been a challenge for in-pipe robots [39,46,[53][54][55][56][57][58][59][60]. However, switching between different phases of motion controller remains a challenge to solve.…”
Section: Controller Performance At T-junctionmentioning
confidence: 99%
“…In this section, we designed a multi-phase motion control for our proposed robot that enables maneuverability with stabilized motion in complicated configurations of pipeline that is has been a challenge for in-pipe robots [39,46,[53][54][55][56][57][58][59][60]. However, switching between different phases of motion controller remains a challenge to solve.…”
Section: Controller Performance At T-junctionmentioning
confidence: 99%
“…Fig. 1 shows examples of the Pipeline Inspection Gauge (PIG) [9,10], screw [16,17], inchworm [18][19][20][21][22][23][24], wall press [25][26][27][28][29], walking [30][31][32][33][34], caterpillar [35][36][37][38][39], and wheel type [40][41], [50][51][52], [42][43][44][45][46][47][48][49]. These popular forms of movement have drawbacks in addition to their benefits [53].…”
Section: Open Accessmentioning
confidence: 99%
“…Among them, wheeled pipe robots are the most commercially adopted and most commonly used. Wheeled pipe robots have the characteristics of effective flexibility and low power consumption [2], but lack stability, for example: the six-wheel drive in-tube robot that has difficulty moving through bent pipe smoothly [3]. The peristaltic pipeline inspection robot [4,5] has a simple structure and high motor utilization rate, but its complex mechanical structure results in space constraints, making it difficult to pass through a damaged or concave straight pipe or bent pipe.…”
Section: Classification Of the In-pipe Robotmentioning
confidence: 99%
“…Such methods usually need to be matched with appropriate pressure sensors to determine the radial pressure from the pipe wall received by the crawler foot. For example, the robot in [3] uses a scissor chain structure driven by spiral components to automatically adapt the pipe diameter. The advantage of this method is that it can actively control the pressure of the robot's crawler foot and pipe diameter, for example, providing enough friction for the robot's climbing process in a vertical pipe.…”
Section: Problems With the In-pipe Robot In Controlmentioning
confidence: 99%