Real-Time 3D Profiling with RGB-D Mapping in Pipelines Using Stereo Camera Vision and Structured IR Laser Ring

Gunatilake, Amal; Piyathilaka, Lasitha; Kodagoda, Sarath; Barclay, Stephen; Vitanage, Dammika

doi:10.1109/iciea.2019.8834089

Cited by 17 publications

(9 citation statements)

References 16 publications

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“…The water level becomes lower in Figure 8d,e and then higher again in Figure 8f. The error rate of water levels calculated by the methodology proposed in this study is relatively lower than that of the results obtained using specific measuring instruments, such as lasers [5,6], ultrasonic devices [7,8], sonar [9], and CCTV with electronic tilt meter [10]. Factors that can affect the error of the results obtained using the measuring instruments are the error of the measuring instrument itself and errors due to the complex state of the sewer pipe.…”

Section: Eer Review 8 Of 10mentioning

confidence: 75%

“…Because the irregularity of the gradient inside the sewer pipe causes the problems described above, many studies have been conducted to accurately investigate the problems inside the sewer pipe. Some examples are related to profiling inside the sewer pipe using instruments such as lasers [5,6], ultrasonic devices [7,8], sonar [9], and CCTV with electronic tilt meter [10], which have been used to construct a profile of the inside of a sewer pipe. These types of precise instruments exhibit excellent performance compared to CCTV investigations.…”

Section: Introductionmentioning

confidence: 99%

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Determination of Internal Elevation Fluctuation from CCTV Footage of Sanitary Sewers Using Deep Learning

Yoo

Koo

et al. 2021

Water

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The slope of sewer pipes is a major factor for transporting sewage at designed flow rates. However, the gradient inside the sewer pipe changes locally for various reasons after construction. This causes flow disturbances requiring investigation and appropriate maintenance. This study extracted the internal elevation fluctuation from closed-circuit television investigation footage, which is required for sanitary sewers. The principle that a change in water level in sewer pipes indirectly indicates a change in elevation was applied. The sewage area was detected using a convolutional neural network, a type of deep learning technique, and the water level was calculated using the geometric principles of circles and proportions. The training accuracy was 98%, and the water level accuracy compared to random sampling was 90.4%. Lateral connections, joints, and outliers were removed, and a smoothing method was applied to reduce data fluctuations. Because the target sewer pipes are 2.5 m concrete reinforced pipes, the joint elevation was determined every 2.5 m so that the internal slope of the sewer pipe would consist of 2.5 m linear slopes. The investigative method proposed in this study is effective with high economic feasibility and sufficient accuracy compared to the existing sensor-based methods of internal gradient investigation.

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Section: Eer Review 8 Of 10mentioning

confidence: 75%

Section: Introductionmentioning

confidence: 99%

Determination of Internal Elevation Fluctuation from CCTV Footage of Sanitary Sewers Using Deep Learning

Yoo

Koo

et al. 2021

Water

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“…However, if the linings are not applied properly, they could deteriorate in the short-term, and in longterm, surface defects such as folds, wrinkles, bulges, and dimples can occur as a result of the pipe's adverse conditions. We have developed a mobile robotic system equipped with a laser profiler for three-dimensional (3D) mapping of water and wastewater pipeline internal surface defects [9], [10]. However, effective robot localization is required to track the evolution of surface defects over time by comparing 3D pipe maps acquired through robotic laser scans at various times.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Battery-free UHF-RFID Sensor Wireless Signals for In-pipe Robotic Applications

Gunatilake¹,

Thiyagarajan²,

Kodagoda³

2021

Preprint

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A reliable robotic localization method is required for comparing three-dimensional pipe maps obtained via laser scans at various times for accurately monitoring the evolution of internal pipe surface defects. Existing robotic localization methods have limitations when visual features vanish due to changes in the pipe environment or when encoder data becomes highly uncertain due to long-distance robotic traverses. To address this issue, we leverage battery-free ultra-high frequency radio frequency identification (UHF-RFID) sensors for transmitting wireless signals to a two-antenna reader integrated mobile robotic system. Although there are literature on the investigation of UHFRFID behaviors and their applications in indoor environments, analysis of the same for in-pipe scenarios was not well studied. In this paper, we evaluate the UHF-RFID sensor signals inside a field extracted pipeline. Firstly, we examine the UHF-RFID sensor signal patterns through repeated robotic scans. Secondly, we examine how the placement of UHF-RFID reader antennas affects the transmission of UHF-RFID sensor signals, as well as we study the effects of robotic traverse direction and speed on the UHF-RFID wireless signals. Finally, we examine whether identical UHF-RFID sensors generate the same pattern when placed in a pipeline. Overall, the experimental evaluation demonstrates that the use of two-antenna UHF-RFID readers can ameliorate the capabilities of robotic localization in the pipeline.

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“…Depending on the size of the pipe, average corroded pipe repair costs range from A$400 to A$4000 per metre. There are several inspection methodologies based on pulsed Eddy current sensors [2], laser profilers and stereo vision [3], electrical resistivity sensors [4], fibre optic sensors [5], drilling mechanisms [6], ultrasound sensing [7], infrared radiometers [8] to name a few are currently used to identify hot spot corrosion zones in the water utility pipelines. Based on the level of pipe degradation, the water utilities either choose to replace that respective section of the pipe or apply protective pipe linings to extend the service life of the pipe section [9].…”

Section: Introductionmentioning

confidence: 99%

Using UHF-RFID Signals for Robot Localization Inside Pipelines

Gunatilake

Galea

Thiyagarajan

et al. 2021

2021 IEEE 16th Conference on Industrial Electronics and Applications (ICIEA)

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Underground water pipes are important to any country's infrastructure. Overtime, the metallic pipes are prone to corrosion, which can lead to water leakage and pipe bursts. In order to prolong the service life of those assets, water utilities in Australia apply protective pipe linings. Long-term monitoring and timely intervention are crucial for maintaining those lining assets. However, the water utilities do not possess the comprehensive technology to achieve it. The main reasons for lacking such technology are the unavailability of sensors and accurate robot localization technologies. Feature based localization methods such as SLAM has limited use as the application of liners alters the features and the environment. Encoder based localization is not accurate enough to observe the evolution of defects over a long period of time requiring unique defect correspondence. This motivates us to explore accurate contact-less and wireless based localization methods. We propose a cost-effective localization method using UHF-RFID signals for robot localization inside pipelines based on Gaussian process combined particle filter. Experiments carried out in field extracted pipe samples from the Sydney water pipe network show that using the RSSI and Phase data together in the measurement model with particle filter algorithm improves the localization accuracy up to 15 centimeters precision.

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Real-Time 3D Profiling with RGB-D Mapping in Pipelines Using Stereo Camera Vision and Structured IR Laser Ring

Cited by 17 publications

References 16 publications

Determination of Internal Elevation Fluctuation from CCTV Footage of Sanitary Sewers Using Deep Learning

Determination of Internal Elevation Fluctuation from CCTV Footage of Sanitary Sewers Using Deep Learning

Evaluation of Battery-free UHF-RFID Sensor Wireless Signals for In-pipe Robotic Applications

Using UHF-RFID Signals for Robot Localization Inside Pipelines

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