Depth control for storage tank in-service inspection robot based on artificial intelligence control

Huang, Zhiqiang; He, Lei; Li, Xinxia; Kang, Yewei; Xie, Dou

doi:10.1108/ir-05-2018-0085

Cited by 5 publications

(1 citation statement)

References 9 publications

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“…Clearly, it is difficult for a robot moving on the floor to complete detection tasks across the heating coils. Huang et al (2018) first designed a robot prototype with diving and rising movements. The robot can move across obstacles, such as heating coils and move freely in liquids, instead of moving only on the floor.…”

Section: Introductionmentioning

confidence: 99%

Research on spatial positioning of online inspection robots for vertical storage tanks

Huang

Gao

et al. 2019

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Purpose This paper aims to introduce a new acoustic positioning method to solve the problem of space positioning for online inspection robots within the storage tank. Design/methodology/approach The proposed positioning system comprises two acoustic signal emitters and two receivers. Emitters are brought by the robot into the storage tank. Receivers are mounted on the external edge of the storage tank floor. The spatial coordinate values and motion directions of the robot in the storage tank are calculated by using the proposed acoustic positioning algorithm. Findings The experiment results and positioning error analysis indicate that the method can obtain the data of robotic space coordinates and motion orientation, while the positioning error of the method can be less than 20 cm. The accuracy reaches the positioning technology level of other tank online inspection robots. Originality/value This method not only expands the positioning of the inspection robots from 2D plane to 3D space but also significantly reduces the number of positioning sensors carried by a robot and improves the safety of a robot in the tank.

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Section: Introductionmentioning

confidence: 99%

Research on spatial positioning of online inspection robots for vertical storage tanks

Huang

Gao

et al. 2019

Self Cite

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Safety Assessment of Vertical Storage Tank Based on Robot Ultrasonic Online Inspection

Wang

et al. 2023

J Nondestruct Eval

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A Matrix Headlamp Design Based on Artificial Intelligence Controller Control

Jiang¹

2020

J. Phys.: Conf. Ser.

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In recent years, with the progress of technology, the requirements of lighting in various fields are getting higher and higher. Matrix headlights break through the shortcomings of traditional headlights and show greater application advantages. The purpose of this paper is to promote the wide and good application of matrix headlights by deeply studying the design of matrix headlights controlled by the controller based on artificial intelligence. This paper first introduces the concept and advantages of matrix headlights, and introduces the main algorithms of artificial intelligence in the design of controller control matrix headlights. Then, on the basis of the application design experiment, the specific design idea is explained in detail, and finally, the design method proposed in this paper is tested and analyzed. The experimental results show that compared with traditional headlamps, the energy consumption of matrix headlamps is reduced by about 16%, the regulation rate is increased by 34%, and the illumination rate is increased by 12%. The matrix headlamp designed in this paper not only effectively reduces the energy consumption of the headlamp, but also improves the regulating effect and lighting effect of the headlamp.

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Depth control for storage tank in-service inspection robot based on artificial intelligence control

Cited by 5 publications

References 9 publications

Research on spatial positioning of online inspection robots for vertical storage tanks

Research on spatial positioning of online inspection robots for vertical storage tanks

Safety Assessment of Vertical Storage Tank Based on Robot Ultrasonic Online Inspection

A Matrix Headlamp Design Based on Artificial Intelligence Controller Control

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