A Modular Cooperative Wall-Climbing Robot Based on Internal Soft Bone

Huang, Wenmei; Hu, Wei; Zou, Tao; Xiao, Junlong; Lu, Puwei; Li, Hongquan

doi:10.3390/s21227538

Cited by 2 publications

(1 citation statement)

References 29 publications

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“…Many studies have been carried out on the structural design and adsorption principles of wall-climbing robots: S. Choudhary et al designed a lightweight wall-climbing robot for glass cleaning, which uses a centrifugal impeller to generate a low-pressure zone for good adhesion on the wall surface [7]. W. K. Huang et al proposed a bionic crawling modular wall-climbing robot based on a modular design and inspired by leech peristalsis and internal soft-bone connection [8]. Environments that require large façade cleanings, such as ships and oil tanks, are more complex and have higher demands regarding robot adaptability and wall-climbing capabilities [9].…”

Section: Related Workmentioning

confidence: 99%

Façade Protrusion Recognition and Operation-Effect Inspection Methods Based on Binocular Vision for Wall-Climbing Robots

Ming

Zhan

et al. 2023

Applied Sciences

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The cleaning and maintenance of large-scale façades is a high-risk industry. Although existing wall-climbing robots can replace humans who work on façade surfaces, it is difficult for them to operate on façade protrusions due to a lack of perception of the surrounding environment. To address this problem, this paper proposes a binocular vision-based method to assist wall-climbing robots in performing autonomous rust removal and painting. The method recognizes façade protrusions through binocular vision, compares the recognition results with an established dimension database to obtain accurate information on the protrusions and then obtains parameters from the process database to guide the operation. Finally, the robot inspects the operation results and dynamically adjusts the process parameters according to the finished results, realizing closed-loop feedback for intelligent operation. The experimental results show that the You Only Look Once version 5 (YOLOv5) recognition algorithm achieves a 99.63% accuracy for façade protrusion recognition and a 93.33% accuracy for the detection of the rust removal effect using the histogram comparison method. The absolute error of the canny edge detection algorithm is less than 3 mm and the average relative error is less than 2%. This paper establishes a vision-based façade operation process with good inspection effect, which provides an effective vision solution for the automation operation of wall-climbing robots on the façade.

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Section: Related Workmentioning

confidence: 99%

Façade Protrusion Recognition and Operation-Effect Inspection Methods Based on Binocular Vision for Wall-Climbing Robots

Ming

Zhan

et al. 2023

Applied Sciences

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Any Climb: A Wall Climbing Robot for Various Curvatures

Swathi

Ganga

et al. 2022

IJARSCT

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The main objective of the proposed work is to develop a wall climbing robot, which has the ability to perform various tasks. This can be performed by controlling the 6 DC motors through the microcontroller where 4 motors are for the legs while 2 are for vertical and horizontal movements which will be controlled through the assembly program written in Embedded C. In any sloped vertical plane, aerodynamic techniques are utilised to cling the robot to the plane. Also, this robot intends to have manual and automatic communication model. Manually it is done through a mobile app to which the microcontroller is connected through an ESP8266 Wi-Fi module. The alternate way to control the model is through the program code where the path as well as time is preset. This paper covers both the electrical and mechanical aspects of the project.

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A Modular Cooperative Wall-Climbing Robot Based on Internal Soft Bone

Cited by 2 publications

References 29 publications

Façade Protrusion Recognition and Operation-Effect Inspection Methods Based on Binocular Vision for Wall-Climbing Robots

Façade Protrusion Recognition and Operation-Effect Inspection Methods Based on Binocular Vision for Wall-Climbing Robots

Any Climb: A Wall Climbing Robot for Various Curvatures

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