TY - JOUR
T1 - Rebar-tying Robot based on machine vision and coverage path planning
AU - Tan, Xinyan
AU - Xiong, Lingxuan
AU - Zhang, Weimin
AU - Zuo, Zhengqing
AU - He, Xiaohai
AU - Xu, Yi
AU - Li, Fangxing
N1 - Publisher Copyright:
© 2024 Elsevier B.V.
PY - 2024/12
Y1 - 2024/12
N2 - Automation technology can replace manual work in the traditional construction industry, improve quality and efficiency, and reduce costs. This paper developed a rebar-tying robot for tying the intersection of rebars. It proposed a Hough transform multi-segment fitting method to detect the intersections of rebars in real-time acquired RGB-D images. To cover the surface of the rebar net as much as possible under the condition of limited camera FOV, this paper designed a coverage path planning method to plan the path of the photo positions and the detected intersections of rebars efficiently and orderly. The experimental results show that the robot achieved an accuracy rate of 99.4 % in intersection detection, the detection error is within 2.8 mm, the single tying time is 1.85 s, and the average tying time is 5.5 s, which is faster than most robots. The robot realizes the task of automatically tying the intersection of rebars, which is robust and efficient, without duplication or omission.
AB - Automation technology can replace manual work in the traditional construction industry, improve quality and efficiency, and reduce costs. This paper developed a rebar-tying robot for tying the intersection of rebars. It proposed a Hough transform multi-segment fitting method to detect the intersections of rebars in real-time acquired RGB-D images. To cover the surface of the rebar net as much as possible under the condition of limited camera FOV, this paper designed a coverage path planning method to plan the path of the photo positions and the detected intersections of rebars efficiently and orderly. The experimental results show that the robot achieved an accuracy rate of 99.4 % in intersection detection, the detection error is within 2.8 mm, the single tying time is 1.85 s, and the average tying time is 5.5 s, which is faster than most robots. The robot realizes the task of automatically tying the intersection of rebars, which is robust and efficient, without duplication or omission.
KW - Coverage path planning
KW - Intersection detection
KW - Machine vision
KW - Rebar-tying robot
UR - http://www.scopus.com/inward/record.url?scp=85206175243&partnerID=8YFLogxK
U2 - 10.1016/j.robot.2024.104826
DO - 10.1016/j.robot.2024.104826
M3 - Article
AN - SCOPUS:85206175243
SN - 0921-8890
VL - 182
JO - Robotics and Autonomous Systems
JF - Robotics and Autonomous Systems
M1 - 104826
ER -