Robotic automation system for steel beam assembly in building construction

In building construction, steel beam assembly has been considered as one of the most dangerous manual operations. In this paper, applying robotic technologies to the steel beam assembly task is discussed. Employing the robotic systems to automate such construction tasks gives the following advantage...

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Hauptverfasser:	Baeksuk Chu, Kyungmo Jung, Youngsu Chu, Daehie Hong, Myo-Taeg Lim, Shinsuk Park, Yongkwun Lee, Sung-Uk Lee, Min Chul Kim, Kang Ho Ko
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Assembly systems bolting building construction Buildings construction robot Control systems Man machine systems Manipulators Mobile robots Robotic assembly Robotics and automation Steel steel beam assembly Structural beams
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creator	Baeksuk Chu Kyungmo Jung Youngsu Chu Daehie Hong Myo-Taeg Lim Shinsuk Park Yongkwun Lee Sung-Uk Lee Min Chul Kim Kang Ho Ko
description	In building construction, steel beam assembly has been considered as one of the most dangerous manual operations. In this paper, applying robotic technologies to the steel beam assembly task is discussed. Employing the robotic systems to automate such construction tasks gives the following advantages: saving construction time and cost, enhancing operator's safety, and improving overall quality. The automated robotic assembly system presented in the paper consists of a robotic bolting device, a robotic mobile mechanism, and a bolting control system including human-machine interface. The robotic bolting device, which includes a bolting end-effector and a robotic manipulator, performs actual bolting operation. Utilizing the robotic mobile mechanism composed of a rail sliding boom mechanism and a scissors-jack type mobile manipulator, the robotic assembly system can be transported to a target position for bolting operation. The bolting control system plays a role of safely and efficiently operating the robotic assembly system employing a hole recognition system based on vision technology and a haptic based HMI (Human-Machine Interface) system. This paper includes the major components of the entire robot system that have been built and the future plans to integrate them.
doi_str_mv	10.1109/ICARA.2000.4803937
format	Conference Proceeding
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In this paper, applying robotic technologies to the steel beam assembly task is discussed. Employing the robotic systems to automate such construction tasks gives the following advantages: saving construction time and cost, enhancing operator's safety, and improving overall quality. The automated robotic assembly system presented in the paper consists of a robotic bolting device, a robotic mobile mechanism, and a bolting control system including human-machine interface. The robotic bolting device, which includes a bolting end-effector and a robotic manipulator, performs actual bolting operation. Utilizing the robotic mobile mechanism composed of a rail sliding boom mechanism and a scissors-jack type mobile manipulator, the robotic assembly system can be transported to a target position for bolting operation. The bolting control system plays a role of safely and efficiently operating the robotic assembly system employing a hole recognition system based on vision technology and a haptic based HMI (Human-Machine Interface) system. 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In this paper, applying robotic technologies to the steel beam assembly task is discussed. Employing the robotic systems to automate such construction tasks gives the following advantages: saving construction time and cost, enhancing operator's safety, and improving overall quality. The automated robotic assembly system presented in the paper consists of a robotic bolting device, a robotic mobile mechanism, and a bolting control system including human-machine interface. The robotic bolting device, which includes a bolting end-effector and a robotic manipulator, performs actual bolting operation. Utilizing the robotic mobile mechanism composed of a rail sliding boom mechanism and a scissors-jack type mobile manipulator, the robotic assembly system can be transported to a target position for bolting operation. The bolting control system plays a role of safely and efficiently operating the robotic assembly system employing a hole recognition system based on vision technology and a haptic based HMI (Human-Machine Interface) system. This paper includes the major components of the entire robot system that have been built and the future plans to integrate them.</abstract><pub>IEEE</pub><doi>10.1109/ICARA.2000.4803937</doi><tpages>6</tpages></addata></record>
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identifier	ISBN: 9781424427123
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Assembly systems bolting building construction Buildings construction robot Control systems Man machine systems Manipulators Mobile robots Robotic assembly Robotics and automation Steel steel beam assembly Structural beams
title	Robotic automation system for steel beam assembly in building construction
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