论文信息 - A laser-technology-based lifting-path tracking system for a robotic tower crane

A laser-technology-based lifting-path tracking system for a robotic tower crane

Abstract As the number of high-rise buildings increases, so does the use of tower cranes, the number of which now tops 3000 per year in Korea. Accordingly, the safety issues of high workspaces and efficiency issues of repeated work arise in the process of lifting materials to high places. As an alternative to traditional tower cranes, we are developing a robotic tower-crane system. By developing a robotic crane system, we expect the productivity to improve by 9.9%–50% based on the results of previous studies. In this study, we examine the feasibility of a laser-technology-based lifting-path tracking system for a robotic tower-crane system. There have been efforts to develop a robotic tower crane but they could travel only through preplanned paths or had blind stop problems. We proposed a robotic tower-crane system with a laser device, an encoder, and an accelerometer, and tested the feasibility of the system under indoor, outdoor, and swinging conditions. In the process, we developed a software application to receive and record data from the laser device. The test results showed the feasibility of a proposed lifting-path tracking system for a robotic tower crane under various outdoor conditions. Several limitations have been also recognized.

[1] Yusuke Yamazaki,et al. The SMART system: an integrated application of automation and information technology in production process , 1998 .

[2] Kenneth R. Goodwin. RoboCrane Construction of Bridges , 1997 .

[3] 김봉근,et al. A Study on a Method for Tracking Lifting Paths of a Tower Crane using GPS in the BIM Environment , 2008 .

[4] Bruno Siciliano,et al. Modeling and Control of Robot Manipulators , 1995 .

[5] Yehiel Rosenfeld,et al. Automation of existing cranes: from concept to prototype , 1995 .

[6] Gwang-Hee Kim,et al. Improving Tower Crane Productivity Using Wireless Technology , 2006, Comput. Aided Civ. Infrastructure Eng..

[7] Hong-Hyun Kim,et al. A Quantitative Analysis of Fatal Accidents Related to Cranes Using the FMEA Method , 2007 .

[8] John J. Craig,et al. Introduction to Robotics Mechanics and Control , 1986 .

[9] Aviad Shapira,et al. Automation of existing tower cranes : Economic and technological feasibility , 1998 .

[10] Eduardo Miranda,et al. Planning and visualization for automated robotic crane erection processes in construction , 2006 .

[11] Alexander H. Slocum,et al. CRANIUM: DEVICE FOR IMPROVING CRANE PRODUCTIVITY AND SAFETY , 1993 .

[12] 김병화,et al. Development of the Semi-Automation System for Tower Crane using Position Measuring Device and Carriage Control Algorithm , 2005 .