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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 748With DGPS-RTK Terminal Yard Cranes Real-Time...

With DGPS-RTK Terminal Yard Cranes Real-Time Operating System

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Abstract:

This paper introduces the intelligent controlling solution of Yard Cranes (YCs, RTG) in the container terminal production process. The Computing, Communication and Controlling Technology (CCCT) play the important role in this port equipment rebuilding. The Terminal Yard Cranes Real-time Operating System (CYCROS) is able to solve the running trail yaw and working loose problems etc. The framework of Real-time Operating System and DGPS-RTK work principle in the solution as well as application case in Tianjin port are showed in this article.

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Material and Manufacturing Technology IV

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Periodical:

Advanced Materials Research (Volume 748)

Pages:

815-819

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.748.815

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Online since:

August 2013

Authors:

Wei Zhu Zhong, Ya Ping Wang, Rong Sheng Lv

Keywords:

Container Terminal, DGPS-RTK, Real-Time Control, Yard Cranes

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] Theo E. Notteboom, Container Shipping And Ports: An Overview, Review of Network Economics, Vol.3, Issue 2, 2004, pp.86-106.

[2] Zhen Hong, Conception of fourth generation port and implementation methods, Journal of Traffic and Transportation engineering, Vol. 5 No. 4, 2005. pp.90-95.

[3] Jang-Rim Choi, Making a difference to container Terminal Operating System, [J]. International Port Technology, 2003, pp.69-73.

[4] Chen Maoyuan, Container Terminal Business Management, Publication of Dalian Maritime University, ISBN 7-5632-1217-5, 2004.

[5] Phoenix New Media Inc, HangKang, October 15, 2010 http://news.ifeng.com/gundong/detail_2010_10/15/2794191_0.shtml

[6] Sha Mei, Overview of research on modeling and simulation of container terminal logistics system, Journal of Shanghai Maritime University, Vol. 26 No. 1, 2005, pp.6-12.

[7] Vis I., De Koster, The Transhipment of Containers at a Container Terminal: An overview, [J]. European Journal of Operational Research, Vol. 147, 2003, pp.1-16.

DOI: 10.1016/s0377-2217(02)00293-x

[8] J. A. Fax, Information flow and cooperative control of vehicle formations. [C]. Proceedings of 15th IFAC Conference, 2002, pp.283-288.

[9] Richard M. Murray, Future Directions in Control, Dynamics, and Systems: Overview, Grand Challenges, and New Courses, [J]. Journal of Control in European, 9(2), 2003, pp.144-158.

DOI: 10.3166/ejc.9.144-158

[10] Zhong Weizhu, Study on Integrated CCCT and Container Terminal Production DPS, journal of WUHAN University of Technology (Transportation and Engineering), Vol.31 No. 5, 2007, pp.857-859.

[11] Zhong Weizhu, Liu Zhenpeng etal. Developing Stratagem: Container Port Logistics MIS Model, Proceedings the First International conference on Logistics Strategy for Ports. Dalian Maritime University, 2004.pp.730-736.

[12] Zhan yue-dong, Mordeling and Simulation Research of Material Handling Automatic System Based on Petri, [J]. Journal of System Simulation, Vol 13, No. 4, 2001, pp.501-506.

[13] Zhong Weizhu, the Applying of WLAN communication technology in Operating Environment of container port. [J]. Journal of Tianjin Institute of Technology, Vol.17, No.3, 2001, pp.95-99.

[14] Zhong Weizhu, the Application of 2S (GIS+GPS) Technology in Container Port Logistics. Proceeding of FIC of Integrated Logistics. NanYang University, Singapore. 2001, pp.277-280.

[15] Richard Linn, Rubber tired gantry crane deployment for container yard operation, [J]. Computers and Industrial Engineering, Volume 45, Issue 3, 2003, p.429 – 442.

DOI: 10.1016/s0360-8352(03)00046-9

[16] Zhong Weizhu, The Design and Implementation of Container Terminal Logistics Control System, journal of WUHAN University of Technology (Transportation and Engineering), Vol.30 No.3, 2006. p.585 – 596.