[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.3744/JNAOE.2010.2.3.171

Application of Sensor Technology for the Efficient Positioningand Assembling of Ship Blocks

Lee, Sang-Don (Department of Multimedia Engineering, Mokpo National University)
Eun, Seong-Bae (Department of Information Communication Engineering, Hannam University)
Jung, Jai-Jin (Department of multimedia Engineering, Dankook University)
Song, Ha-Cheol (Department of Naval Architecture and Marine Engineering, Mokpo National University)

Publication Information

International Journal of Naval Architecture and Ocean Engineering / v.2, no.3, 2010 , pp. 171-176 More about this Journal

Abstract

This paper proposes the application of sensor technology to assemble ship blocks efficiently. A sensor-based monitoring system is designed and implemented to improve shipbuilding productivity by reducing the labor cost for the adjustment of adequate positioning between ship blocks during pre-erection or erection stage. For the real-time remote monitoring of relative distances between two ship blocks, sensor nodes are applied to measure the distances between corresponding target points on the blocks. Highly precise positioning data can be transferred to a monitoring server via wireless network, and analyzed to support the decision making which needs to determine the next construction process; further adjustment or seam welding between the ship blocks. The developed system is expected to put to practical use, and increase the productivity during ship blocks assembly.

Keywords

Sensor technology; Remote monitoring; Ship block; Block positioning; Pre-erection/Erection stage;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)
Times Cited By Web Of Science : 0 (Related Records In Web of Science)

Reference
Cited By KSCI

1	Priyantha, NB.Chakraborty, A. and Balakrishnan, H., 2000. The Cricket Location-support system. Proc. of the Sixth Annual ACM International Conference on Mobile Computing and Networking (MOBICOM), pp.32-43.
2	Want, R. Hopper, A. Falcao,V. and Gibbons, J., 1992. The Active Badge Location System. ACM Transactions on Information Systems, 10(1), pp.91-102. DOI
3	Hightower, J. and Borriello, G., 2001b. Location Sensing Techniques. Technical Report UW-CSE-01-07-01,University of Washington.
4	Hightower, J. and Borriello, G., 2001c. Location systems for ubiquitous computing, Computer, 34(8), IEEE Computer Society Press.
5	Kang, Y. Choi, H. Kim, H. Hong, S. and Park, J., 2008. Strategy to Implement RFID in the Marine Equipment Distribution Center. Korea Society of IT Services Journal, 7(1), pp.219-235. 과학기술학회마을
6	Lee, S, 2009. Sensor-based Remote Monitoring for Ship Block Assembly. Journal of Korea Content, 9(1),pp. 73-80. 과학기술학회마을 DOI
7	Nicolescu, D. and Nath, B., 2001. Ad-Hoc Positioning Systems(APS). Proceedings of IEEE GLOBECOM, pp. 2926-2931.
8	Fox, D. Burgard, W. Dellaert, F. and Thrun, S., 1999. Monte Carlo Localization: Efficient Position Estimation for Mobile Robots. Proc. of AAAI, pp.343-349.
9	Gutmann, J.-S. Burgard, W. Fox, D. and Konolige, K., 1998. An Experimental Comparison of Localization Method. Proceedings of Intelligent Robots and Systems, pp.736-743.
10	Han, K. ed., 2006. A Study on Enhancing Precision for Mid and Small size Ship Block Assembly. Final Report of Regional Industry Promotion & Development Research, Ministry of Commerce, Industry and Energy.
11	Hightower, J. and Borriello, G., 2001a. A Survey and Taxonomy of Location Systems for Ubiquitous Computing. Technical Report UW-CSE-01-08-03, University of Washington.
12	Bahl, P. and Padmanabhan, V.N., RADAR: 2000. An In-Building RF-based User Location and Tracking System. Proc. IEEE INFOCOM, pp.775-784.