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Quantitative Determination of Port VTMS Levels

Published online by Cambridge University Press:  21 October 2009

Qiu Zhixiong
Affiliation:
(Jimei Navigation Institute)

Abstract

In this paper, a quantitative study is made of the determination of the level of a vessel traffic management system (VTMS) in a port. Also established is a mathematical model, which conforms to the actual situation in Chinese ports and which takes account of the ideas contributed by experts in relevant fields. With the help of the model, the port needs for VTMS are evaluated in a comprehensive and objective way, the overall levels of VTMS are determined and their corresponding standards set. A computer simulation verification has proven the effectiveness of the model.

Type
Research Article
Copyright
Copyright © The Royal Institute of Navigation 1992

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References

REFERENCES

1 The Chinese Institute of Navigation (1986). Recommended Report of the Total Plan of the Establishment of Port VTMS in China.Google Scholar
2Wu, Zhaolin (1986). A Survey of Marine Traffic Engineering. Dalian Marine University.Google Scholar
3Qiu, Zhixiong (1988). A Study of the Determination of Port VTMS Levels and the Synthetic Evaluation of Ports VTMS Needs. Dalian Marine University.Google Scholar
4Saaty, T. L. (1980). The Analytic Hierarchy Process. McGraw-Hill, New York.Google Scholar
5Wang, Peizhuang (1983). Fuzzy Sets and Application.Shanghai Science Press.Google Scholar
6Xu, Haodong and Cai, Guangyan (1983). Application of fuzzy mathematics in comprehensive evaluation of chemical fibre process. Fuzzy Mathematics, no. 1.Google Scholar
7Fujii, Y. (1981). Marine Traffic Engineering. Japan, ISBN 4-303-23401-x.Google Scholar
8Dexdek, , James, C. (1981). Pattern Recognition with Fuzzy Objective Function Algorithms Plenum Press, New York.Google Scholar
9U.S.C.G. Study Report (1973). Vessel Traffic Systems and Analysis of Port Needs. Department of Transportation, U.S.C.G., Washington.Google Scholar
10 Cost-301 Final Report (1986). Assessment Methods and Results. Easams Limited.Google Scholar