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李发根 《上海交通大学学报(英文版)》2008,13(6):679-683
We show that the Zhang-Yang-Zhu-Zhang identity-based authenticatable ring signcryption scheme is not secure against chosen plaintext attacks.Furthermore, we propose an improved scheme that remedies the weakness of the Zhang-Yang-Zhu-Zhang scheme.The improved scheme has shorter ciphertext size than the Zhang-Yang-Zhu-Zhang scheme.We then prove that the improved scheme satisfies confidentiality, unforgeability, anonymity and authenticatability. 相似文献
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A study on improving the course-keeping ability of a pure car carrier in windy conditions 总被引:1,自引:1,他引:0
Kazuhiko Hasegawa Donghoon Kang Masaaki Sano Vishwanath Nagarajan Makoto Yamaguchi 《Journal of Marine Science and Technology》2006,11(2):76-87
The course-keeping ability of a pure car carrier (PCC) in windy conditions is discussed in this article. Numerical simulations
of two PCCs were carried out to compare their course-keeping abilities in wind. The two PCCs had the same hull form but different
types of rudder. One PCC was fitted with a semispade rudder (hereinafter, the normal rudder), whereas the other was fitted
with a spade-type Schilling rudder (hereinafter, the Schilling rudder). Both PCCs were designed to a new concept for the accommodation
structure and hull form above the load water line. In this new design concept, there are no sharp corners in the superstructure
so as to reduce wind resistance and improve steering performance. The limits of course keeping for the two PCCs were investigated
through simulations. The course-keeping abilities of the two PCCs, each with two different types of autopilot system, were
also investigated in wind. To develop the numerical simulation, the hydrodynamic coefficients of the two PCCs were predicted
based on the data published for a third PCC having similar principal particulars. The numerical model of the two PCCs was
validated by comparing its behavior with the respective full-scale trial results. Wind resistance coefficients were predicted
by combining the results of wind tunnel experiments of the object PCCs and a regression model. Numerical simulations under
steady wind conditions were also carried out and the results compared with some full-scale experiments to validate the mathematical
model of the PCC. 相似文献
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Kazuhiko Hasegawa Donghoon Kang Masaaki Sano Kenjiro Nabeshima 《Journal of Marine Science and Technology》2006,11(2):88-99
The suitability of the Mariner type Super VecTwin rudder (hereinafter, the MSV rudder) for a large vessel is assessed in this
article. Several experiments in a maneuvering pond were carried out and their results analyzed and summarized. Free-running
tests such as turning, zigzag, and stopping tests were carried out with a 4-m free-running model of a very large crude carrier
(VLCC) ship with the MSV rudder and the Mariner rudder. The results were compared to validate the maneuverability of a VLCC-sized
a ship installed with the MSV rudder. A mathematical model of an MSV rudder is proposed for maneuvering simulation of a large
vessel. To develop a maneuvering simulation for the model ship that was used in the free-running tests, hydrodynamic coefficients
were estimated based on Kijima's regression formula. The coefficients of interaction between the hull and rudder (tR, aH, xH) were obtained from a self-propulsion test in a towing tank. The complicated flow around the rudders is simplified to model
the flow speed around the rudders. This simplified flow speed is utilized to compare the time histories of the free-running
tests with the simulations. The mathematical model of the MSV rudder was further improved using the results of this comparison. 相似文献
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Mathematical model of single-propeller twin-rudder ship 总被引:1,自引:1,他引:0
Donghoon Kang Vishwanath Nagarajan Kazuhiko Hasegawa Masaaki Sano 《Journal of Marine Science and Technology》2008,13(3):207-222
A mathematical model of a single-propeller twin-rudder ship has been developed from captive and free running model experiments.
An open water rudder experiment was carried out to figure out the characteristics of the rudder. Captive experiments in a
towing tank were carried out to figure out the performance of a single-propeller twin-rudder system on a large vessel. Interactions
between the hull, propeller and twin rudders, including mutual interactions between the twin rudders, were expressed with
several coefficients that were calculated from the experimental results at various ship speeds. In the analysis, the unique
characteristics of a single-propeller twin-rudder ship, which affects rudder forces, were explained and formulated in the
mathematical model. The captive model tests were conducted with zero ship’s yaw rate, so the interaction coefficients, which
are influenced by the yaw rate, are determined from free running model experiments. Validation of the mathematical model of
a single-propeller twin-rudder system for a blunt body ship is carried out with an independent set of free running experiments,
which were not used for determining the interaction coefficients. The validated numerical model is used for carrying out simulations.
Based on simulation results, some recommendations have been proposed for installing a single-propeller twin-rudder system. 相似文献
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