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991.
To give concurrent consideration both the efficiency and the security (intensity of intractable problem) in the standard model,
a chosen ciphertext secure identity-based broadcast encryption is proposed. Against the chosen ciphertext security model,
by using identity (ID) sequence and adding additional information in ciphertext, the self-adaptive chosen identity security
(the full security) and the chosen ciphertext security are gained simultaneously. The reduction of scheme’s security is the
decisional bilinear Diffie-Hellman (BDH) intractable assumption, and the proof of security shows that the proposed scheme
is indistinguishable against adaptive chosen ciphertext attacks in the standard model under the decisional BDH intractable
assumption. So the security level is improved, and it is suitable for higher security environment. 相似文献
992.
The optical rays that form the image of an object and propagate a supersonic flow over a vehicle are refracted by the density
variations. A numerical analysis of the aero-optical characteristics of supersonic flow over blunt wedge with a cavity window
is carried out. A hybrid method of Reynold averaged Navier-Stokes and direct simulation Monte Carlo (RANS/DSMC) is employed
to simulate the flowfield. Refraction factor is introduced to evaluate the flowfield’s aero-optical characteristic. The results
show that mean flow’s aero-optical effects are mainly caused by the shock wave, the expansion wave and the turbulent boundary
layer. Fluctuation flow’s aero-optical effects are mainly caused by the turbulent boundary layer and the shock wave induced
by the cavity window. The aero-optical effects at the leading side of window are caused by the mean density variations, while
the effects at the trailing side are caused by the density fluctuations. Different draft angles of the cavity window are investigated.
The airborne optical devices of supersonic vehicle should be mounted in the middle of the cavity window with a large draft
angle. 相似文献
993.
994.
Giorgio Contento Guido Lupieri Marco Venturi Tiziana Ciuffardi 《Journal of Marine Science and Technology》2011,16(2):181-201
The present study is aimed at determining the confidence limits of design wave parameters derived from numerical modeling—for
both extremes and operational conditions—over the Central and Western Mediterranean Sea. The paper presents the methodology
and results of an extensive validation activity conducted on a chain of medium-resolution third-generation wave models used
for hindcast purposes. The stringent requirements of state-of-the-art coastal and offshore engineering applications over this
area make the adoption of medium- or high-resolution hindcast wave and wind models almost mandatory because of the complex
coastal geometry, bathymetry, and orography that in turn lead to large variations of the design wave parameters even within
small regions. The chains of nested meteorological and wave models used in this hindcast study belong to the ETA and WaveWatch III
families, respectively. In this study the wind and wave numerical models have been run over the past 20 years, with increasing
resolutions of the wave models from 0.2° up to 0.04°. The results presented herein have 0.1° resolution for both wind and
wave models. The wave data obtained are compared with available measurements from 14 wave buoys in coastal zones in the Central
and Western Mediterranean Sea. 相似文献
995.
Levent Kirkayak Vinicius Aguiar de Souza Katsuyuki Suzuki Hideyuki Ando Hidetoshi Sueoka 《Journal of Marine Science and Technology》2011,16(3):354-365
It is estimated that around 10,000 containers are lost during maritime transportation every year, representing an economic
loss to the liner industry. Regulations and norms used to calculate values to secure them to the ship’s deck account for static
loads only, neglecting more realistic conditions. This paper describes an approach to simulate a two-tier scaled model of
a 20-ft ISO freight container and its linking connectors, denominated twist locks, subject to a dynamical load induced by
its base. To analyze this problem two methods were employed: a shaking table test and finite-element analysis. Results of
this study indicate that the numerical model built to simulate two-tier container stack dynamics is a promising tool for further
studies. Moreover, the model is able to predict conditions close to real situations faced by container stacks while stored
on deck. 相似文献
996.
Jinggao Li I. Kim S. Lee S. Han C. Lee S. Cheon W. Lee K. An G. Cho J. Hwang D. Mun 《Journal of Marine Science and Technology》2011,16(1):76-83
In the shipbuilding industry, different computer-aided design (CAD) systems are used for different design domains, structure, and outfitting. We need to exchange data among different CAD systems such as Tribon, AutoCAD, Intergraph or PDMS to complete the whole design and production process. There are two approaches to data exchange. One is direct translation; the other is indirect translation, which is based on a neutral format. If we use a neutral format, the data specification is open to the public and the design model can be used by other CAD systems, including next-generation CAD systems. In this paper, we propose an indirect method that uses ISO 10303 (STandard for the Exchange of Product model data) AP227 and ISO 15926 to define neutral formats. A separate ShapeDB is constructed to manage the geometry information, referenced to the catalogue data defined by ISO 15926. An experimental implementation for data exchange between Tribon and PDMS is described. 相似文献
997.
Experimental assessment of the ultimate strength of a box girder subjected to severe corrosion 总被引:1,自引:0,他引:1
The objective of this paper is to describe the experimental assessment of the ultimate strength of a severely corroded box girder subjected to a uniform bending moment resulting from four-point loading. Three box girders that could simulate the behaviour of midship sections have been deteriorated in corrosive seawater environment to simulate different levels of corrosion degradation of ageing ship structures. During the deterioration process, various parameters have been controlled and the total weight lost was registered. Corroded plate thicknesses have been measured in 212 points and a statistical analysis has been performed. The resulting corrosion wastage has been fitted by a non-linear time variant degradation model. The experimental results of the ultimate strength test of a severely corroded box girder subjected to a four-point loading have been analysed. The load-displacement and moment-curvature relationship is discussed, different failure modes are identified, and the strain gauges readings are analysed. 相似文献
998.
The experimental procedure to predict the full-scale performance of the CRP-POD propulsion system is studied. In the CRP-POD
system, the RPM ratio of the two propellers is not mechanically fixed, in contrast with conventional CRP systems. Therefore
the existing procedure for conventional CRP systems is not appropriate for evaluating the performance of each propeller. In
this paper, the characteristics of the CRP-POD system, designed for a 9,600 TEU class container carrier, are studied experimentally.
Based on this study, a procedure for propulsive performance prediction for CRP-POD propulsion ships is suggested. 相似文献
999.
Tomohiro Takai Manivannan Kandasamy Frederick Stern 《Journal of Marine Science and Technology》2011,16(4):434-447
The accurate prediction of waterjet propulsion using computational fluid dynamics (CFD) is of interest for performance analyses
of existing waterjet designs as well as for improvement and design optimization of new waterjet propulsion systems for high-speed
marine vehicles. The present work is performed for three main purposes: (1) to investigate the capability of a URANS flow
solver, CFDSHIP-IOWA, for the accurate simulation of waterjet propelled ships, including waterjet–hull interactions; (2) to
carry out detailed verification and validation (V&V) analysis; and (3) to identify optimization opportunities for intake duct
shape design. A concentrated effort is applied to V&V work and performance analysis of waterjet propelled simulations which
form the focus of this paper. The joint high speed sealift design (JHSS), which is a design concept for very large high-speed
ships operating at transit speeds of at least 36 knots using four axial flow waterjets, is selected as the initial geometry
for the current work and subsequent optimization study. For self-propelled simulations, the ship accelerates until the resistance
equals the prescribed thrust and added tow force, and converges to the self propulsion point (SPP). Quantitative V&V studies
are performed on both barehull and waterjet appended designs, with corresponding experimental fluid dynamics (EFD) data from
1/34 scale model testing. Uncertainty assessments are performed on iterative convergence and grid size. As a result, the total
resistance coefficient for the barehull case and SPP for the waterjet propelled case are validated at the average uncertainty
intervals of 7.0 and 1.1%D, respectively. Predictions of CFD computations capture the general trend of resistance over the speed range of 18–42 knots,
and show reasonable agreement with EFD with average errors of 1.8 and 8.0%D for the barehull and waterjet cases, respectively. Furthermore, results show that URANS is able to accurately predict the
major propulsion related features such as volume flow rate, inlet wake fraction, and net jet thrust with an accuracy of ~9%D. The flow feature details inside the duct and interference of the exit jets are qualitatively well-predicted as well. It
is found that there are significant losses in inlet efficiency over the speed range; hence, one objective for subsequent optimization
studies could be maximizing the inlet efficiency. Overall, the V&V work indicates that the present approach is an efficient
tool for predicting the performance of waterjet propelled JHSS ships and paves the way for future optimization work. The main
objective of the optimization will be reduction of powering requirements by increasing the inlet efficiency through modification
of intake duct shape. 相似文献
1000.
The constructive disposition of metallic and plastic layers confers flexible pipes with high and low axial stiffness respectively when tensile and compressive loads are applied. Under certain conditions typically found during deepwater installation or operation, flexible pipes may be subjected to high axial compression, sometimes accompanied by bending. If not properly designed, the structure may not be able to withstand this loading and fails. From practical experience observed offshore and in laboratory tests two principal mechanisms, which will be discussed in this paper, have been identified regarding the configuration of the armor wires. When the pipe fails by compression the armor wires may exhibit localized lateral or radial deflections, consequently permanent damage is observed in the armor wires with a sudden reduction of the structure’s axial stiffness. The pressure armor may also unlock, thus causing potential fluid leakage.In this work a finite element model is developed to estimate the critical instability load and failure modes. An axi-symmetric model is constructed employing a complex combination of beam and spring elements. For each armor layer only one wire needs to be modeled, hence the computational cost is minimized without compromising the phenomenon characterization. A parametric case study is performed for a typical flexible pipe structure, where the friction coefficient between the wire armors and the external pressure are varied, and the critical instability loads and failure modes are obtained and results are discussed. 相似文献