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SONG Zhi-ming KANG Feng-ju TANG Kai and CHU Yan-jun Marine College Northuxstern Polytechnical University Xi'''' an China 《船舶与海洋工程学报》2003,2(2):40-45
Realistic simulation of underwater scene is always difficult because of the special and complex vision effects in underwater space. Seabed is an important part of underwater environment. This paper describes the methods for seabed scene simulation based on OpenGL. It includes construction of fluetuant terrain based on the random sinusoidal algorithm, simulation of seabed flicker effect by means of circular texture mapping and generation of turbidity effect by using fog techniques. For the application based on the leading high level 3D development environment-Vega, underwater scene simulation is still a difficulty since there is no module for it. Based on the analysis of Vega software and the research on seabed scene simulation methods, a Vega extending module named “Underwater Space” was created through developing module class and extending lynx interface. The module class was designed through developing DLL written in C . The Lynx was extended through developing keyword configure file, GUI configure file and lynx plug-in DLL. The problem that Vega can‘t simulate underwater space, is elementarily resolved. The results show that this module is efficient, easy using, and the seabed scene images am vivid. 相似文献
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文章建立了水—沉积物—海底半空间的分层海底模型,通过仿真计算,比较了声波在海水和沉积物中接收时的传播损失差异。结果表明,在高声速海底的条件下,声波在沉积物中传播且频率较低时,传播损失较低,即低频声波更易于在沉积物中传播。 相似文献
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为有效解决汕头市苏埃通道工程遇到的海底硬岩、孤石群及高烈度抗震等技术难题,从海底隧道横断面、平面及纵断面方案进行研究。主要研究和结论如下: 1)对两管方案与三管方案进行比较,在海底硬岩处理方面,2种方案施工风险无本质区别,但两管方案可利用车道板下空间解决消防防灾问题、取消隧道联络通道设置、降低施工及抗震风险,优于三管方案; 2)从抗震、工程造价、结构受力及隧道运维等方面进行研究,发现盾构管片采用单层预制结构优于管片内置二次衬砌结构; 3)隧道平面方案需摸清海底硬岩及孤石群分布范围,结合码头、港池及锚地等控制因素综合确定; 4)隧道纵断面方案的确定,需充分考虑海底硬岩、孤石分布规律以及最小覆土、主航道规划标高、港池范围等控制因素,避开硬岩及孤石群,以减小隧道修建难度和风险。 相似文献
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箱筒型结构在海底管线防护中的应用 总被引:1,自引:0,他引:1
箱筒型结构是一种新型结构,于2003年底在天津港防波堤工程中试验成功。在积累了丰富的施工经验之后,2004年10月首次在天津临港工业区滩涂开发一期工程海底管线防护中得以应用。介绍该结构的应用情况,可为类似工程提供参考。 相似文献
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A mathematical model employed to analyze the global dynamics of a Steel Catenary Riser (SCR) taking into account the interaction with the seafloor and the effect of the soil reaction forces is established. The choice of soil model plays an important role for the dynamic behavior of SCRs. The riser has been modeled using flexible beam with large curvature and elastic foundation beam to describe the riser-soil interaction by means of realistic nonlinear load-deflection (P–y) curves. The study is made to improve an existing finite element numerical code for dynamic analysis of mooring lines and risers, known as CABLE 3D, which is based on a slender rod assumption. Effects of nonlinear seabed model on the dynamic behavior of SCRs under vessel cyclic perturbation have further been investigated and discussed using a realistic P–y curve to simulate soil deformation and resistance forces. The interaction model depends on several factors, such as soil strength, penetration depth and riser characteristics. The dynamic responses of the riser Touchdown Point (TDP) excited by vessel periodic heave motion are studied and the results are compared with those from the linear spring model. SCR has been perturbed by 10 regular sinusoidal cycles and the responses calculated by improved code show a number of features such as suction force mobilization, gradual increasing penetration depth, and gradual reduction of soil resistance at maximum penetration. The riser behavior at the touchdown zone (TDZ) depends on the riser top motion amplitude, nonlinear soil stiffness and suction force. The impact of the riser-soil interaction model on the dynamic behavior in the TDZ has been thoroughly studied in this paper. 相似文献