共查询到20条相似文献,搜索用时 281 毫秒
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本文分析了船舶机舱自动化技术发展趋势,针对目前船舶机舱自动化系统存在的2,结合现场总线在船舶机舱经中的应用,提出了一种新型的船舶机舱自动化系统,即现场总线式机舱监控系统。 相似文献
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机舱是船舶的操纵与控制中心,机舱内部含有柴油主机、汽轮机、船舵、操控台等设施。为了提高船舶机舱的安全性和自动化水平,研发机舱自动化报警系统成为船舶工业的研究热点。近年来,通信技术发展迅速,CAN总线通信技术在工业领域的应用越来越广泛。本文对CAN总线通信技术做了详细介绍,在传统的船舶机舱报警系统的基础上,设计了一种基于CAN总线的机舱自动化报警系统,并设计了该系统的硬件结构和软件程序。 相似文献
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依照船舶建造规范要求,用AutoCAD软件建立船舶机舱模型,利用遗传算法对船舶机舱进行优化布置,以Creator和Vega软件为平台,实现临境视觉仿真,结合人体工程学,通过虚拟人对机舱设备进行可安装可操作性评估,实现对机舱布置设计的最优目标。 相似文献
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GDI+和.NET技术在机舱自动化监控系统中的应用 总被引:1,自引:0,他引:1
利用最新的.NET技术建立了船舶机舱自动化监控系统方案,介绍了系统的基本组成、功能以及软硬件的设计和实现,并利用GDI+技术绘制机舱运行参数趋势图。本系统实现了对船舶运行状况的远程监控和故障诊断,大大提高了船舶航行的安全性和自动化水平。 相似文献
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基于无人救助艇的性能要求,重点介绍动力与控制系统选型过程和原因。该艇选择磷酸铁锂电池为电源,并采用全电力推进、远程无线遥控控制技术。该无人救助艇的应用,增添了海洋救助方式。 相似文献
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R. M. Webb
R. B. Corr
《Marine Structures》1991,4(6):533-569The environmental and structural monitoring system on Magnus tower was designed making use of experience from previous monitoring systems on West Sole, Forties and Buchan. The paper describes the measuring systems adopted together with their calibration procedures and independent checks.
The major results in terms of environmental conditions and platform response are discussed. They are compared with the Forties results and standard design procedures. Deterministic and spectral extreme conditions are considered. Where applicable, comparisons are made with other published results.
Finally, the principal conclusions of the measurement programme are presented and discussed. These refer particularly to structural dynamics, coefficients for the Morison equation and appropriate methods of application of wave loading to a deep water structure. 相似文献
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多学科设计优化研究应用现状综述 总被引:2,自引:0,他引:2
多学科设计优化是一种通过充分探索和利用系统中的相互作用的协同机制来设计复杂系统工程和子系统的方法论。综述了多学科设计优化研究和应用领域的当前进展,并针对多学科设计优化发展的两大难题——计算代价和组织复杂性,介绍了多学科设计优化的主要内容。然后分别介绍了当前处理多学科设计优化的两种方法——试验设计和多学科优化算法。船舶和海洋工程结构物设计也是一个涉及到多个学科的系统工程,然而多学科设计优化的应用却很少,因此实现船舶与海洋工程结构设计的多学科设计优化也必将具有十分广阔的前景。 相似文献
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KIMBERLY J. DRAKE MICHAEL ROBINSON PATRICK VIOLANTE SARA E. WALLACE DAVID WOODWARD 《Naval Engineers Journal》2008,120(1):41-49
The first step in implementing an intelligent ship is designing the ship intelligently. Naval ship design is becoming an interactive process where designers on different sites can work collaboratively and simultaneously, connected through virtual design environments. In this paper we introduce two such design environments. The first is an immersive, virtual reality environment enabling rapid design of ship space arrangements, exploration of Human System Integration issues, and reduced cost of test and evaluation through the use of modeling and simulation. The second is a systems engineering application capable of evaluating the benefit of spiral technology insertions, identifying areas for research and development investment, and evaluating the performance, risk, and affordability of proposed technologies in current and future ship systems, by conducting trade space analysis and optimization. Applications of these tools will be discussed. 相似文献
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