共查询到18条相似文献,搜索用时 171 毫秒
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本文对具有动力定位深海采矿船高海情下的运动响应及运动特性开展研究。针对具有6个推进器构成的动力定位系统,考虑高海情及空载和满载两种典型工况,基于推力最小和运动最小条件,应用卡尔曼滤波器结合线性二次型最优控制理论的控制算法优化推力,进行动力定位系统的参数整定,实时优化调整推力的方向和大小,计算采矿船高海情下的运动和推力的时间历程响应和分析运动特性。经计算,得到了深海采矿船空载和满载工况在高海情下实施海上定位的浪向及需要的推力大小,确定了采矿船动力定位系统在高海情下的适应性,评估了高海情下深海采矿船的定位能力。 相似文献
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为研究系泊状态下动力定位船舶与码头及缆绳间的耦合作用,采取凝集质量法计算系泊缆索有效张力,设置弹簧阻尼单元用以计算码头碰垫间的非线性反力,应用比例-积分-微分控制系统(PID)进行推力控制。在系泊状态下,以动力定位船舶和无动力定位船舶为研究对象,分析了耦合系统中侧推器对消除因一阶波浪载荷而引起的船舶运动影响的作用;针对动力定位船舶,讨论了码头-缆绳及目标位置两个因素对动力定位船舶的定位能力及侧推器性能的影响。结果表明,在选取合理目标位置的情况下,耦合系统中的侧推器性能及动力定位船舶的定位能力均得到了有效提高。 相似文献
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船舶动力定位系统的预测模糊控制 总被引:1,自引:0,他引:1
在船舶动力定位中采用预测模糊控制策略,即通过自校正滤波与Kalm an 滤波得到系统低频运动位置偏差与相应速度的预测值作为模糊控制器的输入,以实现对其在水平面内的运动控制。因为基于系统模型的滤波器输出最终是经模糊化后输入至模糊控制器的,于是可大大降低对系统建模的精度要求,控制器本身具有强的鲁棒性。仿真结果说明了该策略的可行性及良好的控制性能。 相似文献
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锚泊辅助动力定位系统是一种将锚泊定位与动力定位结合起来的新型定位方式。对该系统的艏向控制模式进行了研究。在该模式下,控制系统将只对平台的艏向运动施加约束。同时对平台在该模式下的定位进行了时域模拟,并与锚泊定位和水平面三自由度均施加约束的全定位模式进行了对比。结果表明,在一般海况下,相比锚泊定位,该定位模式能显著提高平台的艏摇控制精度;相比全定位模式,该定位模式消耗的功率更小、更经济。艏向控制模式是锚泊辅助动力定位系统的一种工作模式,在相应海况条件下采取该定位模式,能够实现精确和经济的定位。 相似文献
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全驱动船舶轨迹跟踪初始位置影响分析 总被引:1,自引:0,他引:1
船舶轨迹跟踪属于广义上的船舶动力定位,具体来说是船舶在规定的时间内,通过轨迹跟踪系统的控制到达原本设定的位置。以某一全驱动船舶为例,分别对预定轨迹为直线和圆进行船舶轨迹跟踪时域模拟研究,通过分析船舶时域模拟轨迹与预设轨迹的水平位置偏差与艏向角偏差研究轨迹跟踪精度,并分析船舶初始位置对轨迹跟踪的影响。研究表明,船舶初始水平位置偏离设定轨迹起点越大,船舶调整至轨迹的时间越长,但最终能回到预设轨迹上;船舶初始艏向如偏离过大,会导致船舶远离预设轨迹。在实际工程应用中,可利用动力定位将船舶定位至轨迹跟踪起点,调整船舶艏向,再开始轨迹跟踪。 相似文献
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随着船舶推进技术的不断发展,动力定位船舶将更多地使用快速转向推进器以提高其定位性能。快速转向推进器的使用将引入大角度变化率,这会造成优化分配求解域明显的非凸性,给优化问题的求解带来了挑战。针对装备快速转向推进器的动力定位船舶,运用区域外切近似法对其推力分配的非凸性问题进行了凸化,采用增广拉格朗日乘子法对控制力进行了优化分配。仿真结果表明:推荐的凸化处理方法能有效地解决推力分配的非凸问题,分配算法可以充分利用快速转向推进器的机械性能优势,寻找更优的可行解,从而显著地减少动力定位船舶的能耗,提高其定位性能。 相似文献
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动力定位系统发展状况及研究方法 总被引:21,自引:2,他引:21
动力定位系统(Dynamic Positioning System)是一种闭环的控制系统,其采用推力器来提供抵抗风、浪、流等作用在船上的环境力,从而使船尽可能地保持在海平面上要求的位置上,其定位成本不会随着水深增加而增加,并且操作也比较方便。本文对动力定位系统发展及各组成部分进行了介绍,以期对动力定位系统有个比较完整的认识。 相似文献
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An offshore vessel with a dynamic positioning system (DP system) needs fast response to produce thrust to counteract the environmental forces acting on it for the purpose of maintaining its position and heading as close as possible to the working position. Therefore, quick and effective modulation of the thrust is the problem to determine the thrust and the rotation angle of the thruster devices of the ship. This paper presents an effective optimum control for a thruster system, using the sequential quadratic method to achieve economical and effective modulation of the thrust and the direction of the thruster. An optimum control study of a 2280 tons DP coring vessel with five rotary azimuth thruster marine positioning is studied in detail, which can quickly and exactly estimate the thrusts and angles of direction of all the thrusters. The results can provide a valuable thruster system for a dynamically positioned vessel. 相似文献
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Dynamic positioning (DP) is an operation method whereby the position of a surface vessel is maintained in close proximity to a required position in the horizontal plane through the controlled application of forces and moments generated by purposely installed thrusters. When estimating thrust, this kind of conventional control system often uses many acceleration sensors, velocity sensors, environment sensors, and filters. Usually, these sensors have measured electrical errors. To reduce the number of sensors used and to decrease the measurement errors, this article presents an effective control system for estimating thrust and moment commands, which is based on energy and impulsemomentum principles. Donha and Brinati's example is followed to verify the feasibility of the present control system, which performs semisubmersible platform positioning using an LQG controller, and the results are feasible and economical. A simulated coring vessel marine positioning in southern Taiwan is presented, which can estimate the counterthrust and moment commands, and the complex environmental forces and moments are described. The results can provide a valuable control system for dynamically positioned vessels. 相似文献
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Dynamic positioning (DP) is an operation method whereby the position of a surface vessel is maintained in close proximity to a required position in the horizontal plane through the controlled application of forces and moments generated by purposely installed thrusters. When estimating thrust, this kind of conventional control system often uses many acceleration sensors, velocity sensors, environment sensors, and filters. Usually, these sensors have measured electrical errors. To reduce the number of sensors used and to decrease the measurement errors, this article presents an effective control system for estimating thrust and moment commands, which is based on energy and impulsemomentum principles. Donha and Brinati's example is followed to verify the feasibility of the present control system, which performs semisubmersible platform positioning using an LQG controller, and the results are feasible and economical. A simulated coring vessel marine positioning in southern Taiwan is presented, which can estimate the counterthrust and moment commands, and the complex environmental forces and moments are described. The results can provide a valuable control system for dynamically positioned vessels. 相似文献
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This paper develops an adaptive fuzzy controller for the dynamic positioning (DP) system of vessels with unknown dynamic model parameters and unknown time-varying environmental disturbances. The controller is designed by combining the adaptive fuzzy system with the vectorial backstepping method. An adaptive fuzzy system is employed to approximate the uncertain term induced by unknown dynamic model parameters and unknown time-varying environmental disturbances. It is theoretically proved that the proposed adaptive fuzzy DP controller can make the vessel be maintained at the desired values of its position and heading with arbitrary accuracy, while guaranteeing the uniform ultimate boundedness of all signals in the closed-loop DP control system of vessels. Simulation studies with comparisons on a supply vessel are carried out, and the results illustrate the effectiveness of the proposed control scheme. 相似文献
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针对海洋测量水下拖曳设备位置确定问题,综合考虑拖缆受力、海流影响以及水下拖体的运动性质,建立了水下拖曳设备的位置计算模型,并仿真计算分析了测量船在不同航行状态下拖曳设备位置确定的规律,探讨了不同海流效应对拖曳设备位置确定的影响。仿真计算结果表明,在海洋动态环境作用下,拖缆各方向的偏移明显呈曲线形状,非简单几何运算所确定。测船各方向的运动均可对水下拖体的位置在相应方向产生一定影响,而水下拖体位置的变化量小于测船拖点位置的变化量。海流对水下拖曳设备定位可造成数米的偏差,需进行相应改正。建议可考虑采取船载式ADCP实时测流辅助水下拖曳设备定位的工作模式。 相似文献
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Cho-Chung Liang 《Marine Geodesy》1999,22(1):19-30
The underwater position of the beacon determined using the conventional mode of the short-baseline acoustic positioning system (SBL system) is usually incorrect due to the inaccuracy of underwater-measured sound speed, which is affected by the environment. This article presents a corrected mode of SBL system to offer a precise solution for the underwater beacon position. The corrected mode using the formulation of Euclidean geometry converges quickly and efficiently, obtaining the precise position of the beacon. Finally, a simulation of coring missions of a vessel is presented to verify the accuracy of the corrected mode of the SBL system. 相似文献
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A low cost range-range acoustic positioning system using modified "off-the-shelf" components was developed for use with small manned submarines. Range information is displayed for the submarine pilot and relayed to a microcomputer aboard the surface support vessel. Software developed for the surface-vessel positioning also plots, displays, and records the submarine position. This system was successfully used to navigate the submarine "Porpoise" during search operations off the Rhode Island coast. 相似文献