共查询到19条相似文献,搜索用时 140 毫秒
1.
航行体近水面航行时会引起周围流场中流体的惯性运动,动能会随波浪扩散而耗散,航行体近水面运动时固有周期和幅值衰减率受水的影响可以用附加质量和阻尼系数描述。运用计算流体力学软件 STAR-CCM+开展航行体近水面自由横摇与纵摇衰减运动的数值仿真,根据不同初始角度条件下仿真得到的自由衰减时历曲线,分别计算横摇与纵摇的附加质量与阻尼系数,并结合实际运动情况,对不同初始角度条件下附加质量与阻尼系数的变化成因分别进行分析。 相似文献
2.
为防止水下航行体攻击水面舰艇,提高水面舰艇的防御和生存能力,根据尾流自导水下航行体的攻击特性,在舰艇尾流后方布撒拦截网是直接、有效的对抗手段之一.为了深入了解水下航行体触网关联体的运动特性,通过建立水下航行体触网关联体仿真运动模型,得到了水下航行体在不同触网位置下关联体的运动状态变化规律.结果表明:1)水下航行体触网后... 相似文献
3.
刘超维 《数字海洋与水下攻防》2021,4(4):328-333
为了探究航行器在跨介质过程中的动力学响应,基于任意拉格朗日-欧拉(ALE)方法建立航行器跨介质数值计算模型,仿真分析了不同初始参数对航行器跨介质冲击载荷的影响规律,给出了最大冲击载荷与跨介质速度与跨介质角度之前的函数关系。研究结果可为航行器跨介质弹道及结构设计提供参考。 相似文献
4.
潜空跨介质无人航行器作为一种能够同时完成水中、空中作业任务的航行器,已成为当前的研究热点。简要介绍了一些关于潜空跨介质航行器的研究成果,以及不同设计思路的原理样机。该类航行器无论是在科学调查或军事上均有广阔的应用前景,但其研制过程也充满各类难点与挑战,当前的技术水平尚无能完成实际作业任务的样机。为此,探讨了潜空跨介质航行器的研制可能遇到的各类难点问题。 相似文献
5.
当安装于水下航行体上的旋转装置质量或转动惯量达到一定程度时,其对水下航行体运动与操纵的影响是不可忽略的。针对安装于水下航行体上的旋转装置,分析了水下航行体运动时装置的陀螺效应。得出了旋转装置陀螺力的明确数学方程。不失方法的一般性,假设旋转装置只在运动坐标系的X轴方向有旋转角速度,推导了在考虑陀螺效应作用的情况下水下航行体的六自由度模型方程;以此为基础,建立了水下航行体的仿真模型并对水下航行体的水下运动特性进行了仿真,分析了旋转装置的质量、角速度对水下航行体运动特性的影响规律,从而为研究在考虑陀螺效应情况下的水下航行体操纵奠定了基础。 相似文献
6.
掌握衡重参数对水下航行体机动特性影响对结构布局与总体方案设计极有帮助。针对铅垂面机动问题,建立了经过试验验证的回转外形航行体水下运动动力学模型,获得了不同衡重参数匹配关系下的机动弹道特性,分析了衡重参数及控制策略对机动性能的影响规律。研究发现,综合考虑机动方向等因素利用重力矩增大可用舵角是改善机动特性的关键。对铅垂面内向上机动,使质心位于浮心后方较远处,配合短时无控策略能够显著提升机动性能。 相似文献
7.
凸体作为水下航行器表面的一种常见附体结构,其产生的涡流噪声对搭载在水下航行器上的声学仪器的信号精度有非常重要的影响。在马赫数为0.004 8条件下,采用LES-Lighthill等效声源法对三维方形凸体的流场及声场进行仿真,形象地再现了凸体周围涡旋运动变化规律,分析了涡流流动机制及辐射噪声特征。通过正交试验设计,以噪声最小为目标,优化了三维方形凸体结构参数。研究成果为水下航行器附体结构的设计提供了依据。 相似文献
8.
《中国海洋大学学报(自然科学版)》2017,(6)
针对近水面航行的欠驱动自主水下航行器(AUV),研究了其波浪力作用下的航向控制问题。首先,利用局部微分同胚将AUV非线性系统转换为Brunovsky标准型系统;其次,基于波浪力的Morison方程给出了波浪力干扰外系统模型;然后,根据最优控制理论,基于二次型性能指标设计欠驱动AUV系统的前馈反馈最优扰动抑制控制律,并通过求解Riccati方程和矩阵方程获得。最后,通过AUV系统仿真实例验证了该方法的有效性。 相似文献
9.
李蹬珺 《数字海洋与水下攻防》2020,3(5):431-436
空投航行体入水弹道控制问题一直是空投航行体研究的重点,针对空投航行体入水弹道控制问题,建立了航行体的六自由度非线性动力学和运动学模型;根据入水弹道对姿态控制的要求,通过设计基于PID控制三通道姿态控制策略解决其入水控制问题,并且通过MATLAB进行仿真验证。结果表明:在不同的初始入水条件下,本文研究的控制策略都能够较好地对航行体入水深度及姿态进行控制,具有一定的实际应用价值。 相似文献
10.
《中国海洋大学学报(自然科学版)》2021,(8)
作为自动水面航行器的重要分支之一,自动航行帆船在执行长期海事任务时具有低能耗的优势,但其航行过程受到环境因素的影响很大。针对以上情况,本文考虑了自动帆船的自身运动模型,以及在航行时受到的海风、海流和障碍物的影响,提出了自动帆船从起始点至目标点的路径规划算法。该算法通过帆船的平面运动模型来计算环境因素的影响,再通过强化学习中的Q-learning算法实现对于海上两点间的路径规划并同时实现规避障碍物。通过仿真实验证明了本文提出的自动航行帆船的路径规划算法是可行的。 相似文献
11.
This paper presents a theoretic implementation method of Morphing Unmanned Submersible Aerial Vehicle (MUSAV), which can both submerge in the water and fly in the air. Two different shapes are put forward so that the vehicle can suit both submergence and flight, considering the tremendous differences between hydrodynamic configuration and aerodynamic configuration of a vehicle. The transition of the two shapes can be achieved by using morphing technology. The water-to-air process, including water-exit, morphing, take-off and steady flight, is analyzed. The hydrodynamic and aerodynamic model of the vehicle exiting the water surface obliquely and then taking off into the air has been founded. The control strategy after morphing is analyzed and the control method is given. Numerical method is used to validate the motion model of the water-exit process. Results of simulations show the validity of the proposed model and the feasibility of MUSAV in theory. 相似文献
12.
摆动尾鳍水动力性能的试验和数值研究 总被引:1,自引:0,他引:1
鱼类能够在水下高速度、低噪音、高效率地游动。鱼类出色的推进性能通过其摆动尾鳍实现。这种摆动尾鳍推进方式已经用在了水下无人航行器上。因此研究摆动尾鳍的水动力性能是非常有意义的。对摆动尾鳍的推进水动力性能进行了详尽的研究。设计、装配了一套仿尾鳍推进系统,并对其进行了相应的水动力试验。在试验中研究了运动参数对摆动尾鳍水动力性能的影响。与此同时,采用基于雷诺平均N-S方程的数值方法对摆动尾鳍的水动力性能进行了研究。在数值计算中采用了k-ωSST湍流模型和有限体积法。数值计算结果和水动力试验结果进行了比较。对尾鳍表面的压力分布和流场中的尾涡结构进行了分析。水动力试验和数值计算都表明摆动尾鳍可以产生推进力和较高的推进效率。 相似文献
13.
以载人深潜器的各种水动力参数和实际尺寸为基础,根据几何空间坐标方程建立了其运动学模型,采用MultiGen公司的Creator建模工具和Vega视景环境完成了在深海虚拟环境下的系统仿真。该系统可以实现深海机器人的可视化,更加直观、生动和实时的反映其位姿状态和水面、水下巡航过程。该系统实际应用在中国科学技术馆深海机器人展馆项目上,一方面展示载人深潜器的水下工作过程,同时也使得观众有机会亲身体验潜水器的操纵与驾驶。实际运行结果表明,该系统逼真地演示了载人深潜器水面备航、无动力下潜以及近海底巡航等仿真过程,能够满足系统仿真的实时性要求。该系统还可以应用到深海环境模拟研究、水下机器人运动仿真、控制系统调试以及操纵驾驶训练等中。 相似文献
14.
O. SaoutP. Ananthakrishnan 《Applied Ocean Research》2011,33(2):158-167
A theoretical methodology to determine the open-loop directional stability of a near-surface underwater vehicle is presented. It involves a solution of coupled sway and yaw equations of motion in a manner similar to that carried out for surface ships. The stability derivatives are obtained numerically through simulation of motions corresponding to planar motion mechanism (PMM) model tests. For the numerical simulation, a boundary-integral method based on the mixed Lagrangian-Eulerian formulation is developed. The free-surface effect on the vehicle stability is determined by comparing the results with that obtained for vehicle motion in infinite fluid. The methodology was used to determine the stability of the Florida Atlantic University’s Ocean EXplorer (OEX) AUV. The presence of the free surface, through radiation damping, is found to suppress unsteady oscillations and thereby enhance the directional stability of the vehicle. With effects of free surface, forward speed, location and geometry of rudders, location of the center of gravity etc. all being significant factors affecting stability, a general conclusion cannot be drawn on their combined effect on the vehicle stability. The present computational methodology is therefore a useful tool to determine an underwater vehicle’s stability for a given configuration and thus the viability of an intended mission a priori. 相似文献
15.
Przemysław Herman 《Ocean Engineering》2009,36(6-7):529-534
A set-point controller for autonomous underwater vehicles (AUVs) is proposed in this paper. The controller is expressed in transformed equations of motion with a diagonal inertia matrix. It takes into account the dynamics of the system and it can be applied for fully actuated AUVs. The stability of the designed control law is demonstrated by means of a Lyapunov-based argument. Some advantages arising from the use of the controller are considered too. The performance of the proposed controller is validated via simulation on a 6-DOF underwater vehicle. 相似文献
16.
A Variable Buoyancy Control System for a Large AUV 总被引:1,自引:0,他引:1
A large autonomous undersea vehicle (AUV), the Seahorse, has been designed, constructed, and tested by the Applied Research Laboratory at Pennsylvania State University (ARL/PSU, University Park, PA) for the U.S. Naval Oceanographic Office (NAVOCEANO, Stennis Space Center, MS). The vehicle is required to launch in shallow water (<10 m) and to hover without propulsion. Additionally, due to the very large size of the vehicle, low operating speeds and very long missions, small changes in vehicle trim resulting from battery replacement, sensor exchanges, and water temperature variations can result in significant drag-induced energy penalties over the duration of a mission. It is, therefore, important to continually maintain the AUV in fore-aft trim over the course of the mission. The vehicle is equipped with a two tank variable buoyancy system (VBS) to meet these requirements. The resulting control problem is one where the control variable, pump rate, is proportional to the third derivative of the sensed variable, depth; there are significant delays, and forces are nonlinear (including discontinuous) and highly uncertain. This paper describes the design of the VBS and the control software operating in two modes: depth control mode and trim control mode. In-water test data and simulation results are presented to illustrate the performance of the VBS controller. The benefits of the presented approach lie in the intuitiveness and simplicity of the design and the robustness as evidenced by the performance in both fresh and salt water. This paper provides practical insight into the operation of a VBS with an AUV and discusses actual operational experience. To our knowledge, no previous work considers the significance of an observed surface capture phenomenon to the design of a VBS control system, especially in very shallow water. 相似文献
17.
This paper describes the estimation of hydrodynamic coefficients and the control algorithm based on a nonlinear mathematical modeling for a test bed autonomous underwater vehicle (AUV) named by SNUUV I (Seoul National University Underwater Vehicle I).A six degree of freedom mathematical model for SNUUV I is derived with linear and nonlinear hydrodynamic coefficients, which are estimated with the help of a potential code and also the system identification using multi-variable regression.A navigation algorithm is developed using three ranging sonars, pressure sensor and two inclinometers keeping towing tank applications in mind. Based on the mathematical model, a simulation program using a model-based control algorithm is designed for heading control and wall following control of SNUUV I.It is demonstrated numerically that the navigation system together with controller guides the vehicle to follow the desired heading and path with a sufficient accuracy. Therefore the model-based control algorithm can be designed efficiently using the system identification method based on vehicle motion experiments with the appropriate navigation system. 相似文献
18.
自动表面船用于岛礁水深测绘 总被引:1,自引:0,他引:1
岛礁具有重要的地位,然而对其附近水深的调查手段却不充分。比较了几种水深测绘手段的优缺点,设计了一种小型自动表面船用于岛礁水深测绘。该表面船底部安装声学测深仪,具备自动定位、导航与运动功能;其尾部安装两个电动推进器提供动力,通过独立控制两个推进器的转速,可实现船体的前进、后退和转向;利用无线电与岸基单元进行数据通讯。根据不同水深测绘条件,该船可以用三种控制方式进行水深测量:直接控制、间接控制和自主控制。测量数据实时传输到岸基单元,并自动存储于船载存储单元。初步试验结果表明,设计的自动表面船测量系统具有可行性。 相似文献
19.
For autonomous manipulation in water, an underwater vehicle-manipulator system (UVMS) should be able to generate trajectori9es for the vehicle and manipulators and track the planned trajectories accurately. In this paper, for trajectory generation, we suggest a performance index for redundancy resolution. This index is designed to minimize the restoring moments of the UVMS during manipulation, and it is optimized without impeding the performance of a given task. As a result, the restoring moments of the UVMS are decreased, and control efforts are also reduced. For tracking control of the UVMS, a nonlinear H∞ optimal control with disturbance observer is proposed. This control is robust against parameter uncertainties, external disturbances, and actuator nonlinearities. Numerical simulations are presented to demonstrate the performance of the proposed coordinated motion control of the UVMS. The results show that control inputs for tracking are reduced, and the UVMS can successfully track generated trajectories. 相似文献