带不确定动态的欠驱动水面船舶鲁棒自适应路径跟踪控制(英文)

A robust adaptive control strategy was developed to force an underactuated surface vessel to follow a reference path,despite the presence of uncertain parameters and unstructured uncertainties including exogenous disturbances and measurement noise.The reference path can be a curve or a straight line.The proposed controller was designed by using Lyapunov’s direct method and sliding mode control and backstepping techniques.Because the sway axis of the vessel was not directly actuated,two sliding surfaces were introduced,the first one in terms of the surge motion tracking errors and the second one for the yaw motion tracking errors.The adaptive control law guaranteed the uniform ultimate boundedness of the tracking errors.Numerical simulation results were provided to validate the effectiveness of the proposed controller for path following of underactuated surface vessels.     

弹性圆柱壳结构的有源结构声辐射控制研究

A numerical and experimental study was presented on active control of structurally radiated sound from an elastic cylindrical shell.An analytical model was developed for the active structural acoustic control (ASAC) of the cylindrical shell.Both global and local control strategies were considered.The optimal control forces corresponding to each control strategy were obtained by using the linear quadratic optimal control theory.Numerical simulations were performed to examine and analyze the control performance under different control strategies.The results show that global sound attenuation of the cylindrical shell at resonance frequencies can be achieved by using point force as the control input of the ASAC system.Better control performance can be obtained under the control strategy of minimization of the radiated sound power.However,control spillover may occur at off-resonance frequencies with the control strategy of structural kinetic energy minimization in terms of the radiated sound power.Considerable levels of global sound attenuation can also be achieved in the on-resonance cases with the local control strategy,i.e.,minimization of the mean-square velocity of finite discrete locations.An ASAC experiment using an FXLMS algorithm was implemented,agreement was observed between the numerical and experimental results,and successful attenuation of structural vibration and radiated sound was achieved.     

船舶航向模糊滑模控制器的设计与仿真

In considering the characteristic of a rudder,the maneuvers of a ship were described by an unmatched uncertain nonlinear mathematic model with unknown virtual control coefficient and parameter uncertainties.In order to solve the uncertainties in the ship heading control,specifically the controller singular and paramount re-estimation problem,a new multiple sliding-mode adaptive fuzzy control algorithm was proposed by combining Nussbaum gain technology,the approximation property of fuzzy logic systems,and a multiple sliding-mode control algorithm.Based on the Lyapunov function,it was proven in theory that the controller made all signals in the nonlinear system of unmatched uncertain ship motion uniformly bounded,with tracking errors converging to zero.Simulation results show that the demonstrated controller design can track a desired course fast and accurately.It also exhibits strong robustness peculiarity in relation to system uncertainties and disturbances.     

Application of A* algorithm for real-time path re-planning of an unmanned surface vehicle avoiding underwater obstacles

This paper describes path re-planning techniques andunderwater obstacle avoidance for unmanned surface vehicle （USV）based on multi-beam forward looking sonar （FLS）. Near-optimalpaths in static and dynamic environments with underwaterobstacles are computed using a numerical solution procedure basedon an A algorithm. The USV is modeled with a circular shape in 2degrees of freedom （surge and yaw）. In this paper, two-dimensional（2-D） underwater obstacle avoidance and the robust real-time pathre-planning technique for actual USV using multi-beam FLS aredeveloped. Our real-time path re-planning algorithm has beentested to regenerate the optimal path for several updated frames inthe field of view of the sonar with a proper update frequency of theFLS. The performance of the proposed method was verifiedthrough simulations, and sea experiments. For simulations, theUSV model can avoid both a single stationary obstacle, multiplestationary obstacles and moving obstacles with the near-optimaltrajectory that are performed both in the vehicle and the worldreference frame. For sea experiments, the proposed method for anunderwater obstacle avoidance system is implemented with a USVtest platform. The actual USV is automatically controlled andsucceeded in its real-time avoidance against the stationary underseaobstacle in the field of view of the FLS together with the GlobalPositioning System （GPS） of the USV.     

应用GA,PSO,ACO算法进行水下自主运载器路径规划(英文)

In this paper,an underwater vehicle was modeled with six dimensional nonlinear equations of motion,controlled by DC motors in all degrees of freedom.Near-optimal trajectories in an energetic environment for underwater vehicles were computed using a numerical solution of a nonlinear optimal control problem(NOCP).An energy performance index as a cost function,which should be minimized,was defined.The resulting problem was a two-point boundary value problem(TPBVP).A genetic algorithm(GA),particle swarm optimization(PSO),and ant colony optimization(ACO) algorithms were applied to solve the resulting TPBVP.Applying an Euler-Lagrange equation to the NOCP,a conjugate gradient penalty method was also adopted to solve the TPBVP.The problem of energetic environments,involving some energy sources,was discussed.Some near-optimal paths were found using a GA,PSO,and ACO algorithms.Finally,the problem of collision avoidance in an energetic environment was also taken into account.     

欠驱动ODINs的全局逆最优循迹控制（英文）

This paper presents a design of optimal controllers with respect to a meaningful cost function to force an underactuated omni-directional intelligent navigator(ODIN) under unknown constant environmental loads to track a reference trajectory in two-dimensional space. Motivated by the vehicle’s steering practice, the yaw angle regarded as a virtual control plus the surge thrust force are used to force the position of the vehicle to globally track its reference trajectory. The control design is based on several recent results developed for inverse optimal control and stability analysis of nonlinear systems, a new design of bounded disturbance observers, and backstepping and Lyapunov’s direct methods. Both state- and output-feedback control designs are addressed. Simulations are included to illustrate the effectiveness of the proposed results.     

牵引车-飞机系统的路径跟踪控制(英文)

An aircraft tractor plays a significant role as a kind of important marine transport and support equipment. It’s necessary to study its controlling and manoeuvring stability to improve operation efficiency. A virtual prototyping model of the tractor-aircraft system based on Lagrange’s equation of the first kind with Lagrange mutipliers was established in this paper. According to the towing characteristics, a path-tracking controller using fuzzy logic theory was designed. Direction control herein was carried out through a compensatory tracking approach. Interactive co-simulation was performed to validate the path-tracking behavior in closed-loop. Simulation results indicated that the tractor followed the reference courses precisely on a flat ground.     

Multi-objective optimization study on dimensions of medium-sized cruise ship in concept phase北大核心CSCD

［Objective］Aiming at the problem of too many influencing factors and too little reference data for determining the dimensions of medium-sized cruise ships in the concept phase, a simplified multi-objective optimization method based on the fitting of dimensions and performance is proposed. ［Method］First, the dimension relations of medium-sized cruise ships are analyzed and the influence of the latest SOLAS requirements used to determine the optimization range. Second, the influence of cruise ship dimensions on space, resistance, stability and seakeeping are analyzed. Next, based on the principles of genetic algorithms, a multiobjective optimization algorithm with high robustness and high engineering adaptability is determined to establish a multi-objective optimization model for the concept design of medium-sized cruise ships. Finally, the Pareto solution obtained by multi-objective optimization is analyzed to provide initial references for determining the dimensions of the target cruise ship. ［Results］Implemented via a genetic algorithm, the optimization program proposed herein is applied in the concept design of a medium-sized cruise ship in order to optimize the initial dimensions, thereby achieving the expected outcome of providing reasonable initial dimensions for cruise ship design. ［Conclusion ］ The proposed simplified multi-objective optimization model can provide feasible initial dimensions for medium-sized cruise ships in the concept phase. As the Pareto solution obtained by multi-objective optimization has different focuses such as resistance and stability, the most suitable solution needs to be selected according to the design object. © 2023 Chinese Journal of Ship Research. All rights reserved.     

水下机器人动力定位模糊逻辑控制的虚拟现实仿真（英文）

In this paper, graphical-user-interface(GUI) software for simulation and fuzzy-logic control of a remotely operated vehicle(ROV) using MATLAB TM GUI Designing Environment is proposed. The proposed ROV’s GUI platform allows the controller such as fuzzy-logic control systems design to be compared with other controllers such as proportional-integral-derivative(PID) and sliding-mode controller(SMC) systematically and interactively. External disturbance such as sea current can be added to improve the modelling in actual underwater environment. The simulated results showed the position responses of the fuzzy-logic control exhibit reasonable performance under the sea current disturbance.     

A method of multi-channel reference signals acquiring in broadband ANC

In a flank array on an unmanned underwater vehicle （UUV）, self-generated noise which has broadband and colored spectrum property in frequency and spatial domain is the main factor affecting the performance of weak signal detection, so the technique of adaptive noise cancellation （ANC） as well as physical denoising and active noise cancellation are often used in practice. Because ANC is based on correlations, improvements in performance come from better correlation between reference signals and primary signals. Taking full advantage of the characteristics of flank arrays and the characteristics of information obtained from hydrophones, a new method for reference signal acquisition for adaptive noise cancellation is proposed, in which the multi-channel reference signals are obtained by accurate delaying for a given direction of arrival （DOA） and differencing between adjacent outputs of array elements. The validity of the proposed method was verified through system modeling simulations and lake experiments which showed good performance with little additional computational burden.     

NTSM控制的AUV路径跟踪控制研究

针对非线性欠驱动自治水下机器人（Autonomous underwater vehicle，缩写为AUV），提出了一种基于非奇异终端滑模（Non—singular terminal sliding mode，缩写为NTSM）控制的鲁棒路径跟踪控制方法。在跟踪控制系统中，采用的参考变量为非时间量，摆脱了时间因素的影响，有利于提高AUV在不确定环境中的跟踪能力。应用指数趋近律进行NTSM控制器设计，能保证系统状态在有限时间内到达平衡点。数值仿真结果验证了该控制律的路径跟踪效能。     

考虑横向漂移的船舶路径跟踪自抗扰控制

针对船舶运动系统中内部动态不确定和外部干扰等问题,进行了欠驱动船舶路径跟踪的自抗扰方法研究。利用Backstepping设计参考航向角,并通过线性扩张状态观测器对流干扰和横向运动引起的横向漂移进行估计。其次,根据自抗扰算法对航向进行控制,采用线性扩张状态观测器对外界干扰及内部不确定项进行估计。最后仿真结果表明,在风流干扰下所设计的控制器仍能使船准确地跟踪上参考路径,验证了所提控制方案的有效性。     

Path planning method for unmanned surface vehicle with controllable distance from obstacles北大核心CSCD

[目的]为了解决水面无人艇(USV)路径规划中安全性和平滑性方面的问题,提出一种与障碍物距离可控的USV路径规划方法。[方法]首先,结合雷达图像生成栅格化环境信息,利用维诺场算法(VFA)为每个栅格添加危险势场并建立航行界限;其次,建立与航行界限关联的危险度函数对A^(*)算法的评价函数进行改进,利用改进的A^(*)算法进行路径规划;最后,针对航行路径转向角较大的问题,采用梯度下降法(GDM)进行航行路径的平滑处理,得到满足USV实际航行要求的连续平滑路径。[结果]仿真结果表明,所提路径规划方法通过设置不同的航行界限可以实现路径与障碍物之间距离的控制且平滑性符合航行要求。[结论]该方法在USV路径规划过程中具有一定的合理性和有效性,可为USV自主避障决策提供参考。     

基于最优控制的双喷推无人艇路径跟踪方法

针对双喷推无人艇自主航行时的路径跟踪问题,采用最优控制的方法进行求解。根据双喷推无人艇的动力学特性建立双喷推无人艇三自由度运动方程,并由任务需求设定目标函数;在此基础上,根据航行实况建立约束条件,从而得到求解双喷推无人艇路径跟踪问题的数学模型。通过建立含有拉格朗日松弛项的哈密顿函数,将带有复杂约束的优化问题转化为无约束优化问题,采用粒子群优化算法求解最优拉格朗日乘子,并将其代入哈密顿函数;采用广义梯度下降法对数学模型进行求解,得到最优的喷泵电机转速,从而实现对双喷推无人艇的路径跟踪控制。设计实船试验验证方法的有效性,双喷推无人艇路径跟踪试验结果表明,双喷推无人艇实测的轨迹与设定轨迹的最大偏差不超过3m,该方法具有可行性和实用性。     

基于解析模型预测控制的欠驱动船舶路径跟踪控制器设计

针对欠驱动船舶路径跟踪控制系统中存在风、浪、流等外界干扰的影响,将船舶运动模型转化到Serret-Frenet标架下进行研究,通过引入重定义输出将原单输入多输出控制系统转化为单输入单输出控制系统,并将解析模型预测控制与非线性观测器相结合,提出一种鲁棒路径跟踪控制算法。该算法能够使欠驱动船舶跟踪并镇定于给定的参考路径。计算机仿真结果表明,所提出的控制器具有良好的控制性能以及鲁棒性能。     

内河无人船局部路径规划和循迹控制

提出了内河无人船在水流中的局部路径规划算法,并在直线Line of Sight算法基础上设计了一般曲线路径的LOS循迹控制算法。将此算法结合完成了内河无人船的航行试验,实现了在落潮、涨潮等不同水流条件下的无人自主航行,验证了所提算法的有效性和实用性,对内河无人船的应用研究具有借鉴意义。     

多约束条件下无人艇和无人机集群协同航迹规划

[目的]为实现海上无人集群在执行任务过程中的安全航行和通信保持,开展无人艇(USV)和无人机(UAV)集群协同航迹规划问题的研究。[方法]采用禁入和禁出地理围栏进行场景建模,将规避威胁和障碍问题转化为地理围栏约束。针对平台之间的碰撞冲突和通信连接问题,提出基于时序检测的碰撞冲突和通信保持约束判断准则。以集群平均航行时间为航迹优化函数,将多约束条件转化为惩罚函数,采用自适应差分进化算法进行优化求解。[结果]仿真结果表明,所提方法能够在威胁和障碍环境中保持无人艇和无人机集群的安全航行和通信连接,并在满足多约束的条件下实现集群平均航行时间最短。[结论]该方法可用于海上无人集群面对威胁和障碍环境时的离线航迹规划,具有一定的应用价值。     

动力定位船舶全速度路径跟踪CB导引自适应闭环控制

针对仅使用槽道推进器提供横向推力的动力定位船舶路径跟踪控制问题,建立慢变环境干扰影响下的非线性船舶数学模型,设计带有自适应干扰补偿的反步控制算法来消除环境干扰的影响。引入平行目标接近(CB)导引算法为跟踪控制生成期望速度矢量信号,通过与所提出的自适应反步控制算法相结合,得到不受船舶驱动特性限制的全速度范围动力定位船舶导引跟踪控制算法,应用李雅普诺夫稳定性理论证明系统跟踪误差渐进收敛到零。仿真结果表明通过调整导引算法参数可以调节船舶跟踪过程表现,并可以得到较好的控制精度。