Experimental Study of a Command Governor Adaptive Depth Controller for an Unmanned Underwater Vehicle     

《Applied Ocean Research》2019

Unmanned Underwater Vehicles (UUVs) are increasingly being used in advanced applications that require them to operate in tandem with human divers and around underwater infrastructure and other vehicles. These applications require precise control of the UUVs which is challenging due to the non-linear and time varying nature of the hydrodynamic forces, presence of external disturbances, uncertainties and unexpected changes that can occur within the UUV’s operating environment. Adaptive control has been identified as a promising solution to achieve desired control within such dynamic environments. Nevertheless, adaptive control in its basic form, such as Model Reference Adaptive Control (MRAC) has a trade-off between the adaptation rate and transient performance. Even though, higher adaptation rates produce better performance they can lead to instabilities and actuator fatigue due to high frequency oscillations in the control signal. Command Governor Adaptive Control (CGAC) is a possible solution to achieve better transient performance at low adaptation rates. In this study CGAC has been experimentally validated for depth control of a UUV, which is a unique challenge due to the unavailability of full state measurement and a greater thrust requirement. These in turn leads to additional noise from state estimation, time-delays from input noise filters, higher energy expenditure and susceptibility to saturation. Experimental results show that CGAC is more robust against noise and time-delays and has lower energy expenditure and thruster saturation. In addition, CGAC offers better tracking, disturbance rejection and tolerance to partial thruster failure compared to the MRAC.  相似文献   

突发地震灾害中无人驾驶救援车伺服控制系统研究          下载免费PDF全文

岳光  潘玉田 《地震工程学报》2018,40(6):1366-1371

针对当前采用PID控制器控制无人驾驶救援车伺服系统时存在的轨迹跟踪精度不高，误差控制性能较差，灵活性、平稳性和安全性能不佳等问题，提出并设计基于BP神经网络整定PID控制器的无人驾驶救援车伺服控制系统，建立突发地震灾害中无人驾驶救援车伺服控制系统驱动模型，并以此模型作为被控对象；根据系统期望输出值与实际输出值构成的控制偏差获得PID控制规律，并通过调节PID控制器控制参数实现系统控制，在此基础上，采用BP神经网络通过对无人驾驶救援车伺服控制系统性能的学习，构建基于BP神经网络整定的PID控制器，并采用梯度下降法修正控制器加权系数，通过在线调整BP神经网络加权系数即可实现控制器的自适应调整，控制突发地震灾害中无人驾驶救援车实施救援。实验结果表明，设计的基于BP神经网络整定PID控制器的无人驾驶救援车伺服系统可有效提高轨迹跟踪精度，具有较好的灵活性，且能够保证驾驶员的安全和车辆平稳行驶。  相似文献   

基于倾斜摄影测量的大比例尺三维测图技术     

李通 《北京测绘》2020,(4):543-546

目前,城市大比例尺地形图更新主要采用全野外的测量方法,不仅耗费大量的劳动力,并且效率低下。旋翼机和倾斜摄影测量技术的快速发展,为城市大比例尺地形图的测绘与更新提供了全新的技术手段。本文以滕州市城区约10 km2的1∶500地形图测绘项目为例,采用大疆精灵4 Pro旋翼机进行数据获取,Smart 3D软件进行空三加密及三维建模,最后在EPS软件中进行三维测图,并对地形图成果进行了精度检核,验证了技术方案的可行性,为同类项目提供了有益参考。  相似文献   

利用BDS与无人船进行污染源分析及处理     

姜沣珊  岳中杨  程俊颖  赵泽阳 《测绘通报》2020,(2):155-159

在大数据的背景下，充分利用北斗卫星导航系统（BDS）的定位功能，以无人船作为用户端，在水质数据采集和污染源位置的问题中积极探索新的实践方案，迅速、准确地找到污染源，减少河流污染物污染的时间，且无人船上装有净化模块，在发现污染时可作简易处理。在无人船上安装水质分析仪，水质分析仪的传输模块中安装经给防水处理的北斗卫星定位芯片和WiFi数据传输器，进而对河流的污染物种类及浓度进行分析，并采用大数据的计算方法，计算出污染源位置，向云平台反映污染源位置分析结果与污染物处理方法。通过BDS，将数据按照位置区域划分，并将能到达污染源的最短路径发送到处理人的移动设备上。本文通过对基于BDS定位的水质污染监测可视化系统进行分析，以期迅速找出污染源，减少水质污染现象的发生。  相似文献   

THE APPLICATION OF MINIATURE UNMANNED AERIAL VEHICLE IN 25 NOVEMBER 2016 ARKETAO M_W6.6 EARTHQUAKE     

FU Bo  LI Zhi-qiang  CHEN Jie  FAN Xi-wei  LI Xiao-li  LI Tao  YAO Yuan  LIU Yao-hui 《地震地质》2018,40(3):672-684

In order to complete the field investigation to the 25 November 2016 Arketao M_W6.6 earthquake, ultra-low altitude remote-sensing data were obtained from miniature unmanned aerial vehicle. The surface rupture surveying has important significance for earthquake research. This paper selects the macro-epicenter of Arketao as the study area. The pictures were obtained with DJI Phantom 3 professional input into the software, the Digital Elevation Model (DEM), Digital Orthophoto Map (DOM) were acquired based on photogrammetry method using the overlapped optical remote-sensing images of UAV. Using these data, we can identify surface ruptures that have vertical dislocation. We selected six feature points and drew the elevation profile. In the elevation profile map, we chose smooth part of the surface rupture sides and obtained the trend line. A stable point in the surface rupture was selected and the abscissa of the point was taken into the equation of two straight lines. Then subtracting the results of the two equations, we can get the vertical dislocation of the surface rupture. On this basis, we chose six feature points and determined their vertical dislocation, which are between 4.4cm and 10.4cm. What's more, taking Bulungkou Xiang in Xinjiang Uygur Autonomous Region for example, we speculated some surface ruptures that have vertical dislocation. It can provide a new method for identifying surface rupture in the field. In addition, we get DEM data of the Bulunkou area where ambient conditions are very poor, by using miniature unmanned aerial vehicle and taking 255 photos. Putting those photos into the EasyUAV software, we got the area digital elevation of 2cm resolution. Comparing these data with RTK data, we summarized some practical problems and solutions in the practical operation and evaluated the accuracy of miniature unmanned aerial vehicle data. The Pearson Correlation Coefficient is 0.996 6. In terms of absolute elevation, the average result of UAV and RTK differs by 156.96m. In terms of relative elevation, the average result of UAV and RTK differs by 9.74m. Compared with the previous test of Pishan County, there is a notable divergence in the results. It shows that the data accuracy will be affected to some extent in the cold weather in high elevations. The specific impact needs further exploration.  相似文献   

内点最大化与冗余点控制的无人机遥感图像配准     

余蕊  陈玮扬  杨扬  杨昆  罗毅 《遥感学报》2020,24(11):1325-1341

利用小型无人机进行遥感图像配准在自然灾害损害评估、环境监测和目标检测与追踪等领域发挥着至关重要的作用，但小型无人机的图像采集过程容易受风速/风向、复杂地形、电池容量、飞行姿态、飞行高度等自然或人为因素的影响。这些问题通常会导致捕捉到的场景重叠率低与图像非刚性畸变，在特征点提取过程中产生大量冗余点，增加了图像配准的难度。本文提出一种基于特征点的小型无人机图像配准方法，该方法的核心思想是在配准过程中识别冗余点，同时最大化可用内点数量。所识别的冗余点当作控制点，用于控制网格代图像的运动。最后通过最大化内点和合理移动控制点来恢复图像变换。本文使用50对小型无人机图像进行特征匹配和图像配准的实验，其中平均配准精度可达80.38%，并且本文方法在所有的情况下都优于5种当前流行算法。  相似文献   

无人船运动控制方法综述   总被引：1，自引：1，他引：0  

裴志远  戴永寿  李立刚  金久才  邵峰 《海洋科学》2020,44(3):153-162

为实现无人船海上自主作业,无人船运动控制的快速性、准确性以及鲁棒性亟待提高。首先从全驱动控制和欠驱动控制角度,分别概括了国内外无人船航向控制、航速控制、轨迹跟踪控制以及路径跟踪控制的主流控制方法。其次,归纳总结了处理海洋环境不确定扰动的研究进展,包括扰动的建模和消除、抑制扰动的主流方法。最后,总结了无人船运动控制现状与存在的问题,并从工程应用和理论研究两个角度对未来的研究方向进行了展望。  相似文献   

低空无人飞艇航测相机稳定平台控制方法     

杨应  刘凤珠  翟曦 《测绘通报》2019,(11):64-68,108

针对低空无人飞艇航空遥感系统平台姿态稳定问题，以及现有稳定平台用于无人飞艇航测系统存在的困难，提出了基于轻小型低精度GNSS/IMU系统和PID算法的三轴稳定平台控制方法。该系统结合双GPS轻小型组合GNSS/IMU系统，采用分离相机和GNSS/IMU系统控制方式，采用PID控制方法，利用STM32控制芯片电路实现稳定平台的控制，解决无人飞艇航测系统相机姿态稳定问题。最后通过飞行试验验证了该系统的稳定性。试验结果表明，该方法能够满足相机系统的俯仰和翻滚角度及航偏角度控制的要求，能够有效隔离无人飞艇姿态的不稳定对成像系统的影响，对于提高无人飞艇航测系统成图精度有重要意义。  相似文献   

无人机倾斜摄影支持下的1∶500高精度三维测图方案及应用     

赵小阳  孙松梅 《测绘通报》2019,(7):87-91

研发了一种适合于大范围1∶500的无人机测图方案，围绕平面和高程点位中误差在5 cm以内这一核心目标，从无人机的平台稳定性、空中精准定位飞控、空三与三维建模及模型与影像结合的多视角测图等方面进行了设计。在广州马沥村的应用表明，本文研究的无人机倾斜摄影方案可以满足1∶500高精度的三维测图，并具有较高的效率。  相似文献   

国家应急测绘调度系统设计     

刘磊  刘津  翟永  邢绪超 《测绘通报》2019,(9):135-138,146

通过分析应急测绘指挥调度的基本特点与实际需求，结合国家应急标准规范，采用基于多通道多协议的数据通信与传输技术、基于MPP架构的分布式数据库管理技术、基于UML模型化的任务规划技术，根据无人机、多功能方舱等应急装备实时回传的位置、状态和应急测绘地理信息，以及快速处理与共享系统等产生的数据成果与作业信息，设计完成了具有应急调度方案制定、指令快速下达、测绘装备动态调度与实时跟踪、测绘任务进度监控及应急任务演练等功能的应急测绘调度系统。  相似文献