共查询到18条相似文献,搜索用时 221 毫秒
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介绍控制系统实时在线仿真平台dSPACE系统,研究了仿鸟扑翼试验平台控制方案,利用dSPACE系统构造了仿鸟扑翼试验平台伺服控制器,通过实时仿真对PID控制参数完成了优化,从而取得了满意的扑翼运动轨迹跟踪效果。设计过程表明:利用dSPACE在线仿真技术开发控制器原型可以大大节省时间和费用。 相似文献
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扑翼微型飞行器是一种模仿鸟类或昆虫飞行的新概念飞行器。介绍SolidWorks设计软件在驱动机构运动仿真、翅翼频率分析和参数化设计中的应用。结果表明,SolidWorks应用于扑翼微型飞行器设计制造可以简化设计流程,提高设计效率。 相似文献
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提出一种解耦操控机制,用于解决微型仿昆扑翼飞行器飞行控制中的欠驱动问题.首先通过理论分析和仿真试验分析了翅膀的振翅运动参数对气动力旋量的控制作用;然后在对昆虫飞行所采用的生物学振翅运动进行模拟的基础上,通过调整翅膀的振翅运动参数,设计了一个能对气动力和气动力矩实现独立控制的解耦操控机制.此操控机制采用周期函数将控制输入量参数化,从而在仿昆扑翼布局的动力学模型中引入更多数目的独立控制量.通过将原动力学系统转化为完全能控系统,解决了仿昆扑翼布局的欠驱动控制问题.同时,此操控机制仅仅要求转动角可控,有效地降低了仿昆扑翼飞行器的设计难度. 相似文献
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针对仿昆虫扑翼飞行器核心动力装置——微驱动器的结构特点和研究难点,设计了一种基于静电驱动原理的毫米(mm)级微扑翼驱动器,并针对各个部件研究了整套加工工艺与测试方法.运动优化与升力测试结果表明:微扑翼驱动器(翼展9 mm,重量3 mg)以91 Hz的频率实现了±40°的拍动和±25°的扭转运动,输出1.5 mg的升力,升重较以往静电微扑翼驱动器有大幅提升.研究成果为实现仿昆虫微型飞行器的自主飞行提供了新的方向,并奠定了理论与试验基础. 相似文献
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针对仿鸟扑翼飞行器的柔性翼动力学仿真需要,在非定常空气动力学原理下,用修正的准定常气动力计算模型估算出了扑翼的动力学模型,并建立了其相应的状态空间方程,进而分析研究了在Matlab语言和Simulink环境下,对其仿真系统设计得需求和要求。 相似文献
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仿生扑翼飞行器有着优异的气动性能和灵活的飞行能力,在军民领域均有广泛的应用前景,学者们在原理样机研制、扑翼气动机理、驱动机构、飞行控制等多领域取得了一系列重要进展.本文从总体设计方法、驱动机构设计与优化、气动机理等方面综述了仿鸟类扑翼飞行器技术的发展历程与研究进展.首先,从扑翼总体设计方法入手,总结了仿鸟类扑翼飞行器仿生构型,归纳了总体设计参数估算方法;其次,综述了多种构型曲柄连杆机构在扑翼驱动中的应用与优缺点;接着总结了扑翼气动机理研究的实验方法与数值计算方法,分析了不同扑翼气动算法针对不同应用场景在计算成本和准确度方面的优劣情况;最后,对仿鸟类扑翼飞行器系统设计研究现状进行总结,针对原理样机研制过程提出展望. 相似文献
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微型扑翼飞行器(FMAV)由于微型化和采用扑翼飞行方式的特征,许多传统理论和设计方法不再完全适用,相关理论和技术仍在不断地发展中,所以对国内外相关理论和技术的发展现状进行及时跟踪和研究,具有非常重要的参考意义;通过调查研究,介绍了与微型扑翼飞行器控制系统有关的低雷诺数非定常空气动力学、控制系统数学模型、控制方案和控制方法等的研究进展,总结出了微型扑翼对飞行器控制系统的设计要求,控制系统的特点和需要解决的关键问题,并展望了未来发展趋势。 相似文献
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Pradeep Gopalakrishnan 《Computers & Fluids》2009,38(8):1592-3385
A parallel numerical solution procedure for unsteady incompressible flow is developed for simulating the dynamics of flapping flight. A collocated finite volume multiblock approach in a general curvilinear coordinate is used with Cartesian velocities and pressure as dependent variables. The Navier-Stokes equations are solved using a fractional-step algorithm. The dynamic grid algorithm is implemented by satisfying the space conservation law by computing the grid velocities in terms of the volume swept by the faces. The dynamic movement of grid in a multiblock approach is achieved by using a combination of spring analogy and Trans-Finite Interpolation. The spring analogy is used to compute the displacement of block corners, after which Trans-Finite Interpolation is applied independently on each computational block. The performance of the code is validated in forced transverse oscillations of a cylinder in cross-flow, a heaving airfoil, and hovering of a fruitfly. Finally, the unsteady aerodynamics of flapping flight at Re = 10,000 relevant to the development of Micro Air Vehicles is analyzed for forward flight. The results show the capability of the solver in predicting unsteady aerodynamics characterized by complex boundary movements. 相似文献
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Yingcai Bi Menglu Lan Jiaxin Li Shupeng Lai Ben M. Chen 《Asian journal of control》2019,21(4):1732-1744
Micro Aerial Vehicles (MAVs) have great potentials to be applied for indoor search and rescue missions. In this paper, we propose a modular lightweight design of an autonomous MAV with integrated hardware and software. The MAV is equipped with the 2D laser scanner, camera, mission computer and flight controller, running all the computation onboard in real time. The onboard perception system includes a laser‐based SLAM module and a custom‐designed visual detection module. A dual Kalman filter design provides robust state estimation by multiple sensor fusion. Specifically, the fusion module provides robust altitude measurement in the circumstance of surface changing. In addition, indoor‐outdoor transition is explicitly handled by the fusion module. In order to efficiently navigate through obstacles and adapt to multiple tasks, a task tree‐based mission planning method is seamlessly integrated with path planning and control modules. The MAV is capable of searching and rescuing victims from unknown indoor environments effectively. It was validated by our award‐winning performance at the 2017 International Micro Air Vehicle Competition (IMAV 2017), held in Toulouse, France. The performance video is available on https://youtu.be/8H19ppS_VXM . 相似文献
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Hala Rifaï Nicolas Marchand Guylaine Poulin-Vittrant 《Robotics and Autonomous Systems》2012,60(9):1165-1178
Flapping wing Micro Aerial Vehicles (FMAVs) have recently emerged as a promising challenge lying on the progress of the avionics technologies. The present paper deals with the development of simple control laws for an embedded implementation on a biomimetic MAV, aiming to control its attitude and position. The control laws are bounded, taking into consideration the amplitude bounds of the control angles characterizing the flapping wings movement. In order to validate the control laws, a simplified model having a simple wing kinematic parametrization and considering only the main aerodynamic forces and torques is proposed. The stability of the controller is shown in simulations using a diptera insect model. The robustness of the proposed controller is emphasized through different robustness tests. They concern mainly, model and aerodynamic parameters errors, and aim to validate the considered simplifications in the model. 相似文献
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仿昆扑翼飞行器全解耦控制 总被引:1,自引:0,他引:1
针对仿昆扑翼飞行器飞行控制所面临的欠驱动问题,基于平均理论,提出采用周期时变反馈策略控制仿昆扑翼飞行器的策略,并给出了设计周期时变反馈控制器的输入参数化设计方法.该方法对飞行昆虫的扑翼运动进行仿生模拟,通过调整根翅运动参数,实现了对6个方向气动力和力矩的独立控制.本质上就是用参数表示欠驱动系统的输入,并以此构造周期时变反馈函数;从而在原系统中引入更多数目的独立控制量,将原系统转化为完全能控系统.然后,将此可控系统线性化,并利用线性反馈控制器设计工具设计其反馈控制律.仿真结果表明,基于该策略设计的控制器具有响应速度快、稳定误差小、鲁棒性强等特点. 相似文献