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41.
针对带攻角(AOA)约束的高超声速飞行器控制问题,提出一种基于非对称时变障碍函数的非线性自适应反步控制方法。首先,将飞行器模型化为严反馈形式,以反步法为基础进行控制器设计。然后通过光滑饱和函数对名义攻角指令信号进行限幅,并保证限幅信号的可导性,限幅产生的误差通过设计辅助系统进行补偿。进而使用障碍函数对攻角指令跟踪误差进行非对称时变约束。针对不确定性和干扰,设计新型自适应律对集中干扰上界进行估计并补偿。最终通过Lyapunov理论证明了闭环系统状态量一致最终有界并且攻角始终满足时变约束。仿真结果表明,本文方法能够在满足攻角约束基础上保证良好跟踪性能。 相似文献
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43.
Baolin Wu Qiang Shen Xibin Cao 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(3):927-934
The problem of spacecraft attitude stabilization control system with limited communication and external disturbances is investigated based on an event-triggered control scheme. In the proposed scheme, information of attitude and control torque only need to be transmitted at some discrete triggered times when a defined measurement error exceeds a state-dependent threshold. The proposed control scheme not only guarantees that spacecraft attitude control errors converge toward a small invariant set containing the origin, but also ensures that there is no accumulation of triggering instants. The performance of the proposed control scheme is demonstrated through numerical simulation. 相似文献
44.
针对我国下一代静止轨道微波探测器资料应用的需求,对微波50~60GHz和183GHz的温湿遥感通道开展了不同大气条件下探测敏感高度的模拟,发现大气散射对微波探测影响明显,尤其是近地面通道,在未来数据应用时需加以注意。提出一种基于一维变分的大气温湿度廓线物理反演算法。以美国最新一代气象卫星Suomi NPP搭载的ATMS(Advanced Technology Microwave Sounder)获取的观测资料为研究对象,RTTOV(Radiative Transfer for TOVS)快速辐射传输模式为前向算子,利用一维变分算法开展了温湿度廓线反演单点试验。研究发现:地表参数对微波亮温,尤其是地面通道影响较大。同时,反演所需背景场对反演结果影响较明显,反演所得温度与背景场较接近。 相似文献
45.
《中国航空学报》2020,33(9):2420-2433
In this study, a neural adaptive controller is developed for a ground experiment with a spacecraft proximity operation. As the water resistance in the experiment is highly nonlinear and can significantly affect the fidelity of the ground experiment, the water resistance must be estimated accurately and compensated using an active force online. For this problem, a novel control algorithm combined with Chebyshev Neural Networks (CNN) and an Active Disturbance Rejection Control (ADRC) is proposed. Specifically, the CNN algorithm is used to estimate the water resistance. The advantage of the CNN estimation is that the coefficients of the approximation can be adaptively changed to minimize the estimation error. Combined with the ADRC algorithm, the total disturbance is compensated in the experiment to improve the fidelity. The dynamic model of the spacecraft proximity maneuver in the experiment is established. The ground experiment of the proximity maneuver that considers an obstacle is provided to verify the efficiency of the proposed controller. The results demonstrate that the proposed method outperforms the pure ADRC method and can achieve close-to-real-time performance for the spacecraft proximity maneuver. 相似文献
46.
《中国航空学报》2020,33(6):1625-1641
The Tilt Quad Rotor (TQR) has complex dynamics characteristics, especially in conversion mode. It is difficult to build the dynamic model of the TQR and the environmental factors have a great influence on it. To solve the problem of control in conversion mode of TQR, this paper carries out the design of the controller based on improved Active Disturbance Rejection Control (ADRC). According to the characteristics of flight in conversion mode, Tracking Differentiator (TD) with explicit model is used to solve the problem of multiple integrals when the system is high-order system. Extended State Observer (ESO) with Radial Basis Function (RBF) neural network is used to estimate and compensate for internal and external uncertainties, and the adaptive sliding mode control in Nonlinear State Error Feedback (NLSEF) is used to improve the response speed of the controller and reduce the parameters which should be tuned. Through the flight control simulation of the TQR, the validity and rationality of the control system are verified. 相似文献
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48.
《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2020,65(7):1685-1700
Pc4 signatures for the year 2013, extracted from geomagnetic north–south and east–west components of induction coil magnetometer (LEMI 30) from low latitude station Desalpar (DSP), operated by Institute of Seismological Research (ISR), India have been investigated vis-à-vis the prevalent interplanetary parameters (IMF) as well as the geomagnetic activity indices. A clear dominance of Pc4-5 (467 events) over Pc3 (17 events) is observed. Local time variation of Pc4 shows a peak in the noon sector in both X and Y components. Our investigations show that the dominant peak frequency is 10 mHz at low latitude region. Correlations with solar wind and IMF parameters illustrate highest occurrence of Pc4 for a solar wind speed of 300–400 km/s and average IMF B field of 3–6 nT. The amplitude of Pc4s at DSP shows an increase with increasing solar wind speed, plasma density, solar wind dynamic pressure and average B field which is also reflected in the trend of frequency variation of these pulsations. We report that IMF clock angle at low latitude does not have influence on Pc4 occurrence. Based on the characteristics of these events, detected in latitudinally distributed stations from low and mid-latitudes from northern and southern hemisphere, we infer that modes were compressional, which could be driven by K-H instability or solar wind dynamic pressure, as compressional modes can propagate to low latitude with little attenuation. 相似文献
49.
建立微型扑旋翼飞行器运动学模型,基于面元法研究低雷诺数下非定常场中扑旋翼飞行器的气动特性,得到机翼气动特性和一个工作周期内的最大气动载荷。建立扑旋翼飞行器机翼有限元模型,基于变密度法和独立连续映射法(Independent continuous mapping,ICM)对机翼进行静力学和动力学拓扑优化设计,通过改变机翼拓扑结构优化机翼模态频率,得到同时满足结构静力学和动力学要求的扑旋翼飞行器机翼拓扑结构。本文为扑旋翼飞行器机翼结构优化设计提供了基本思路和研究基础。 相似文献
50.
针对柔性空间机械臂在轨服务应用需求,提出一种基于刚体运动与柔性振动相耦合的空间双臂机器人协同控制方法.首先引入空间位姿变量的概念,构造出面向协同控制目标的Jacobian矩阵,建立柔性空间机器人系统的刚柔耦合动力学模型,基于指定的最小距离得到其运动学逆解,并根据系统动量矩守恒关系及系统的Jacobian矩阵,并根据机械臂末端的运动速度,然后采用阻尼最小二乘法得出关节角度,使柔性空间机器人能够有效完成协同控制和空间避障任务,并基于RecurDyn V7R5软件环境验证算法的正确性.最后,基于SolidWorks和ADAMS虚拟样机建立柔性空间机器人系统的立体CAD模型,并结合空间在轨搬运任务进行模拟仿真,柔性空间机器人关节操作和运动轨迹的仿真结果图验证了本文算法的有效性. 相似文献