基于MBSE的飞机大部件智能装配能力建设方法

飞机大部件智能装配能力建设涉及领域多、范围广,多学科、多专业交叉融合特点显著,是一项复杂的系统工程。近年来,飞机智能装配能力建设已实现相当程度的单点技术突破与应用,但并未达到全局最优,亟需采用科学的方法对智能装配体系能力建设进行整体规划与全局优化。提出采用基于模型的系统工程(Model-Based Systems Engineering,MBSE),科学开展飞机大部件智能装配体系能力建设的方法研究,逐级明确、细化智能装配能力建设需求与技术方案,构建相对应的数字模型并采用仿真技术进行不断验证、迭代优化,最终实现智能装配能力效能的最大化。     

Power factor correction circuits with robust current control technique

A dynamically robust current control method to synthesize a sinusoidal input current for AC-to-DC converters with boost type topology is presented. Under this control strategy, the inductor current and the diode current of the boost converter are fed back and combined in a special way which makes the input current of the AC-to-DC converter stable and robust. The input current is solely determined by the reference current. When the reference current signal is derived from the sinusoidal input voltage, the input current is sinusoidal and in phase with the input voltage. Theoretical analysis is first provided. Small signal analysis shows that the current loop is inherently stable and has a fast dynamic response. Large signal analysis reveals that the control system is not affected by large disturbances in supply voltage or output load. Computer simulations have been carried out and experimental prototype models have been built to verify the analysis and demonstrate the feasibility of the control strategy. A power factor of 0.998 and a total harmonic distortion (THD) of 3.18% are measured.     

插装式二维(2D)伺服阀的理论分析与实验研究

针对传统伺服阀导控级和功率级平行放置而无法实现插装的问题,研究了一种新型的插装式二维（2D）伺服阀,其特点在于：先导级和功率级集成在单个具有双自由度的阀芯上;力矩马达与阀芯同轴连接,并安装在阀芯末端。通过力矩马达直接驱动阀芯转动,然后利用伺服螺旋机构放大功率并驱动阀芯直线运动,从而控制输出流量。同时可以采用直线位移传感器（LVDT）进行检测阀芯位移,实现位置闭环控制以提高阀的控制性能。为了探究其开环特性,首先建立力矩马达和2D阀的数学模型,求得其开环传递函数;然后,通过仿真了解关键参数对系统动态响应的影响;最后,进行实验研究,验证该阀设计的可行性。实验表明,在满量程输入的情况下,该阀开环时滞环为5%,分辨率≤ 1%,响应时间为10 ms,动态频响为35 Hz;闭环下性能显著提高。插装式2D伺服阀结构简单,尺寸小,质量轻,响应快和控制精度高,在航空航天及军工领域有广阔的应用前景。     

Describing Function Properties of a Magnetic Pulsewidth Modulator

An analysis is presented for the transfer functions of a particular pulsewidth modulator and power-stage subsystem that has been widely used in practical switching-mode dc regulator systems. The switch and filter are in a ?buck? configuration, and the switch is driven by a constant-frequency, variable duty-ratio, push-pull magnetic modulator employing square-loop cores. The two transfer functions considered are that with modulator control signal as input and that with line voltage as input. For ac signal,the corresponding describing functions (DF) are derived. It is shown thatcurrent-source drive to the modulator extends the control DF frequency response over that with voltage drive, and that complete cancellation of the effects of line variations can be obtained at dc, but not for ac. Experimental confirmation of the analytical results for the control DF are presented.     

颤振抑制中的测量点和压电驱动器的分布

对于一个具有分布式压电驱动器的模型，设计了单输入／单输出（SISO），单输入／多输出（SIMO），多输入／多输出（MIMO）颤振主动抑制控制律，并进行了风洞试验验证。在此基础上，研究了测量点和压电驱动器的分布。     

运载火箭电动伺服机构前馈自抗扰控制方法的设计

运载火箭伺服机构是火箭的执行机构,在工作过程中不仅要求伺服机构具有较好的阶跃响应和力矩抗扰性能,还要求伺服机构能够较好地跟踪箭载计算机发送的位置随动指令。常规的自抗扰控制(ADRC)建模时,将输入的微分量近似为0,使得输入时变信号时会产生建模误差,该误差无法通过扩张状态观测器(ESO)进行观测并补偿,导致系统的跟踪误差较大。针对常规自抗扰控制对时变信号跟踪误差较大的问题,提出了一种将位置输入微分前馈(PIDF)引入自抗扰控制的前馈自抗扰控制方法。通过理论推导和建模仿真得知,该方法可降低系统对正弦输入信号的跟踪误差并提高系统的动态特性,同时仍具有较强的抗干扰性能。最后通过试验验证了该方法的有效性。     

高阶谐波控制对旋翼桨-涡干扰载荷和噪声的影响

直升机小速度平飞和斜下降飞行时会产生严重的桨-涡干扰(BVI)噪声。基于修正Beddoes尾迹/桨叶动力学耦合方法和Farassat 1A公式,建立了一个新的能够计入高阶谐波控制(HHC)影响的旋翼桨-涡干扰气动载荷和噪声计算模型。在该模型中,高阶谐波控制引起的桨尖涡附加位移通过对高阶入流进行时间积分推导得出,而单一阶次的谐波输入引起的各阶谐波响应通过传递函数来确定,传递函数则由桨叶的动力学特性计算。首先对HARTⅡ旋翼斜下降飞行状态的桨-涡干扰气动载荷进行了计算模拟,验证了所建立方法的可靠性。然后,着重研究了在典型的三阶谐波桨根激励下,不同输入相位对HARTⅡ旋翼桨-涡干扰气动载荷和噪声特性的影响。结果表明:桨叶的动力学特性尤其是扭转特性对高阶谐波控制效果影响显著,且高阶谐波输入的相位选择对桨-涡干扰噪声的控制至关重要,若控制相位选择不当,反而会增大旋翼噪声。     

一种涡轴发动机系统应急状态快速响应控制方法

针对直升机应急状态下特殊快速响应需求,基于涡轮放气原理,提出了一种新的应急状态快速响应控制方法.在应急状态下,除了燃油控制外,同时将涡轮放气量作为发动机控制变量,采用多变量鲁棒方法设计了应急状态直升机/涡轴发动机三变量快速响应控制器,该综合控制方法不仅实现了直升机垂飞通道的控制,而且在保持输出功率通道稳定,即自由涡轮转速恒定的前提下,借助于涡轮放气实现了燃气涡轮转速的闭环控制,有效实现了发动机功率快速跟随能力.最后,以直升机UH-60/涡轴发动机T700综合模型为对象,仿真验证了在直升机应急状态急升-急降过程中,直升机垂飞速度、发动机自由涡轮转速以及燃气涡轮转速跟踪指令的情况,结果表明:相比传统的PID(proportional integration differential)控制,基于快速响应控制方法建立的闭环系统响应迅速,动静态品质良好,能够达到直升机应急状态的特殊设计要求.      

Excitation control of a synchronous generator using a lookup table

A scheme involving the use of a lookup table is developed for the excitation control of a synchronous generator. The proposed control scheme, generator speed deviation, and acceleration deviation are taken as the input signals. These input signals are sampled and converted to linguistic terms before they are fed into the controller. The controller generates the desired output (control) signal by using a set of production rules (if-then rules) that are based on previous experience to relate the input signals to the output. The output signal is converted from linguistic terms to a numerical value before it is sent to the excitation system of the synchronous machine. To demonstrate the effectiveness of the proposed control scheme, digital simulations of a synchronous generator subject to a three-phase fault under different operating conditions were performed. It was found that the controller can improve the dynamic performance of a synchronous generator over a wide range of operating conditions. Since the controller does not require model identification, it is computationally efficient and is suitable for online excitation control, using a microcomputer     

A Novel Feedforward Compensation Canceling Input Filter-Regulator I nteraction

The interaction between the input filter and the control loop of switching regulators often results in detrimental effects, such as loop instability, degradation of transient response, and audiosusceptibility, etc. The concept of pole-zero cancellation is employed to mitigate some of these detrimental effects and is implemented using a novel feedforward loop, in addition to existing feedback loops of a buck regulator. Experimental results are presented which show excellent correlation with theory.     

Input-Filter Design for Switching Regulators

The interaction between the input filter and the control loop of switching regulators often results in detrimental effects, such as loop instability, transient response, and audio-signal-rejection rate, etc. A small-signal average model is derived to investigate these effects. Design constraints of an input-filter and switching-regulator system are formulated. An optimum low-pass and light-weight filter configuration is proposed.     

Substorms and Their Solar Wind Causes

Consequences of the solar wind input observed as large scale magnetotail dynamics during substorms are reviewed, highlighting results from statistical studies as well as global magnetosphere/ionosphere observations. Among the different solar wind input parameters, the most essential one to initiate reconnection relatively close to the Earth is a southward IMF or a solar wind dawn-to-dusk electric field. Larger substorms are associated with such reconnection events closer to the Earth and the magnetotail can accumulate larger amounts of energy before its onset. Yet, how and to what extent the magnetotail configuration before substorm onset differs for different solar wind driver is still to be understood. A strong solar wind dawn-to-dusk electric field is, however, only a necessary condition for a strong substorm, but not a sufficient one. That is, there are intervals when the solar wind input is processed in the magnetotail without the usual substorm cycle, suggesting different modes of flux transport. Furthermore, recent global observations suggest that the magnetotail response during the substorm expansion phase can be also controlled by plasma sheet density, which is coupled to the solar wind on larger time-scales than the substorm cycle. To explain the substorm dynamics it is therefore important to understand the different modes of energy, momentum, and mass transport within the magnetosphere as a consequence of different types of solar wind-magnetosphere interaction with different time-scales that control the overall magnetotail configuration, in addition to the internal current sheet instabilities leading to large scale tail current sheet dissipation.     

Sliding mode and shaped input vibration control of flexible systems

In this paper, the vibration reduction problem is investigated for a flexible spacecraft during attitude maneuvering. A new control strategy is proposed, which integrates both the command input shaping and the sliding mode output feedback control (SMOFC) techniques. Specifically, the input shaper is designed for the reference model and implemented outside of the feedback loop in order to achieve the exact elimination of the residual vibration by modifying the existing command. The feedback controller, on the other hand, is designed based on the SMOFC such that the closed-loop system behaves like the reference model with input shaper, where the residual vibrations are eliminated in the presence of parametric uncertainties and external disturbances. An attractive feature of this SMOFC algorithm is that the parametric uncertainties or external disturbances of the system do not need to satisfy the so-called matching conditions or invariance conditions provided that certain bounds are known. In addition, a smoothed hyperbolic tangent function is introduced to eliminate the chattering phenomenon. Compared with the conventional methods, the proposed scheme guarantees not only the stability of the closed-loop system, but also the good performance as well as the robustness. Simulation results for the spacecraft model show that the precise attitudes control and vibration suppression are successfully achieved.     

An LMI-based decoupling control for electromagnetic formation flight

Electromagnetic formation flight(EMFF) leverages electromagnetic force to control the relative position of satellites. EMFF offers a promising alternative to traditional propellant-based spacecraft flight formation. This novel strategy is very attractive since it does not consume fuel. Due to the highly coupled nonlinearity of electromagnetic force, it is difficult to individually design a controller for one satellite without considering others, which poses challenges to communications.This paper is devoted to decoupling control of EMFF, including regulations, constraints and controller design. A learning-based adaptive sliding mode decoupling controller is analyzed to illustrate the problem of existing results, and input rate saturation is introduced to guarantee the validity of frequency division technique. Through transformation, the imposed input rate saturation is converted to state and input constraints. A linear matrix inequalities(LMI)-based robust optimal control method can then be used and improved to solve the transformed problem. Simulation results are presented to demonstrate the effectiveness of the proposed decoupling control.     

Application of SMA in Membrane Structure Shape Control

Shape memory alloy (SMA) actuators have found a wide range of applications due to their unique properties such as high force, long stroke, small size, light weight, and silent operation, etc. However, their strong nonlinear properties make them a challenge to achieve accurate actuations. A simple control strategy is presented based on the idea of adjusting the SMA wire temperature as rapidly as possible. This strategy is simple, stable, and requires no hysteresis model or thermal model. The strategy is tested first on tracking displacement outputs, and effects of updating rate and input current on control accuracy are also discussed. It is then used for active shape control of a membrane structure model by adjusting its boundary tensions. Results indicate that under the developed control strategy, SMA wire actuators can offer very good accuracy in tracking displacement outputs and tension outputs. For the membrane structure shape control, the structure shape precision is improved greatly.     

杂光对微光物镜系统中心分辨率的影响与分析

当微光物镜系统中产生杂散光后，将会降低物像的对比度，从而使系统分辨率降低、像质变坏。本文将从理论上加以分析，将杂光系数这一因子，引入于以A·ROSE理论为基础建立的探测方程式之中，并就荣光系数对系统分辨率的影响作了估算，再对有关资料数据进行分析处理，以期使理论与实际结合起来说明问题。     

Constrained adaptive neural network control of an MIMO aeroelastic system with input nonlinearities

A constrained adaptive neural network control scheme is proposed for a multi-input and multi-output (MIMO) aeroelastic system in the presence of wind gust, system uncertainties, and input nonlinearities consisting of input saturation and dead-zone. In regard to the input nonlinear-ities, the right inverse function block of the dead-zone is added before the input nonlinearities, which simplifies the input nonlinearities into an equivalent input saturation. To deal with the equiv-alent input saturation, an auxiliary error system is designed to compensate for the impact of the input saturation. Meanwhile, uncertainties in pitch stiffness, plunge stiffness, and pitch damping are all considered, and radial basis function neural networks (RBFNNs) are applied to approximate the system uncertainties. In combination with the designed auxiliary error system and the backstep-ping control technique, a constrained adaptive neural network controller is designed, and it is pro-ven that all the signals in the closed-loop system are semi-globally uniformly bounded via the Lyapunov stability analysis method. Finally, extensive digital simulation results demonstrate the effectiveness of the proposed control scheme towards flutter suppression in spite of the integrated effects of wind gust, system uncertainties, and input nonlinearities.     

直升机旋翼阵风响应研究

简要综述了当前直升机旋翼阵风响应的理论研究和试验对比研究的成果及发展方向，事实表明，旋翼的阵风响应是一个比较复杂的动态现象，它是研究旋翼在遭遇到一定形式的阵风后，旋翼由阵风诱导的响应参量的动态变化规律，它不仅影响直升机的驾驶品质，而且影响直升机的疲劳载荷和强度，其研究目的不仅在于进行理论分析和试验对比研究，而且还在于研究阵风减缓的机理和装置，阵风响应的研究对于具有较高动应力与振动水平的无铰旋翼的设     

RBF网络用于边界层转捩中抽吸流优化控制

 在抽吸气流控制边界层转捩问题中 ,将径向基神经网络用于抽吸流速与转捩位置间的函数关系建模 ,构造了网络结构 ,利用一组两通道抽吸流控制转捩的实验数据训练网络 ,获得了优化的网络参数。在此基础上 ,利用训练网络所获得的输入 /输出关系模型求解了最优抽吸流速。结果表明 ,RBF网络可有效地应用于边界层转捩主动控制中的系统函数关系建模。