带输入饱和的直升机信息融合解耦控制算法

针对带输入饱和的直升机解耦控制问题,提出了一种改进的信息融合解耦控制算法,通过融合主通道和相应耦合通道期望输出和控制能量的软约束信息,以及系统状态方程和输出方程的硬约束信息,获得二次型性能指标下解耦控制律的最优估计,使直升机的内回路控制具有良好的动态特性和解耦性能。通过控制能量软约束信息的自适应调节,使求取的控制量满足输入饱和限制要求,避免了因输入饱和导致的解耦性能变差和驱动器过载问题。提出的信息融合控制算法基于被控对象的离散模型实现,容易应用于工程实际中。仿真结果表明了该算法的有效性。     

考虑状态约束的二体旋转库仑卫星系统重构控制

研究考虑控制输入饱和与状态约束的深空旋转二体库仑卫星构型控制问题,只采用卫星之间的库仑力作为控制力,提出一种基于反步法的非线性控制方法。首先推导了二体库仑卫星在地-月系平动点附近的相对运动方程,利用旋转二体库仑卫星的特性,对方程进行了简化。为了完成禁止相对运动区域的回避,设计了新的状态限制辅助函数,结合抗饱和方法与反步法得到了二体库仑卫星的构型控制器。接着证明了由于状态限制辅助函数的加入,所设计的控制器可以保证卫星相对运动不超出限制范围。进一步应用Lyapunov稳定性定理证明了其闭环系统的一致最终有界性。最后在Matlab/Simulink平台上进行了仿真校验,结果表明了方法的有效性。     

变结构Anti-windup-PID控制器在天线伺服系统中的应用

针对某天线伺服系统中的速度稳定回路设计了变结构Anti-windup-PID控制器,克服了经典PID控制器输出饱和的非线性影响,使速度稳定回路在控制器输出饱和时仍能达到比较满意的性能指标。运用MATLAB中的simulink工具箱对速度稳定回路和电流回路建模,并引入该控制器进行仿真,同时通过实验测试该控制器。结果表明,控制器有效地抑制系统的积分windup现象,实现了系统的快速无静差调节,证明系统具有较好的鲁棒性和稳态性能。     

Semi-global leader-following consensus-based formation flight of unmanned aerial vehicles

In this paper, we investigate a formation control problem of multi-agent systems(specifically a group of unmanned aerial vehicles) based on a semi-global leader-following consensus approach with both the leader and the followers subject to input saturation. Utilizing the low gain feedback design technique, a distributed static control protocol and a distributed adaptive control protocol are constructed. The former solves the problem under an assumption that the communication network is undirecte...     

Saturated super-twisting sliding mode missile guidance

This paper concentrates on developing a missile terminal guidance law against a highly maneuvering target whose maneuvering acceleration is very close to that of the missile or even exceeds the missile normal acceleration in a finite period of time. A new saturated super-twisting algorithm is proposed and applied to the design of missile guidance law. The proposed algorithm has the advantages of simple structure, easy parameter tuning rules and a full utilization of the limit control input. The designed saturated super-twisting sliding mode guidance law is then employed in a missile guidance system. Simulation and its superior performance against strong maneuvering targets is demonstrated.     

Data-driven model-free adaptive attitude control of partially constrained combined spacecraft with external disturbances and input saturation

This study presents an improved data-driven Model-Free Adaptive Control(MFAC)strategy for attitude stabilization of a partially constrained combined spacecraft with external disturbances and input saturation. First, a novel dynamic linearization data model for the partially constrained combined spacecraft with external disturbances is established. The generalized disturbances composed of external disturbances and dynamic linearization errors are then reconstructed by a Discrete Extended State Observer(DESO). With the dynamic linearization data model and reconstructed information, a DESO-MFAC strategy for the combined spacecraft is proposed based only on input and output data. Next, the input saturation is overcome by introducing an antiwindup compensator. Finally, numerical simulations are carried out to demonstrate the effectiveness and feasibility of the proposed controller when the dynamic properties of the partially constrained combined spacecraft are completely unknown.     

现实真比例导引拦截任意机动目标捕获区域

主动机动突防技术的发展给大气层外动能拦截带来了严重困难。假设目标机动加速度方向垂直于弹目视线、形式任意且有界，分析了用于大气层外拦截制导的现实真比例导引律（RTPN）对该任意机动目标的捕获区域。首先在考虑拦截器存在机动过载饱和限制的情况下，推导了比例导引系数的选择范围，可使RTPN的制导指令加速度在拦截过程中不超过拦截器饱和过载；其次基于不等式分析方法，在不考虑拦截器过载限制时，推导了RTPN对任意机动目标的捕获区域；然后结合拦截器机动过载限制，推导了RTPN对任意机动目标的更加实用的捕获区域；最后通过数值仿真算例，验证了所提出的理论。     

Robust fault-tolerant saturated control for spacecraft proximity operations with actuator saturation and faults

In this paper, the motion control problem of autonomous spacecraft rendezvous and docking with a tumbling target in the presence of unknown model parameters, external disturbances, actuator saturation and faults is investigated. Firstly, a nonlinear six degree-of-freedom dynamics model is established to describe the relative motion of the chaser spacecraft with respect to the tumbling target. Subsequently, a robust fault-tolerant saturated control strategy with no precise knowledge of model parameters and external disturbances is proposed by combining the sliding mode control technique with an adaptive methodology. Then, within the Lyapunov framework, it is proved that the designed robust fault-tolerant controller can guarantee the relative position and attitude errors converge into small regions containing the origin. Finally, numerical simulations are performed to demonstrate the effectiveness and robustness of the proposed control strategy.     

欠驱动直连式三体绳系卫星非线性姿态跟踪控制

针对存在外部有界干扰和控制饱和的欠驱动直连式三体旋转绳系卫星系统姿态跟踪控制问题,提出了一种分布式非线性控制方法。首先考虑单体欠驱动绳系卫星姿态模型,由于其复杂的非完整动力学特性,应用微分同胚映射的方法先将模型进行转换,进一步基于反步法设计了欠驱动姿态跟踪滑模控制器,并结合抗饱和方法解决了控制受限的问题。然后应用Lyapunov稳定性定理证明了其闭环系统的一致最终有界性。进一步考虑绳系卫星系统的运动同步性,将欠驱动单体绳系卫星姿态控制器设计扩展至直连式三体绳系卫星姿态系统,设计了分布式欠驱动非线性控制器。最后进行了数学仿真,验证了本文所设计控制方法的有效性。     

钛合金齿轮LPES法表面强化的电场与流场

针对TC4钛合金齿轮复杂曲面液相等离子体电解渗透(LPES)表面强化放电困难的问题,基于仿真分析和实验验证的方法,建立了齿轮表面强化系统仿真模型,进行了强化系统电场和流场仿真,确定了齿轮复杂表面放电机理,研究了电极系统参数和入口流速对强化层形成的影响。结果表明:齿轮复杂表面放电困难的根本原因在于电场的分布不均。采用啮合形阳极时的电场和强化层均匀性较好。电极距离过小容易造成强化系统的短路,过大时会降低强化层的均匀性和厚度。合理的系统电解液流速对放电的稳定性和强化层的形成均具有重要的意义。相较于未处理时的基体,强化后的齿轮表面耐磨性有了明显提升。