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A fault tolerant control (FTC) design technique against actuator stuck faults is investigated using integral-type sliding mode control (ISMC) with application to spacecraft attitude maneuvering control system. The principle of the proposed FTC scheme is to design an integral-type sliding mode attitude controller using on-line parameter adaptive updating law to compensate for the effects of stuck actuators. This adaptive law also provides both the estimates of the system parameters and external disturbances such that a prior knowledge of the spacecraft inertia or boundedness of disturbances is not required. Moreover, by including the integral feedback term, the designed controller can not only tolerate actuator stuck faults, but also compensate the disturbances with constant components. For the synthesis of controller, the fault time, patterns and values are unknown in advance, as motivated from a practical spacecraft control application. Complete stability and performance analysis are presented and illustrative simulation results of application to a spacecraft show that high precise attitude control with zero steady-error is successfully achieved using various scenarios of stuck failures in actuators. 相似文献
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卫星编队控制问题中,分布式控制优于主从式控制,在编队控制中应用日益广泛。提出了一种基于循环追踪算法的分布式控制策略,分析了该方法的优势。由于循环追踪算法存在编队中心由初始几何中心固定并与运动过程无关的弱点,引进了虚拟灯塔导引进行联合控制实现编队中心可变。建立了三维空间相对运动数学模型,设计非线性循环追踪算法与虚拟灯塔导引联合控制律,对全员联合控制与单星联合控制其余卫星采用非线性循环追踪控制两种方案的计算结果进行比较。结果表明,全员联合控制律的控制方案优于仅单星采用联合控制的方案,两种方案均可实现卫星编队按指定构形运动。 相似文献
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《中国航空学报》2020,33(7):2014-2023
This paper considers a fault-tolerant control and vibration suppression problem of flexible spacecraft. The attitude dynamics is modeled by an interconnected system, in which the rigid part and the flexible part are coupled with each other. Such a model allows us to use the interconnected system approach to analyze the flexible spacecraft. Both distributed and decentralized observer-based fault-tolerant control schemes are developed, under which the closed-loop stability of flexible spacecraft can be ensured by using the cycle-small-gain theorem. Compared with the traditional method, this paper considers the faults occurred not only in the rigid parts, but also in the flexible parts. In addition, the application of the interconnected system approach simplifies the system model of flexible spacecraft, thereby the difficulty of theoretical analysis and engineering practice of fault-tolerant control of flexible spacecraft are greatly reduced. Simulation results show the effectiveness of the proposed methods and the comparison of different fault-tolerant control approach. 相似文献
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Lee A.Y. Yu J.W. Kahn P.B. Stoller R.L. 《IEEE transactions on aerospace and electronic systems》2002,38(2):502-514
Preliminary error budgets for the pointing knowledge, control, and stability of the Space Interferometry Mission (SIM) spacecraft are constructed using the specifications of commercial off-the-shelf attitude determination sensors, attitude control actuators, and other spacecraft capabilities that have been demonstrated in past missions. Results obtained indicate that we can meet all the presently known spacecraft pointing requirements. A large number of derived requirements are generated from this study. Examples are specifications on attitude determination sensors, attitude control actuators, minimum settling time after a rest-to-rest spacecraft slew. Preliminary error budgets constructed in this study must be updated to reflect the changing spacecraft design and requirements 相似文献
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航天器制导与控制技术是保障空间任务顺利实施的关键技术之一。当前,动力学模型的强非线性以及参数不确定性制约了高精度姿轨控技术的发展,而系统故障则决定航天器姿轨控的成败。以机器学习为代表的新一代人工智能技术航天器制导控制领域展现了巨大的应用潜力。首先对基于人工智能技术的轨迹制导和姿态控制中的研究发展及应用现状进行归纳,分析航天器轨迹规划、姿态控制、故障诊断以及容错控制技术的发展趋势。然后,从鲁棒轨迹规划、自适应姿态控制、快速故障诊断和自适应容错控制等4个方面总结适用于未来航天任务的航天器姿轨控关键技术。最后,针对智能姿轨控技术的应用所面临的挑战,从姿轨控架构、算法最优性、算法的训练以及技术验证等方面提出相应的发展建议。 相似文献
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空间信息综合应用是未来航天的发展趋势,引进网络化技术,打造天地一体化测控通信网是实现信息综合应用的必由之路.一体化测控通信网作为空间信息传输、分发的公共基础设施,将各类飞行器、地/海/空/天基测控站(接收站)及指控中心、测控中心、用户等都作为网中的标准节点,以实现测控通信任务统一指挥控制、飞行器态势综合显示、测控通信资源综合利用和可持续发展.从新时期航天科技的发展特点得出,空间网络化是必然发展趋势.总结了国内外航天网络化发展的研究成果,提出测控通信网络化的定义、未来体系结构以及实施步骤,设计了空间网络化飞行验证试验的基本方案,剖析了空间网络化体系构建的关键技术. 相似文献
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《中国航空学报》2020,33(1):271-281
This paper investigates the problem of Spacecraft Formation-Containment Flying Control (SFCFC) when the desired translational velocity is time-varying. In SFCFC problem, there are multiple leader spacecraft and multiple follower spacecraft and SFCFC can be divided into leader spacecraft’s formation control and follower spacecraft’s containment control. First, under the condition that only a part of leader spacecraft can have access to the desired time-varying translational velocity, a velocity estimator is designed for each leader spacecraft. Secondly, based on the estimated translational velocity, a distributed formation control algorithm is designed for leader spacecraft to achieve the desired formation and move with the desired translational velocity simultaneously. Then, to ensure all follower spacecraft converge to the convex hull formed by the leader spacecraft, a distributed containment control algorithm is designed for follower spacecraft. Moreover, to reduce the dependence of the designed control algorithms on the graph information and increase system robustness, the control gains are changing adaptively and the parametric uncertainties are handled, respectively. Finally, simulation results are provided to illustrate the effectiveness of the theoretical results. 相似文献
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航天智能控制技术让运载火箭“会学习” 总被引:2,自引:0,他引:2
高可靠和智能化是未来智能航天器的主要特点,本文聚焦航天器高可靠、智能化的发展需求。梳理了中国运载火箭从无到有、从有到全的发展历程,提出了航天智能技术从航天器的可靠性做起,航天器的可靠性从航天智能控制做起,航天智能控制从"会学习"的火箭做起。围绕航天智能控制技术如何使运载火箭"会学习"的发展架构,进一步探索了"边飞边学"和"终身学习"智能控制技术的理论研究和应用现状,支撑中国"会学习"运载火箭高可靠和智能化的发展。 相似文献
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克服旋转飞行器螺旋运动的方法研究 总被引:1,自引:0,他引:1
旋转飞行器虽然具有内在稳定性,但在飞行过程中一些不确定因素会导致飞行器产生螺旋运动,而非理想的关于角动量矢量纯粹的旋转运动。结合旋转飞行器自身的特点,借鉴自旋卫生的被动章动阻尼的方法,提出了一种通过主动控制飞行器内部质量块的运动使得飞行器碑的惯量主轴发生偏移,惯量矩阵由原来的对称阵变为含有非零非对角元素的矩阵,从而改变飞行器的姿态角运动来克服螺旋运动的方法,这将有助于提高旋转飞行器的资态控制精度。以某型旋转飞行器为背景进行仿真研究,计算结果证实了该方法的有效性和可行性。 相似文献
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针对航天器研制过程总装技术状态的结构化刻画、比对以及传递需求,提出一种航天器总装技术状态的结构化表达、统计、管理与应用方法,该方法针对产品设计、工艺设计和工艺实施人员的技术状态协同控制需求,分别定义总装设计(ADC)、总装工艺(APDC)以及总装实做(AIC)等3种技术状态控制视图,以数字样机作为数据集成管理框架,结合基于活动内容模板的工艺设计方法,实现总装工艺技术状态的设置与管理,最终实现总装全过程技术状态数据的精确控制。此外,通过基于工艺数字样机的总装技术状态比对,实现了一种与总装工艺设计及实施过程紧密结合的技术状态视图应用方法。将其应用到卫星设备总装技术状态的控制过程中,证明了该方法对技术状态控制的有益作用。 相似文献
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研究在角速度不可测时航天器的有限时间姿态控制问题。基于有限时间控制技术,提出了由修正Rodrigues参数进行姿态描述的航天器输出反馈姿态控制算法。首先设计了单个航天器的输出反馈姿态控制器,在没有角速度反馈时也能够保证航天器姿态在有限时间内调节到期望姿态。之后,设计了无需绝对角速度和相对角速度信息的多航天器分布式输出反馈姿态控制器。使用Lyapunov理论和图论,对闭环系统全局有限时间稳定性进行了严格的证明。最后对提出的控制算法进行了数值仿真,其结果验证了所设计的航天器输出反馈控制算法的可行性和有效性。 相似文献
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《中国航空学报》2016,(6):1730-1739
This paper derives a distance-based formation control method to maintain the desired formation shape for spacecraft in a gravitational potential field. The method is an analogy of a vir-tual spring-damper mesh. Spacecraft are connected virtually by spring-damper pairs. Convergence analysis is performed using the energy method. Approximate expressions for the distance errors and control accelerations at steady state are derived by using algebraic graph representations and results of graph rigidity. Analytical results indicate that if the underlying graph of the mesh is rigid, the convergence to a static shape is assured, and higher formation control precision can be achieved by increasing the elastic coefficient without increasing the control accelerations. A numerical exam-ple of spacecraft formation in low Earth orbit confirms the theoretical analysis and shows that the desired formation shape can be well achieved using the presented method, whereas the orientation of the formation can be kept pointing to the center of the Earth by the gravity gradient. The method is decentralized, and uses only relative measurement information. Constructing a distributed virtual structure in space can be the general application area. The proposed method can serve as an active shape control law for the spacecraft formations using propellantless internal forces. 相似文献
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Optical guidance for autonomous landing of spacecraft 总被引:7,自引:0,他引:7
Miso T. Hashimoto T. Ninomiya K. 《IEEE transactions on aerospace and electronic systems》1999,35(2):459-473
An autonomous rendezvous guidance scheme for spacecraft to descend to small celestial bodies by using optical information is presented. First, a new guidance, navigation, and control (GNC) method based on fixation-point (FP) inheritance is proposed. A spacecraft can safely descend toward the target point on the celestial body by tracking and autonomously renewing the FPs on the surface. Next, we deal with the method of extracting the FPs. A spatial band-pass filter (BPF) is applied to pictures taken to enhance features having comparable size with the tracking window. Local variance of the filtered image is used as a criterion of the extraction. Then, the relative information between the spacecraft and the celestial body (position, velocity, attitude, etc.) is calculated from the image coordinates and the range measurements of the FPs from the spacecraft. To suppress observation noise and improve navigation accuracy, an application of the extended Kalman filter is also presented. Finally, simulations are conducted to verify the guidance precision and the fuel consumption of the proposed guidance scheme 相似文献
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航天器控制系统智能健康管理技术发展综述 总被引:1,自引:0,他引:1
健康管理作为智能自主控制亟待突破的关键技术之一,是提升航天器安全可靠稳定运行能力的有效手段。结合人工智能技术的发展趋势,基于前期已建立的新型航天器智能自主控制系统通用架构,详细综述航天器控制系统的智能健康管理技术现状与发展趋势。首先,根据现有航天器设计、研制和在轨的具体情况,梳理出航天器控制系统健康管理技术所面临的挑战;然后,分别从故障预警、故障诊断和寿命评估3个方面,详细阐述基于人工智能的健康管理技术研究现状及其在航天领域的应用情况;最后,提炼出航天器控制系统健康管理技术的发展方向。 相似文献
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Communication delays are inherently present in information exchange between spacecraft and have an effect on the control performance of spacecraft formation. In this work, attitude coordination control of spacecraft formation is addressed, which is in the presence of multiple communication delays between spacecraft. Virtual system-based approach is utilized in case that a constant reference attitude is available to only a part of the spacecraft. The feedback from the virtual systems to the spacecraft formation is introduced to maintain the formation. Using backstepping control method, input torque of each spacecraft is designed such that the attitude of each spacecraft converges asymptotically to the states of its corresponding virtual system. Furthermore, the backstepping technique and the Lyapunov–Krasovskii method contribute to the control law design when the reference attitude is time-varying and can be obtained by each spacecraft. Finally, effectiveness of the proposed methodology is illustrated by the numerical simulations of a spacecraft formation. 相似文献
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《中国航空学报》2021,34(3):176-186
This paper investigates the coordinated attitude control problem for flexible spacecraft formation with the consideration of actuator configuration misalignment. First, an integral-type sliding mode adaptive control law is designed to compensate the effects of flexible mode, environmental disturbance and actuator installation deviation. The basic idea of the Integral-type Sliding Mode Control (ISMC) is to design a proper sliding manifold so that the sliding mode starts from the initial time instant, and thus the robustness of the system can be guaranteed from the beginning of the process and the reaching phase is eliminated. Then, considering the nominal system of spacecraft formation based on directed topology, an attitude cooperative control strategy is developed for the nominal system with or without communication delay. The proposed control law can guarantee that for each spacecraft in the spacecraft formation, the desired attitude objective can be achieved and the attitude synchronization can be maintained with other spacecraft in the formation. Finally, simulation results are given to show the effectiveness of the proposed control algorithm. 相似文献