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991.
Yongxin Hu Panfeng Huang Zhongjie Meng Dongke Wang Yingbo Lu 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(9):2344-2351
Approaching control is a key mission for the tethered space robot to perform the task of removing space debris. But the uncertainties of the TSR such as the change of model parameter have an important effect on the approaching mission. Considering the space tether and the attitude of the gripper, the dynamic model of the TSR is derived using Lagrange method. Then a disturbance observer is designed to estimate the uncertainty based on STW control method. Using the disturbance observer, a controller is designed, and the performance is compared with the dynamic inverse controller which turns out that the proposed controller performs better. Numerical simulation validates the feasibility of the proposed controller on the position and attitude tracking of the TSR. 相似文献
992.
993.
David Arnas Daniel Casanova Eva Tresaco 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(11):3683-3695
4D Lattice Flower Constellations is a new constellation design framework, based on the previous 2D and 3D Lattice theories of Flower Constellations, that focus on the generation of constellations whose satellites can have different semi-major axis and still present a constellation structure that is maintained during the dynamic of the system. This situation can arise when dealing with satellites with very different instruments, or when it is of interest to coordinate two different constellations. In that sense, 4D Lattice Flower Constellations constitutes the most general representation of the Flower Constellation formulation. In addition, the effects of the perturbation are taken into account in order to generate distributions that maintain their initial design configuration under this perturbation for longer periods of time with a low fuel budget. Finally, examples of application are presented, showing the possibilities in satellite constellation design of this new approach. 相似文献
994.
Houman Hakima Michael C.F. Bazzocchi M. Reza Emami 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(9):2377-2392
This paper introduces a mission concept for active removal of orbital debris based on the utilization of the CubeSat form factor. The CubeSat is deployed from a carrier spacecraft, known as a mothership, and is equipped with orbital and attitude control actuators to attach to the target debris, stabilize its attitude, and subsequently move the debris to a lower orbit where atmospheric drag is high enough for the bodies to burn up. The mass and orbit altitude of debris objects that are within the realms of the CubeSat’s propulsion capabilities are identified. The attitude control schemes for the detumbling and deorbiting phases of the mission are specified. The objective of the deorbiting maneuver is to decrease the semi-major axis of the debris orbit, at the fastest rate, from its initial value to a final value of about 6471?km (i.e., 100?km above Earth considering a circular orbit) via a continuous low-thrust orbital transfer. Two case studies are investigated to verify the performance of the deorbiter CubeSat during the detumbling and deorbiting phases of the mission. The baseline target debris used in the study are the decommissioned KOMPSAT-1 satellite and the Pegasus rocket body. The results show that the deorbiting times for the target debris are reduced significantly, from several decades to one or two years. 相似文献
995.
《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2020,65(9):2223-2234
Since more than one decade ago, several institutions started to offer a large variety of Operative Space Weather (SWx) products. This is of major importance because Space Weather events can affect aviation communications, global positioning systems, grid electric power, satellite technologies, and human health in space. The scientific potential on solar-terrestrial physics in Argentina motivated the creation of an interdisciplinary Laboratory of Space Weather in Argentina. The Argentinean Space Weather Laboratory (in Spanish ‘Laboratorio Argentino de Meteorología del esPacio’, LAMP) was initiated in 2016, and it carries out daily monitoring of real-time information (space and ground-based instruments) on Space Weather. The information is synthesized on a weekly bulletin as a summary of the Space Weather conditions, and it is posted on a website (spaceweather.at.fcen.uba.ar). The analyzed information includes own data and of other centers that offer them publicly, and it is also analyzed and discussed later on, during monthly briefings. In particular, one of the regional products that is included in the briefing discussions and it was developed by LAMP in collaboration with INPE-EMBRACE, involves Vertical Total Electron Content (VTEC) maps in the Argentinean region. LAMP set up a Space Weather Laboratory in the Antarctic peninsula, in the Argentine Marambio base, where a Water Cherenkov radiation Detector (WCD) was installed during the Argentinean Antarctic campaign (January-March of 2019). This detector is the southern node of a Latin American Collaboration (LAGO, Latin American Giant Observatory), which is a network of WCDs installed throughout more than 10 Latin American countries. 相似文献
996.
针对关节执行器存在部分失效(PLCE)故障的漂浮基柔性空间机械臂系统,提出一种自适应H∞容错抑振混合控制算法。结合拉格朗日法与弹性振动理论推导出了系统的动力学微分方程,并截取反映柔性臂杆主振型的前两阶模态作振动分析。根据奇异摄动原理对系统进行降维,并将其分解为一个刻画刚性臂杆轨迹跟踪的慢变子系统与一个刻画柔性臂杆模态振动的快变子系统;由此设计了由慢变子系统的自适应H∞容错控制器及快变子系统的线性最优减振控制器组成混合控制器。与传统容错控制器相比,所设计的自适应H∞容错控制器具有无需获取故障先验知识的优点。对比仿真结果表明:慢变子系统的容错控制器对于PLCE型关节执行器故障具备较强的鲁棒性,快变子系统的线性最优减振控制器能够将柔性臂杆的振动模态调节至较低水平,从而校验了理论分析的正确性与混合控制策略的有效性。 相似文献
997.
针对空间目标态势威胁响应和预警研究不完善的问题,为实现空间目标行为和事件的智能推理、实时响应和主动预警,保障航天活动和空间利益,提出面向行为与事件的空间目标态势本体模型(BEO-SO2)。基于基本形式本体(BFO),构建空间目标态势行为与事件本体模型。在统一时空框架下建立空间目标关系模型,实现空间目标行为执行和事件发生过程的动态推演。以空间目标碰撞威胁为背景,设计对象实体等级体系和碰撞威胁行为与事件要素,建立碰撞威胁推理规则,基于空间目标态势行为与事件本体进行实现、验证与展示。结果表明,空间目标态势行为与事件本体能够实现空间目标碰撞威胁的等级推理与预警,并指导进一步的空间活动,为航天任务与空间活动提供有效保障。 相似文献
998.
999.
针对超大功率空间太阳能电站(SSPS),提出了一种分布式+集中式系统拓扑架构,将系统电力传输分为太阳电池阵区、主结构电力传输区及发射天线阵区三大部分。根据系统三大阵区的能量流动关系,本文将SSPS系统的工作模式划分为最大功率点跟踪(MPPT)工作模式、跟踪功率指令工作模式及阴影区工作模式,并提出分层能源管理控制策略。最后,针对兆瓦级太阳电池阵的不同工作模式,利用Matlab/Simulink搭建空间太阳能电站系统仿真模型,进行仿真试验及对比分析,试验结果验证了拓扑架构的合理性及控制策略的有效性,为解决空间太阳能发电技术电力传输与能量管理问题提出了新思路。 相似文献
1000.
《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2020,65(7):1742-1757
This paper demonstrates active space debris removal using spaceborne laser systems. The laser beam and the surface of the target are discretised into multiple rays and finite elements, respectively, for laser-target interaction modelling, in which the laser ablation process is investigated. A high-fidelity attitude/orbit propagator tool is developed to account for both the linear impulse and angular impulse induced by the laser engagement and other perturbations. The laser system is activated only when three switch criteria are satisfied. In numerical simulations, laser pulses from international space station are generated to deorbit a 3U CubeSat with initially tumbling modes. The results validate the effectiveness of deorbiting tumbling CubeSats using spaceborne laser engagement, with the perigee height lowered by approximately in around after propagation. It is also found that the laser engagement becomes more effective for an initially faster rotating object. 相似文献