柔性机械臂辅助空间站舱段对接阻抗控制

空间机械臂辅助舱段对接过程中存在测量与控制误差,易导致对接机构间存在较大接触力,传统FMA (Force MomentAccommodation)控制方法在测量接触力时无法消除大负载惯性力对测量的影响,且测量仪器的引入会进一步降低空间柔性机械臂的刚度。为此,文章提出了柔性机械臂辅助大负载空间舱段对接的阻抗控制方法,采用拉格朗日法推导了空间机械臂的关节输入力矩方程作为前馈输入,建立了含动力学前馈的空间机械臂阻抗控制程序,并以在商业软件ADAMS中建立的空间柔性机械臂与对接舱段组成的系统动力学模型作为控制对象,对系统进行ADAMS灢Matlab联合仿真。仿真结果表明,按照此控制方法,系统可克服外力干扰使目标解析点按照期望的方式运动;同时,通过测量机械臂关节运动参数即可实现对外力的准确感知,而不需额外添加力传感器,既消除了大负载惯性力对测量的影响,也不会导致柔性机械臂刚度的降低。     

一种改进的多点融合非均匀校正技术

针对空间宽幅相机在进行非均匀性校正过程中相机镜头与积分球输出口的相对位置发生变换后非均匀性校正精度下降的原因进行了分析,提出了一种改进的融合多点位置的非均匀校正新方法,即为了消除积分球的角均匀性和面均匀性的不足,采用获取多个位置的大量定标图像,融合求取平均值的方法得到校正系数来削弱这种影响,并进行试验验证分析。结果表明,多点融合的校正方法在积分球输出口光强不均匀、又无法固定相机与积分球相对位置的前提下,减少了积分球光强的不均匀性对系数可靠性的影响,相对辐射定标的非均匀校正精度得到大幅提高。     

Behavior of tethered debris with flexible appendages

Active exploration of the space leads to growth of a near-Earth space pollution. The frequency of the registered collisions of space debris with functional satellites highly increased during last 10 years. As a rule a large space debris can be observed from the Earth and catalogued, then it is possible to avoid collision with the active spacecraft. However every large debris is a potential source of a numerous small debris particles. To reduce debris population in the near Earth space the large debris should be removed from working orbits. The active debris removal technique is considered that intend to use a tethered orbital transfer vehicle, or a space tug attached by a tether to the space debris. This paper focuses on the dynamics of the space debris with flexible appendages. Mathematical model of the system is derived using the Lagrange formalism. Several numerical examples are presented to illustrate the mutual influence of the oscillations of flexible appendages and the oscillations of a tether. It is shown that flexible appendages can have a significant influence on the attitude motion of the space debris and the safety of the transportation process.     

United Nations Human Space Technology Initiative (HSTI)

The Human Space Technology Initiative was launched in 2010 within the framework of the United Nations Programme on Space Applications implemented by the Office for Outer Space Affairs of the United Nations. It aims to involve more countries in activities related to human spaceflight and space exploration and to increase the benefits from the outcome of such activities through international cooperation, to make space exploration a truly international effort.     

Challenges and perspectives of transport cargo vehicles utilization for performing research in free flight

Russian Progress transport cargo vehicles have successfully been used in different space station programs since 1978. At present time, they play an important role in the International Space Station (ISS) project. Main tasks performed by the transport cargo vehicle (TCV) in the station program are the following: refueling of the station, delivery of consumables and equipment, waste removal, station attitude control and orbit correction maneuver execution.     

An ethical duty: Let astronautical development unfold – to make the people more secure

In examining alternative space-development models, one observes that Heinlein postulated the first Moon flight as the outcome of the focused action of an individual – building upon an ample commercial aerospace transportation infrastructure. The same technological basis and entrepreneurial drive would then sustain a fast human and economic expansion on three new planets. Instead, historically, humans reached the Moon thanks to a “Faustian bargain” between astronautical developers and governments. This approach brought the early Apollo triumphs, but it also created the presumption of this method as the sole one for enabling space development. Eventually, the application of this paradigm caused the decline of the astronautical endeavor. Thus, just as conventional methods became unable to sustain the astronautical endeavor, space development appeared as vital, e.g., to satisfy the people?s basic needs (metabolic resources, energy, materials, and space), as shown elsewhere. Such an endeavor must grow from actions generating new wealth through commercial activities to become self-supporting. Acquisition and distribution of multiform space resources call, however, for a sound ethical environment, as predatory governments can easily forfeit those resources.     

Analytical-HZETRN model for rapid assessment of active magnetic radiation shielding

The use of active radiation shielding designs has the potential to reduce the radiation exposure received by astronauts on deep-space missions at a significantly lower mass penalty than designs utilizing only passive shielding. Unfortunately, the determination of the radiation exposure inside these shielded environments often involves lengthy and computationally intensive Monte Carlo analysis. In order to evaluate the large trade space of design parameters associated with a magnetic radiation shield design, an analytical model was developed for the determination of flux inside a solenoid magnetic field due to the Galactic Cosmic Radiation (GCR) radiation environment. This analytical model was then coupled with NASA’s radiation transport code, HZETRN, to account for the effects of passive/structural shielding mass. The resulting model can rapidly obtain results for a given configuration and can therefore be used to analyze an entire trade space of potential variables in less time than is required for even a single Monte Carlo run. Analyzing this trade space for a solenoid magnetic shield design indicates that active shield bending powers greater than ∼15 Tm and passive/structural shielding thicknesses greater than 40 g/cm² have a limited impact on reducing dose equivalent values. Also, it is shown that higher magnetic field strengths are more effective than thicker magnetic fields at reducing dose equivalent.     

空间光学望远镜在轨建造中的结构机构技术

围绕空间光学望远镜在轨建造中的结构机构技术进行分析,重点包括结构机构相关的关键技术基本概念和技术特点,分别对大型望远镜空间结构拓扑构型优化及模块技术、光机结构机构的高精度展开调整及锁合技术、典型光机元件的在轨增材制造技术、机器人辅助自主精密装配及控制技术进行了技术内涵及先进技术途径分析.最后展望了在轨建造中结构机构技术...     

基于声发射的单层铝板高速撞击损伤类型识别

针对基于声发射技术的在轨航天器遭受空间碎片撞击损伤的评估问题,采用AUTODYN软件进行了弹丸超高速正撞击铝板所产生声发射波动信号的数值模拟,给出了二维模拟结果;对所得到的声发射信号进行小波重构,得到低频和高频部分的信号。通过研究低频和高频信号的峰值变化,发现第一和第二峰值幅度与撞击速度的变化具有一定的规律性,通过低频第二峰值幅度与第一峰值幅度比值将高速撞击损伤模式分为成坑、锥形穿孔和圆柱形穿孔三种类型。
     

空间相机桁架支撑结构满应力优化设计与试验

针对空间相机桁架式支撑结构在设计过程中难以同时保证重量轻且刚度高的问题, 提出了采用满应力方法对桁架杆截面进行优化设计的思想. 以桁架杆重量最低为优化目标, 桁架杆自重变形和桁架的一阶固有频率为约束条件, 桁架杆截面的内外径为优化变量, 建立了基于满应力准则的优化模型. 经过优化, 桁架杆截面的外径为50mm, 内径40mm, 质量6.1kg, 一阶固有频率121Hz. 采用有限元法对优化结果进行模态校核和重力变形校核, 同时为检验碳纤维复合材料的热稳定性, 对桁架组件进行了热变形分析, 得到次镜的偏心和偏转均满足光学设计要求. 对优化设计出的桁架组件进行了0.2g扫频试验以及尺寸稳定性试验. 试验结果表明, 桁架组件一阶固有频率119Hz 与理论分析结果基本吻合; 在45N外力载荷和15°C均匀温升载荷的作用下, 桁架稳定性能良好, 次镜的偏心和偏转均小于5", 满足光学设计要求. 优化设计出的桁架支撑结构具有刚度高、尺寸稳定等特点, 这为实现空间相机向大口径、长焦距、轻型化方向发展奠定了研究基础.