Assessment of the close approach frequency and collision probability for satellites in different configurations of large constellations

The Earth orbital environment is drastically changing due to an intensification of the space activities. In particular, several projects of large constellations, proposed for the next years for communications purpose like global internet access, Internet of Things, or for Earth observations, will lead to the deployment of several thousands of new satellites at an unprecedented rate. It is a crucial challenge for space traffic management, which will deal with a great number of satellite conjunctions, potentially causing a collision with damaging consequences for the constellation itself and the space environment sustainability.In this paper, we investigate the close approach frequency and the cumulative collision probability for each referenced constellation. For this purpose, we compute the orbital evolution of satellites in different constellations during the lifecycle, from the deployment to the decommissioning, and we apply the CUBE algorithm and the Foster method to assess the collision probability with the background space debris population assuming a constant uncertainty in position. We show the variation of risk defined by the close approach frequency and the cumulative collision probability as a function of the proposed configuration. In particular, satellites of the Iridium and Kuiper constellation, but also satellite of the Telesat constellation on polar orbits are the most exposed at a collision. Moreover, the decommissioning phase contribute for a major part to the final cumulative collision probability.     

Fault mode probability factor based fault-tolerant control for dissimilar redundant actuation system

This paper presents a Fault Mode Probability Factor (FMPF) based Fault-Tolerant Control (FTC) strategy for multiple faults of Dissimilar Redundant Actuation System (DRAS) composed of Hydraulic Actuator (HA) and Electro-Hydrostatic Actuator (EHA). The long-term service and severe working conditions can result in multiple gradual faults which can ultimately degrade the system performance, resulting in the system model drift into the fault state characterized with parameter uncertainty. The paper proposes to address this problem by using the historical statistics of the multiple gradual faults and the proposed FMPF to amend the system model with parameter uncertainty. To balance the system model precision and computation time, a Moving Window (MW) method is used to determine the applied historical statistics. The FMPF based FTC strategy is developed for the amended system model where the system estimation and Linear Quadratic Regulator (LQR) are updated at the end of system sampling period. The simulations of DRAS system subjected to multiple faults have been performed and the results indicate the effectiveness of the proposed approach.     

拉扭疲劳试验机同步校准技术研究

介绍了一种新型力值、扭矩多分量传感器，在此传感器的基础上，研究力值、扭矩两参数同步校准技术，从而实现了对拉扭疲劳试验机的系统校准，解决了以往分参数校准存在不可靠性的难题，保证了拉扭疲劳试验机各参数整体系统的准确性。     

数据采集系统的总体评价

从性能指标出发，综述了数据采集系统总结评价技术的发展状况。并提出了对数据采集系统性能指标的两类分类方法 。     

掠海飞行导弹击水概率的仿真研究

本文对掠海导弹的击水概率问题进行了研究,提出了用均匀设计、Monte—Carlo法和逐步回归法建立击水概率预报公式的仿真方法,并结合某型号的反舰导弹进行计算,得到了满意的结果。本文还利用表观频率和表观频谱的概念,建立起飞航导弹的背景干扰——海浪和阵风的数学模型,并用波叠加法进行了数字仿真。     

干式变压器数据采集与控制系统的设计

介绍了一种基于V/F变换的高精度干式变压器数据采集与控制系统 ,采用LM2 3 1A/F变换芯片和89C5 2单片机实现工业现场测量对象的A/D转换。V/F变换器具有高精度 ,高线形度 ,且外围电路简单的特点。采用单片机直接与V/F变换器连接进行A/D转换 ,不需要额外的硬件电路 ,充分利用硬件资源 ,精心设计软件 ,系统分辨率可达 12位 ,转换精度可达 0 .0 2 %。当传感器与上位机距离较远时 ,可以采用RS -4 85接口或无线数据发送 /接收模块实现远距离的数据通信     

基于信息流电路可测试性的度量

准确地度量电路的可测试性是数字系统测试的重要问题之一。本文提出了一种基于信息流度量电路可测试性的方法,它表明可以将一个数字电路看成是一个信息处理系统。因此,电路的可测试性的度量值定义为电路输出的平均信息量与输入的平均信息量的最大值之比。文中给出了如何应用逻辑模拟软件来计算电路可测试性的度量值。对于由模块组成的电路,可以通过模块之间的一些特殊操作求得整个电路可测试性的度量值,本文也给出了方法及实例。文中还给出了应用本文提出的方法进行电路可测试性度量的实例,并与文[1,5]的方法得到的结果进行了比较,从而说明了本文方法的特点。     

适用于含多个隐式极限状态方程的飞机结构系统安全分析新方法

工程复杂随机结构的概率安全分析中，最重要的两个步骤是建立所有失效模式的极限状态方程和计算所建立极限状态方程的失效概率。一般来说大型复杂工程结构的极限状态方程都是隐式的，且当材料参数、结构参数和外载荷等均为随机变量时，极限状态方程均为非线性的，为此文中提出了建立真实复杂结构多模式隐式极限方程的等效方法。该方法对于单个极限状态方程采用在均值点展开成线性项和高次项修正的方式，在概率等效的基础上，建立起原非线性隐式极限状态方程的概率等效线性显式极限状态方程。当结构系统所有极限状态方程都建立了其等效显式线性极限状态方程后，即可利用可得的可靠性分析方法来计算结构系统的等效失效概率。所提方法被用于真实飞机结构翼身连接接头的强度刚度多模式可靠性分析，与迭代响应面法计算结果的对比表明，所提方法具有较高的精度。并且所提方法可以与任何标准有限元程序相结合，而标准有限元程序是当今处理结构力学分析与设计的强有力的工具，文中方法提供了力学分析与概率安全分析相结合的合理连接，其应用前景将是十分广泛的。     

TDICCD相机数据采集与图像处理技术

研制了一种TDICCD相机实时图像采集和微机快视系统,文中介绍了该系统的3个模块:信号采集电路、图像存储和微机滚动显示部分。