基于Visual Basic的互感器负荷箱测量仪校准系统的实现

为解决互感器负荷箱测量仪同相分量和正交分量的校准问题,在分析互感器负荷箱测量仪工作原理的基础上,设计了基于电子/电工组合式的互感器负荷箱测量仪校准装置,并简要说明装置电工部分、电子部分以及上位机软件的实现。经省级计量研究院验证结果表明,该装置校准结果符合0.2级要求,可作为标准装置解决1级互感器负荷箱测量仪量值溯源问题。     

Fast spacecraft solar radiation pressure modeling by ray tracing on graphics processing unit

A novel method is presented to evaluate on the graphics processing unit (GPU) the force and torque on a spacecraft due to solar radiation pressure. The method employs efficient ray tracing techniques, developed in the graphics rendering discipline, to resolve spacecraft self-shadowing and reflections at faster than real-time computation speed. The primary algorithmic components of the ray tracing process which contribute to the method’s computational efficiency are described. These components include two-level bounding volume hierarchy acceleration data structures, fast ray to bounding box intersection testing using the slab intersection algorithm and fast triangle intersection testing using the Möller-Trumbore algorithm. Spacecraft material optical properties are represented as a combination of Lambertian diffuse and ideal specular reflections. Both diffuse and specular ray-surface interactions are modeled. The approach is implemented using C++ and OpenCL and executed on a consumer grade GPU. Model validation is presented comparing ray traced force and torque values to the same quantities produce by a faceted analytic model. Numerical results illustrate the impact of self-shadowing on the force and torque calculation, and demonstrate the fast computational speed that is enabled with this implementation.     

Geometric calibration of Colour and Stereo Surface Imaging System of ESA’s Trace Gas Orbiter

There are many geometric calibration methods for “standard” cameras. These methods, however, cannot be used for the calibration of telescopes with large focal lengths and complex off-axis optics. Moreover, specialized calibration methods for the telescopes are scarce in literature. We describe the calibration method that we developed for the Colour and Stereo Surface Imaging System (CaSSIS) telescope, on board of the ExoMars Trace Gas Orbiter (TGO). Although our method is described in the context of CaSSIS, with camera-specific experiments, it is general and can be applied to other telescopes. We further encourage re-use of the proposed method by making our calibration code and data available on-line.     

Numerical investigation on flow nonuniformity-induced hysteresis in scramjet isolator

Numerical simulation and theoretical analysis were conducted to study the hysteresis inside scramjet isolator during the reciprocating process of back pressure variation. It is revealed that only a regular reflection is theoretically possible for two leading shocks when the inflow Mach number is greater than 2.0, and no hysteresis can occur in the transition between shock reflection types. Nevertheless, wall suction, gas injection, and background waves cause non-uniformity of the incoming flow and would make hysteresis possible. Besides the classical hysteresis in the transition between shock reflection, new kinds of hysteresis were found in both the deflection angle of separated boundary layer and the location of the shock train. Moreover, the occurrence of hysteresis in the deflection angle of the separated boundary layer is accompanied with the shock reflection hysteresis. In the case with background waves or gas injection, hysteresis in the starting position of leading shock was observed too. As back pressure decreases, the leading shock does not follow the same path as that as the back pressure increases, and it is anchored at the location where the background shock or the injection interacts with the leading shock. It is inferred that, if two strong adverse pressure gradient regions move towards and interact with each other, hysteresis will take place when they start to separate.     

基于ALE法的水陆两栖飞机船体着水性能分析

水陆两栖飞机的着水性能是体现其综合性能的重要因素之一.应用ALE法对三种水陆两栖飞机船体截面进行入水仿真计算,从着水载荷、喷溅性能及运动响应三个方面对着水性能进行综合评估.对比分析了直线型、带舭弯弧形、复合型三种构型截面在不同速度、不同重量下的压力分布、喷溅性能以及运动响应,得到了三种截面横向压力分布规律.计算结果显示相同状态下,喷溅性能复合型优于带舭弯弧形、带舭弯弧形优于直线型;过载复合型远大于带舭弯弧形,带舭弯弧形稍大于直线型,综合看来带舭弯弧形截面着水性能最佳.     

动平台条件下基于全站仪的标校技术

舰船靠泊码头进行起降引导系统标校时,甲板处于晃动状态,架设在甲板上的全站仪无法满足置平要求,针对这一问题进行了动平台条件下基于全站仪的标校技术研究。首先,建立全站仪测量数学模型,以全站仪在动态条件下的测量数据为基础,将测量数据经空间几何运算后求得任意两目标点在甲板固连坐标系下的相对位置;其次,根据空间物体几何不变的性质,设计实验进行不同倾斜条件下的全站仪数据测量和相对位置偏差求解;最后,通过仿真分析了测量误差对相对位置平均偏差的影响。结果表明,全站仪在动平台条件下其测距、测角精度能满足标校要求。     

基于卫星和星敏感器的冗余激光惯组在轨标定

采用高精度卫星导航速度、位置信息以及星敏感器提供的姿态信息设计十表冗余捷联惯组的标定模型,包含陀螺和加速度计的零次项和标度因数,对卫星和星敏感器辅助的冗余激光陀螺捷联惯组进行实时在轨标定.利用标准Kalman滤波和Sage-Husa自适应滤波作为估计算法,对十表冗余捷联惯组参数进行在线估计.数值仿真结果表明:参数标定精度均在7％以内,是一种实时的在轨标定方法,满足误差补偿要求.冗余惯组在轨标定方法为航天器高精度定姿和定轨提供了一种理论参考.     

典型工况下低排放燃烧室的压力振荡特性

为了研究低排放燃烧室在典型工况下的压力振荡特性,针对模型燃烧室进行了燃烧自激振荡特性试验.在试验中测量了采用贫油预混预蒸发(LPP)燃烧技术的低排放燃烧室在典型工况下的压力振荡频率和幅值,在燃烧室进口压力为1.10～2.77MPa、燃烧室进口温度为656～845 K、燃烧室压降为3.41％～4.35％范围内,分析了燃油粒径变化对振荡特性的影响.分析结果表明:局部当量比脉动是引发燃烧不稳定的因素之一.通过计算燃油二次雾化状态下的液滴最大粒径,发现燃油液滴粒径的变化对主燃级出口处的局部当量比脉动有直接影响,从而引起燃烧室压力振荡幅值和频率的变化.     

微磁强计弱磁处理芯片设计与实现

为适应微纳卫星平台的应用需求、实现磁强计的微型化,针对巨磁阻抗(GMI)效应微磁强计的研制需求设计并研制了弱磁信号处理芯片.在分析GMI微磁强计构造的基础上,针对单机(微)小型化提出了弱磁信号处理电路芯片化的方案;结合空间应用特点,设计并实现了基于SOI CMOS工艺的弱磁信号处理芯片.实测结果表明:基于所研制的弱磁信号处理芯片不仅实现了磁强计的微型化、集成化,而且具有良好的弱磁测量性能.     

不同进口截面下液力透平非定常压力脉动计算

为了研究不同进口截面对液力透平内压力脉动的影响,利用CFX软件对一单级液力透平进行非定常数值计算,通过设置监测点,计算各监测点在不同进口截面下的压力脉动,通过快速傅里叶变换将其压力脉动计算结果做相应分析,分析各监测点处压力脉动的时域和频域分布.结果表明:蜗壳内在大蜗壳进口下,随着蜗壳进口直径的增加,每个监测点处的压力逐渐增加,而在小蜗壳进口下,每个监测点处的压力逐渐减小.在距离蜗壳收缩管较远处,大蜗壳进口下的压力脉动较小,而在距离收缩管较近处,小蜗壳进口下的压力脉动较小.在叶轮内不同进口截面压力脉动的差异在同一时刻从进口到出口逐渐减小.尾水管内在小蜗壳进口下尾水管进口处的压力脉动最大.