酚醛树脂基纳米多孔材料的制备及结构调控

酚醛树脂基纳米多孔材料（Phenolic Resin-based Nanoporous Materials，PNM）是满足新一代航天飞行器轻质、高效隔热需求的新型热防护材料，传统制备方法中需使用超临界干燥技术，制备周期长、成本高。本研究通过两步法，即先合成线性酚醛树脂，再进行溶胶-凝胶的方法，实现了常压干燥PNM的制备。系统研究了固化剂含量、固化温度和固化时间对材料结构的影响和调控作用，分析了影响材料收缩率和热稳定性的因素。结果表明，PNM的微观纳米结构的变化会影响材料干燥后的收缩率，制备大颗粒、大孔径的微观结构更有利于降低材料的收缩率。而PNM的热稳定性主要受交联反应过程形成的化学结构的影响，通过优化固化剂的含量可提高PNM的热稳定性。当固化剂含量为10%，固化温度提高至150℃，固化时间延长至48 h的条件下，获得的PNM有最高的热稳定性（900℃下的残碳率为54.2%）、最发达的孔结构（比表面积为264.0 m²/g、孔容为2.67 cm³/g、平均孔径为40.0 nm）和最小的收缩率（0%）。此PNM制备方法简单、性能优异，在未来航天飞行器上有广阔的应用前景。     

Research on navigation of satellite constellation based on an asynchronous observation model using X-ray pulsar

Pulsar navigation is a promising navigation method for high-altitude orbit space tasks or deep space exploration. At present, an important reason for restricting the development of pulsar navigation is that navigation accuracy is not high due to the slow update of the measurements. In order to improve the accuracy of pulsar navigation, an asynchronous observation model which can improve the update rate of the measurements is proposed on the basis of satellite constellation which has a broad space for development because of its visibility and reliability. The simulation results show that the asynchronous observation model improves the positioning accuracy by 31.48% and velocity accuracy by 24.75% than that of the synchronous observation model. With the new Doppler effects compensation method in the asynchronous observation model proposed in this paper, the positioning accuracy is improved by 32.27%, and the velocity accuracy is improved by 34.07% than that of the traditional method. The simulation results show that without considering the clock error will result in a filtering divergence.     

双模块下颌式内转进气道/圆锥前体一体化布局研究

为实现三维内转进气道的内收缩流场与圆锥前体的外压缩流场的良好匹配，提出了一种双模块下颌式内转进气道/圆锥前体(Double-modules Chin Inward-turning Inlet and Conical Forebody，DCII/CF)一体化设计方法，获得一种新颖的双发并置、侧向安装的DCII/CF一体化布局。针对该布局形式，开展了DCII/CF一体化构型与传统的单模块内转进气道/圆锥前体(Single-module Inward-turning Inlet and Conical Forebody，SII/CF)一体化构型的数值对比研究。结果表明：DCII/CF一体化布局不仅为内转进气道提供了优秀的前体附面层排移效果，还有效避免了传统SII/CF布局中前体附面层与进气道内部流场之间的相互干扰。在Ma∞=6.0设计状态，DCII/CF一体化布局的进气道总压恢复系数相较传统的SII/CF布局有了显著提高，从0.403提高至0.482；但由于前体附面层的排移，该布局的捕获流量略有降低， SII/CF的流量系数为0.956，该布局则为0.917。而在非设计状态，该布局形式同样具备较好的总压恢复性能，在Ma∞=5.0与Ma∞=4.0的总压恢复系数分别达到了0.586和0.682，明显高于SII/CF的总压恢复系数0.507和0.619。     

基于遗传算法的插值Coons曲面孔位修正方法

在机器人自动制孔过程中，制孔点位信息通常从待制孔工件工艺数模上获取，而待制孔工件安装过程中会出现位置偏移和变形，由工艺数模得到的点位信息无法直接满足孔位精度要求。为了保证自动制孔的孔位精度，提出了一种基于遗传算法的插值Coons曲面孔位修正方法。利用制孔区域边角基准孔建立双线性Coons误差曲面模型，通过模型计算出待制孔的误差补偿向量，并补偿至理论制孔位置。针对误差曲面切矢模长无法确定的情况，利用制孔区域内的基准孔构建遗传算法模型，计算出切矢模长最优值，使拟合的误差曲面更符合实际制孔区域曲面。通过试验对算法的有效性和精度进行验证，结果表明:采用基于遗传算法的插值Coons曲面孔位修正方法，可以使孔位误差得到有效的补偿。补偿后的平均孔位误差仅为0.195 6 mm，与传统的插值曲面方法相比，孔位误差降低了5%~10%。      

Mapping mean lake surface from satellite altimetry and GPS kinematic surveys

Lake water height is a key variable in water cycle and climate change studies, which is achievable using satellite altimetry constellation. A method based on data processing of altimetry from several satellites has been developed to interpolate mean lake surface (MLS) over a set of 22 big lakes distributed on the Earth. It has been applied on nadir radar altimeters in Low Resolution Mode (LRM: Jason-3, Saral/AltiKa, CryoSat-2) in Synthetic Aperture Radar (SAR) mode (Sentinel-3A), and in SAR interferometric (SARin) mode (CryoSat-2), and on laser altimetry (ICESat). Validation of the method has been performed using a set of kinematic GPS height profiles from 18 field campaigns over the lake Issykkul, by comparison of altimetry’s height at crossover points for the other lakes and using the laser altimetry on ICESat-2 mission. The precision reached ranges from 3 to 7 cm RMS (Root Mean Square) depending on the lakes. Currently, lake water level inferred from satellite altimetry is provided with respect to an ellipsoid. Ellipsoidal heights are converted into orthométric heights using geoid models interpolated along the satellite tracks. These global geoid models were inferred from geodetic satellite missions coupled with absolute and regional anomaly gravity data sets spread over the Earth. However, the spatial resolution of the current geoid models does not allow capturing short wavelength undulations that may reach decimeters in mountaineering regions or for rift lakes (Baikal, Issykkul, Malawi, Tanganika). We interpolate in this work the geoid height anomalies with three recent geoid models, the EGM2008, XGM2016 and EIGEN-6C4d, and compare them with the Mean Surface of 22 lakes calculated using satellite altimetry. Assuming that MLS mimics the local undulations of the geoid, our study shows that over a large set of lakes (in East Africa, Andean mountain and Central Asia), short wavelength undulations of the geoid in poorly sampled areas can be derived using satellite altimetry. The models used in this study present very similar geographical patterns when compared to MLS. The precision of the models largely depends on the location of the lakes and is about 18 cm, in average over the Earth. MLS can serve as a validation dataset for any future geoid model. It will also be useful for validation of the future mission SWOT (Surface Water and Ocean Topography) which will measure and map water heights over the lakes with a high horizontal resolution of 250 by 250 m.     

Advanced Pulsed Plasma Thrusters and Their Application as a Part of Small Spacecraft Propulsion Systems

The paper presents the research results of the effect of a capacitor energy storage device configuration on the specific characteristics of advanced modern propulsion systems based on the ablative pulsed plasma thrusters (APPT). These thrusters are designed to perform specific tasks within the small spacecrafts with the onboard power capacity up to 200 W.     

差分卫星定位技术及其在武器系统中的应用

差分卫星定位系统可以极大地提高卫星定位的精度,但也有使用、维护复杂等缺点。针对差分卫星定位的特性,首先阐述了卫星差分定位的基本原理,分析了卫星定位误差源,并介绍了差分定位系统对各种误差的修正情况,然后介绍了差分定位系统的分类、方法及发展,其中详细介绍了在武器系统领域中应用较广的局域差分系统的各种方法及其优缺点;最后,对差分系统的实际应用进行了阐述,并重点探讨了其在进攻性武器及防御性武器领域实现应用的可行性。     

基于3D-Winograd的快速卷积算法设计及FPGA实现

近年来，卷积神经网络（CNN）已被计算机视觉任务广泛采用。由于FPGA的高性能、能效和可重新配置性，已被认为是最有前途的CNN硬件加速器，但是受FPGA计算能力、存储资源的限制，基于传统Winograd算法计算三维卷积的FPGA解决方案性能还有提升的空间。首先，研究了适用于三维运算的Winograd算法一维展开过程；然后，通过增加一次性输入特征图和卷积块的维度大小、低比特量化权重和输入数据等方法改善CNN在FPGA上的运行性能。优化思路包括使用移位代替部分除法的方法、分tile方案、二维到三维扩展及低比特量化等4个部分。相对传统的二维Winograd算法，优化算法每个卷积层的时钟周期数减少了7倍左右，相较传统滑窗卷积算法平均每个卷积层减少7倍左右。通过研究，证明了基于一维展开的3D-Winograd算法可以大大减少运算复杂度，并改善在FPGA运行CNN的性能。      

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。