SVM和神经网络在电能质量扰动分类应用中的对比

提出了一种电能质量动态扰动特征向量的提取方法,分析比较了多种分类器对电能质量动态扰动的分类能力。首先采用小波包分解算法对电能质量信号某一频段内的信息进行精细分解从而提取出特征向量,然后针对该特征向量构造了相应的BP神经网络、学习向量量化(Learning vector quantization,LVQ)神经网络、自组织特征映射(Self-organizing map,SOM)神经网络及支持向量机(Support vector machine,SVM)分类器,并模拟实际电网中的复杂扰动信号提取其特征向量集,对多种分类器的分类能力进行对比。仿真结果表明,在较复杂的电能质量扰动情况中,支持向量机分类器仍能实现对信号的精确分类,对电能质量监测具有很好的应用价值。     

基于张线尾撑的进气道低速风洞试验技术研究

为了在φ3.2m风洞中开展战斗机大迎角进气道特性试验研究,结合该风洞开口试验段及支撑装置的特点,研制了能够模拟战斗机进气道流量的小型引射器装置,发展了基于引射器/张线尾撑一体化设计的战斗机大迎角进气道试验技术.为了验证该项试验技术,研制了进气道流量测量装置,以及基于数字阀的气源控制系统;进行了装置性能研究,并利用某战斗机模型开展了飞机鸭翼对进气道性能的影响试验研究.研究结果表明:引射器引射流量达1.34kg/s,引射器/张线尾撑一体化方案可完全满足我国已有战斗机在3m量级风洞开展进气道试验的流量模拟及开展大迎角试验研究的需求;鸭翼对战斗机进气道性能影响研究为进气道试验模型外形模拟提供了依据.     

套筒式张线天平的研制

根据民机张线测力试验的特殊要求,研制了一台套筒结构形式的张线天平.详细介绍了该天平在研制中遇到的难点、关键技术的解决措施以及研制的结果.天平元件布置在φ58mm的外套筒上,内杆直径为φ44mm,外套筒和内杆通过楔块焊接在一起.法向力、俯仰力矩和滚转力矩为拉压变形,横向力和偏航力矩为“S”形变形,轴向力为弯曲变形,元件支撑部分受拉压变形且刚度较强.通过对天平进行有限元分析,在法向力和俯仰力矩作用下,得出的应变结果与实际输出基本吻合.风洞试验结果表明:天平设计合理,天平外套筒、内杆及张线支撑系统刚度好,天平各分量测量精度高.     

非均匀信道增益控制的多载波卫星容量分析

设置转发器最佳增益,减小功放非线性影响,提高系统容量是多载波卫星通信系统容量分析的首要问题。对于数字信道化转发器,采用非均匀子信道增益调整的思想独立设置各信道增益可以有效消除大小载波抑制问题,提高卫星系统容量。为此,提出一种直接计算求解各子信道增益的算法。该方法不需要采用复杂的优化过程以及矩阵求逆,因此适合求解任意数量链路增益。理论推导得到链路最佳发射功率为地面站最大可提供功率,通过直接计算非线性等式即可获得各子信道最佳增益。同时考虑到功率利用率问题,通过选取转发器最佳工作点,在最小转发器输出功率准则下可以有效提高卫星功率的利用率。实验结果表明,该算法在具有与优化算法相近性能的同时降低了求解复杂度。     

挠性结构的约束模态及非约束模态解法

针对现代空间飞行器具有大型挠性附件的特点，使用约束模态和非约束模态分别进行求解，建立了带挠性附件的空间飞行器的约束模态模型，使得对挠性结构的控制成为可能。最后计算了几种情况的约束模态和非约束模态频率，验证了本方法的准确性和简便性。     

表面处理对聚酰亚胺柔性复合材料粘结性能的影响

使用聚酰亚胺(PI)膜和PI纤维编织布制备深空探测用柔性织物复合材料,研究表面处理对PI膜和PI纤维编织布之间粘结性能的影响。采用自制表面处理剂分别对PI膜和PI纤维编织布的表面进行处理,再经硅橡胶胶黏剂粘结制备柔性复合材料。使用T剥离强度试验方法测试柔性织物复合材料的层间胶接性能,并分析复合材料剥离面的形貌状态。结果显示,PI膜和PI织物的表面处理可以显著提高柔性织物复合材料的T剥离强度。其中,PI膜和PI织物未经表面处理时,柔性织物复合材料的T剥离强度为8.9 N/cm。对PI膜进行表面处理,或者对PI膜和PI织物均进行表面处理的情况下,柔性织物复合材料的T剥离强度增加至11.7 N/cm和12.8 N/cm,分别提高了31.5%和43.8%。这表明对PI膜及PI织物进行合理的表面处理,可以显著提高柔性织物复合材料的胶接性能。     

A high-performance ground-based prototype of horn-type sequential vegetable production facility for life support system in space

Vegetable cultivation plays a crucial role in dietary supplements and psychosocial benefits of the crew during manned space flight. Here we developed a ground-based prototype of horn-type sequential vegetable production facility, named Horn-type Producer (HTP), which was capable of simulating the microgravity effect and the continuous cultivation of leaf–vegetables on root modules. The growth chamber of the facility had a volume of 0.12 m³, characterized by a three-stage space expansion with plant growth. The planting surface of 0.154 m² was comprised of six ring-shaped root modules with a fibrous ion-exchange resin substrate. Root modules were fastened to a central porous tube supplying water, and moved forward with plant growth. The total illuminated crop area of 0.567 m² was provided by a combination of red and white light emitting diodes on the internal surfaces. In tests with a 24-h photoperiod, the productivity of the HTP at 0.3 kW for lettuce achieved 254.3 g eatable biomass per week. Long-term operation of the HTP did not alter vegetable nutrition composition to any great extent. Furthermore, the efficiency of the HTP, based on the Q-criterion, was 7 × 10⁻⁴ g² m⁻³ J⁻¹. These results show that the HTP exhibited high productivity, stable quality, and good efficiency in the process of planting lettuce, indicative of an interesting design for space vegetable production.     

Conceptual design of a bioregenerative life support system containing crops and silkworms

This article summarizes a conceptual design of a bioregenerative life support system for permanent lunar base or planetary exploration. The system consists of seven compartments – higher plants cultivation, animal rearing, human habitation, water recovery, waste treatment, atmosphere management, and storages. Fifteen kinds of crops, such as wheat, rice, soybean, lettuce, and mulberry, were selected as main life support contributors to provide the crew with air, water, and vegetable food. Silkworms fed by crop leaves were designated to produce partial animal nutrition for the crew. Various physical-chemical and biological methods were combined to reclaim wastewater and solid waste. Condensate collected from atmosphere was recycled into potable water through granular activated carbon adsorption, iodine sterilization, and trace element supplementation. All grey water was also purified though multifiltration and ultraviolet sterilization. Plant residue, human excrement, silkworm feces, etc. were decomposed into inorganic substances which were finally absorbed by higher plants. Some meat, ingredients, as well as nitrogen fertilizer were prestored and resupplied periodically. Meanwhile, the same amount and chemical composition of organic waste was dumped to maintain the steady state of the system. A nutritional balanced diet was developed by means of the linear programming method. It could provide 2721 kcal of energy, 375.5 g of carbohydrate, 99.47 g of protein, and 91.19 g of fat per capita per day. Silkworm powder covered 12.54% of total animal protein intakes. The balance of material flows between compartments was described by the system of stoichiometric equations. Basic life support requirements for crews including oxygen, food, potable and hygiene water summed up to 29.68 kg per capita per day. The coefficient of system material closure reached 99.40%.     

装备维修任务模型研究

首先建立了确定装备维修保障维修任务量模型,在此基础上运用任务安排模型给出了任务数多于维修人员数和维修时间有限两种情况下的处理方法,能比较科学的根据确定的维修任务和维修人员的情况实现对维修任务的分配.     

柔性二氧化硅气凝胶综述

二氧化硅气凝胶具有低密度、高孔隙率、高比表面积、低导热性等特点,但存在强度低、韧性差等缺陷.在此基础上,柔性二氧化硅气凝胶通过改进传统二氧化硅气凝胶的制备工艺表现出了更优的力学性能与适用性.本文综述了国内外柔性二氧化硅气凝胶的最新研究进展,分析对比了不同类型气凝胶的性能参数;重点介绍了柔性二氧化硅气凝胶常用的制备方法,...