短碳纤维增强聚醚醚酮注塑成型进气道的性能北大核心CSCD

以含20%的短碳纤维增强聚醚醚酮树脂为主要原料,采用注塑成型的方法制备了进气道及试片。通过对材料力学性能、微观形貌、进气道CT无损检测、内型面三坐标进行分析,结果表明:按照给定的工艺参数注塑成型,复合材料的抗拉强度达208 MPa、拉伸模量16.7 GPa、冲压式剪切强度100 MPa,碳纤维在树脂基体中分布均匀,进气道本体材料内部缺陷较少,进气道内外型面光滑、尺寸精度较高。     

启动过程压缩空气储能向心涡轮三维流动特性研究

为研究压缩空气储能系统的向心涡轮启动过程内部流动损失特性，本文采用全三维计算流体动力学（CFD）模型对其启动过程过程进行了数值模拟，与实验结果对比表明，虽然该模型在启动初始阶段与转速稳定阶段存在一定误差，但仍能够整体上反映启动过程的效率变化特征。在此基础上，进一步分析了启动过程中动叶通道内损失区及流场变化特征，结果发现，动叶进口攻角是影响内部流场主要因素：在启动初始阶段，叶轮进口攻角较大，动叶载荷集中在叶片前缘，形成明显的通道分离涡与前缘涡；在快速启动段，攻角减小，动叶载荷沿弦长分布更为均匀，通道分离涡及前缘涡逐渐减小并向叶片吸力面迁移。在整个启动阶段，动叶通道内高损失区也随着通道分离涡逐渐迁移且变小，并向相邻叶片吸力面集中。     

对空红外制导关键技术发展分析

针对未来红外制导导弹对空作战面临的对象日趋多样、目标隐身能力大幅提升、新型对抗技术广泛使用、战场环境更加复杂等重大挑战，分析了对空红外制导技术的国外发展现状及趋势;全面梳理了现代战争对下一代对空红外制导技术的军事需求，提出了对空红外制导的关键技术，包括弱小目标探测、自主目标识别、双多波段红外探测和多模复合制导等，并对相应关键技术的内涵、发展趋势、技术途径及研究成果进行了阐述，为红外制导技术的发展提供建议和参考。     

状态/输入约束下飞-推一体化的保性能安全控制

基于飞行-推力一体化思想提出了一种针对搭载超燃冲压发动机的吸气式高超声速飞行器速度通道的状态/输入约束自适应鲁棒保性能安全控制方案。首先根据超燃冲压发动机的机理分析与计算流体动力模型数据，建立了安全子系统与性能子系统面向控制的仿射非线性模型。之后基于障碍Lyapunov理论与动态面设计方法设计了一套安全子系统状态约束控制器，从理论上保证了飞行器在跟踪指令的全过程中，发动机相关状态不会触碰安全边界，并结合自适应技术与辅助系统提高了该控制系统的鲁棒性。针对性能子系统设计了一套鲁棒自抗扰控制器，达到“保证安全的前提下不折损性能”的目的。仿真结果表明所设计的控制系统可以在保障安全的同时达到预想的性能，并显著放宽了超燃冲压发动机对飞行器飞行姿态的约束，保证了高超声速飞行器的机动灵活性。     

Distortion minimization for multimedia transmission in NOMA HAP-UAV integrated aerial access networks

Aerial access networks have been envisioned as a promising 6G solution to enhance the ground communication systems in both coverage and capacity. To better utilize the spectrum and fully explore different channel characteristics, this paper constructs an integrated network comprising the High Altitude Platform (HAP) and Unmanned Air Vehicles (UAVs) with the Non-Orthogonal Multiple Access (NOMA) technology. In order to improve the transmission quality of images and videos, a power management scheme is proposed to minimize the distortion of the transmissions from the HAP and UAVs to the terminals. The power control is formulated as a non-convex problem constrained by the maximal transmit power and the minimal terminal rate requirements. The variable substitution and the first-order Tailor’s expansion is used to transform it into a sequence of convex problems, which are subsequently solved through the gradient projection method. Simulation demonstrates the signal distortion and error rate improvement achieved by the proposed algorithm.     

卫星多通道异构遥测数据融合分析与比对方法

遥测数据是航天器研制阶段最重要的产品成果之一，是检测航天器功能及性能指标、验证航天器各系统研制成果，以及分析在轨测试数据的重要基线。航天器各通道的遥测数据的正确性和有效性显得尤为重要，本文提出一种卫星多通道异构遥测数据融合分析与比对方法，实现多通道异构遥测数据的预处理、融合分析、融合比对等，解决了直接人工判读效率低和准确性差的历史问题，有效提升卫星综合测试和在轨监视的数据分析效率。     

Design and analysis of a novel hybrid cooling method of high-speed high-power permanent magnet assisted synchronous reluctance starter/generator in aviation applications

To improve the heat dissipation performance, this paper proposes a novel hybrid cooling method for high-speed high-power Permanent Magnet assisted Synchronous Reluctance Starter/Generator (PMaSynR S/G) in aerospace applications. The hybrid cooling structure with oil circulation in the housing, oil spray at winding ends and rotor end surface is firstly proposed for the PMaSynR S/G. Then the accurate loss calculation of the PMaSynR S/G is proposed, which includes air gap friction loss under oil spray cooling, copper loss, stator and rotor core loss, permanent magnet eddy current loss and bearing loss. The parameter sensitivity analysis of the hybrid cooling structure is proposed, while the equivalent thermal network model of the PMaSynR S/G is established considering the uneven spraying at the winding ends. Finally, the effectiveness of the proposed hybrid cooling method is demonstrated on a 40 kW/24000 r/min PMaSynR S/G experimental platform.     

车载大型遥测天线新型方舱开盖机构的设计

随着航天遥测任务对机动性和防护性要求越来越高，车载大型遥测天线开始尝试安装在方舱内，运输时可以收藏防护，工作时可以展开，并要求在车辆运动过程中进行工作，实现通信要求。方舱开盖机构是作为消除风沙雨雪等环境负载影响、改善工作条件、提高车载大型遥测天线可靠性的一项重要举措。开盖机构能够自动开启和闭合，满足大型遥测天线工作需求，收藏状态能够对大型遥测天线起到防雨、防尘和防撞击等防护作用。由于大型遥测天线尺寸跨距大，又受铁路、公路运输的限制，导致常用的开盖机构设计空间受限制，并大幅增加了方舱开盖机构防护难度。针对上述问题，介绍了一套车载大型遥测天线新型方舱开盖机构的设计，将舱顶的顶板从左右方向分为两块，左右翻转打开。为了完全不影响天线的工作，方舱左右壁上部的立板也随着顶板一起翻转，顶板和立板翻转后，均与左右舱壁贴合，保证开盖机构打开后，整车宽度尺寸不影响车辆的公路运输性。该开盖机构采取电动推杆和钢丝绳绞盘方式进行自动开盖和闭合，并对机构进行力学分析计算、电动推杆和钢丝绳绞盘选型确认。新型方舱开盖机构既实现了方舱顶盖的自动开启和闭合，又满足了大型遥测天线的车辆运输和运动过程中的通信要求，有效实现防护功能，实际应用效果良好。     

Vulnerability analysis of the Chinese coupled aviation and high-speed railway network

The integrated aviation and High-Speed Railway (HSR) transportation system plays a vital role for today’s inter-city transportation services. However, an increasing number of unexpected disruptions (such as operation failures, natural disasters, or intentional attacks) pose a considerable threat to the normal operation of the system, especially on ground transfer, leading to the extensive research on its vulnerability. Previous approaches mainly focus on interruptions within a single transportation mode, neglecting the role of ground transfer which serves as a coupled connection between aviation and High-Speed Railway. This paper proposes a network-based framework for evaluating the vulnerability of the Chinese Coupled Aviation and High-Speed Railway (CAHSR) network from the viewpoint of ground transfer interruption. Taking the end-to-end travel time and passenger flow information into consideration as an evaluation measure and analyzing from the perspective of urban agglomerations, an adaptive method is developed to identify the critical cities and further investigate their failure impacts on the geographic distribution of vulnerability. In addition, the proposed model explores variations of vulnerability under different failure time intervals. Based on the empirical study, some major conclusions are highlighted as follows: (A) Only a few cities show significant impacts on the network’s vulnerability when ground transfer interruptions occurred. (B) The distribution of vulnerability is not proportional to the distance between failure city and influenced city. (C) The vulnerability is more serious in the morning and evening when the ground transfer is disconnected. Our findings may provide new insights for maintenance and optimization of the CAHSR network and other real-world transportation networks.     

面向有效载荷的准实时在轨健康评估系统

卫星遥测数据通常有2种手段获得，一种是卫星经过地面测控站下传的实时遥测和延时遥测;另一种手段是通过数传分系统下传的全球遥测。全球遥测作为监视卫星载荷健康状态的主要手段，存在数据量大、文件数量较多、人工处理和判读工作量大等问题。针对该情况，提出准实时在轨健康监视系统的设计方案。该系统具备遥测源码定时获取、有效载荷遥测数据提取和解析、遥测数据存储、遥测数据自动判读和特征统计、超限报警、曲线显示和数据输出等功能，可对卫星有效载荷的健康状态进行准实时、自动化的监视和评估。