Preliminary study on heat flux measurement data of TT-0 flight test

With the explosive development of aerospace science, the design of the new generation airliner at higher speeds is attracting more attentions. To achieve this goal, it is necessary to achieve accurate prediction of the aerodynamic heating / force loads and successful reduction of drag and heat flux. As a remedy for the existing studies which are based upon the CFD and wind tunnel tests, this study presents a flight test for the drag and heat reduction spike technology. The principal goals of this flight test were to provide reference for verifying the accuracy of the prediction technology on ground and promote the development of the drag and heat reduction technology. By adopting the OS-X rocket, the TT-0 test vehicle designed by Shenyang Aircraft Design & Research Institute reached a maximum Mach number of 5.8 and a maximum altitude of 38 km. Hypersonic and supersonic pressure data by pressure scanning valves and heat fluxes by gauges at different locations were obtained successfully. Also, heat fluxes obtained by in-house CFD code are illustrated in comparison with the flight data. The results indicate that the numerical errors are large in most cases. More technologies, such as more CFD codes and more numerical procedures, should be adopted to conduct studies on this issue in the future.     

飞行载荷发展综述

飞行载荷设计是飞行器设计的一个重要组成部分,是连接总体气动设计和结构强度设计的桥梁。本 文从飞行载荷设计所需要遵循的规范、飞行载荷的设计方法、严重载荷选取、飞行载荷的验证等方面对飞行器 飞行载荷设计的发展历程进行了回顾,并对未来飞行载荷的发展方向进行了展望。     

Parachute dynamics and perturbation analysis of precision airdrop system

To analyze the parachute dynamics and stability characteristics of precision airdrop system,the fluid–structure interaction(FSI) dynamics coupling with the flight trajectory of a parachute–payload system is comprehensively predicted by numerical methods.The inflation behavior of a disk-gap-band parachute is specifically investigated using the arbitrary Lagrangian–Euler(ALE) penalty coupling method.With the available aerodynamic data obtained from the FSI simulation,a nine-degree-of-freedom(9DOF) dynamic model of a parachute–payload system is built and solved to simulate the descent trajectory of the multi-body dynamic system.Finally,a linear five-degree-of-freedom(5DOF) dynamic model is developed,the perturbation characteristics and the motion laws of the parachute and payload under a wind gust are analyzed by the linearization method and verified by a comparison with flight test data.The results of airdrop test demonstrate that our method can be further applied to the guidance and control of precision airdrop systems.     

双机协同无源定位的飞行试验方法研究

分析了基于测向交叉定位的双机协同无源定位原理,构建了误差模型,给出了影响定位误差的因素。并从双机定位基线、目标机进入距离和目标机进入方位三个因素进行了双机协同无源定位误差的仿真。通过基于定位精度要求的试飞剖面设计,给出了两种典型的双机协同无源定位试飞航线,并给出试飞结果评估的方法和流程。     

倾转旋翼机冗余操纵的舵面分配策略和飞行转换路径分析

倾转旋翼机的不同舵面存在冗余操纵,而冗余舵面的分配策略和飞行转换路径对其控制重构具有重要的意义。对建立的小型无人倾转旋翼机全量非线性飞行动力学模型在不同飞行模式下的进行配平计算、模型线化后,求出单位操纵面位移所引起的俯仰、滚转和偏航力矩的改变量,即考察倾转旋翼机各操纵面的操纵功效,并对其结果进行详细分析,以确定倾转旋翼机的冗余舵面控制重构能力;确定各飞行模式下倾转旋翼机的操纵方式,给出舵面分配策略的权重系数矩阵;在此基础上,提出三种不同的全模式飞行转换路径方案,并分别计算三种方案下倾转旋翼机的飞行速度与前倾角、姿态角及操纵量的关系。结果表明:三种方案都能实现对飞行器的合理操纵,表明倾转旋翼机的冗余舵面控制重构是可以实现的。     

一种采用“捷联+平台”方案的新型航空重力仪

针对资源勘探等高精度应用对航空重力仪测量精度和分辨率的更高要求,在前期研究基础之上,研发了新一代采用"捷联+平台"方案的新型航空重力仪。设计了采用石英挠性加速度计和光纤陀螺的捷联式重力仪,采用了新型温度控制方案,提高了重力仪的环境适应能力。设计了稳定平台,将捷联式重力仪保持在垂直方向,隔离载机的角运动干扰,减小了重力传感器的动态误差。飞行试验表明,该方案是有效的,将航空重力仪的精度和分辨率提升到优于1mGal/3km。     

轨道转移计算中的逐次消元迭代法

本文针对导弹飞行轨道转移的一个算例,叙述应用消元法思想构造数值求解非线性方程组的迭代算法的一般原理,具体算法步骤和一些计算结果。给出算法成功的理论依据,最后给出实现算法时的一些变形。     

A CFD-based numerical virtual flight simulator and its application in control law design of a maneuverable missile model

A CFD-based Numerical Virtual Flight (NVF) simulator is presented, which integrates an unsteady flow solver on moving hybrid grids, a Rigid-Body Dynamics (RBD) solver and a module of the Flight Control System (FCS). A technique of dynamic hybrid grids is developed to control the active control surfaces with body morphing, with a technique of parallel unstructured dynamic overlapping grids generating proper moving grids over the deflecting control surfaces (e.g. the afterbody rudders of a missile). For the flow/kinematic coupled problems, the 6 Degree-Of-Freedom (DOF) equations are solved by an explicit or implicit method coupled with the URANS CFD solver. The module of the control law is explicitly coupled into the NVF simulator and then improved by the simulation of the pitching maneuver process of a maneuverable missile model. A nonlinear dynamic inversion method is then implemented to design the control law for the pitching process of the maneuverable missile model. Simulations and analysis of the pitching maneuver process are carried out by the NVF simulator to improve the flight control law. Higher control response performance is obtained by adjusting the gain factors and adding an integrator into the control loop.     

我国航班延误险现状及推广建议

航班延误险,是指投保人（旅客）根据航班延误保险合同规定,向保险人（保险公司）支付保险费,当合同约定的航班延误情况发生时,保险人（保险公司）依约给付保险金的商业保险行为。本文分析了我国航班延误险现状,并进一步提出建议：完善航班延误险内容,充分发挥其保险功能;多种保险责任组合,降低航班延误保险费;进一步加强保险公司与金融机构、销售平台等的合作;加大宣传力度,正面弓I导旅客认识航班延误险,促进航班延误险的普及化等。     

Energy-optimal trajectory planning for solar-powered aircraft using soft actor-critic

High-Altitude Long-Endurance(HALE) solar-powered Unmanned Aircraft Vehicles(UAVs) can utilize solar energy as power source and maintain extremely long cruise endurance,which has attracted extensive attentions from researchers. Trajectory optimization is a promising way to achieve superior flight time because of the finite solar energy absorbed in a day. In this work,a method of trajectory optimization and guidance for HALE solar-powered aircraft based on a Reinforcement Learning(RL) framework is...