计算模拟月壤颗粒吸收及散射特性的一种球叠加模型

针对模拟月壤复杂的外形特征以及多相非均质的微观结构,提出了一种计算模拟月壤颗粒吸收及散射特性的球叠加模型。根据模拟月壤颗粒的形状指数和分形特征识别结果,归纳了4种主要的模拟月壤颗粒类型,并采用蒙特卡罗光线跟踪法研究了这4种颗粒在单色平行光照射下的吸收及散射特性。与已有的非球形颗粒辐射特性的算法比较显示,该模型具有良好的计算准确性。在数值计算的基础上,分析了颗粒尺度参数及光学常数对其自身辐射特性的影响,并通过改变平行光照下的光线入射角度,分析了非球形颗粒的朝向对其自身辐射特性的影响。由计算结果推断,该模型不仅可以应用于计算模拟月壤颗粒的辐射特性,还可以满足其他适用于几何光学近似的非球形粒子。     

燃油跨多隔舱流动及晃动特性分析

为获得输油过程中燃油流通能力及弹射起飞激励下的晃动特征,通过采用有限点集法对多隔舱油箱进行了数值模拟。研究结果表明：有限点集法可以清晰捕获燃油流动和晃动的自由液面特征。油箱载油量影响晃动的程度,油量减少则液面变化剧烈,重心发生大范围移动。隔舱框板的开孔面积是影响流通能力的重要因素,当其在±10%范围内变化时,流动阻力及能量耗散差异显著,这在一定程度上揭示了框板开孔与晃动抑制之间的内在机理,为多隔舱框板的工程设计和流体晃动阻尼理论研究提供重要参考。     

导热-辐射耦合传热的多尺度分析和数值模型

复合材料高温传热特性的准确预测对飞行器热防护结构的设计有重要意义,相关模型也是国家数值风洞工程中多相多介质计算模型的重要组成部分。针对周期性结构复合材料的高温传热问题,利用多尺度渐进分析方法,对包含导热方程和辐射传输方程的导热-辐射耦合传热模型开展了研究。建立了表征单元尺度模型及宏观平均导热-辐射耦合传热模型,获得了材料宏观等效导热系数与表征单元模型间的关系,发现宏观等效辐射吸收和散射等系数可通过表征单元内的体积平均求取。结合有限容积方法与格子Boltzmann方法,建立了复合材料导热-辐射耦合传热多尺度数值模型。采用二维常物性材料传热过程的模拟验证了多尺度模型的有效性,结果表明所建立的多尺度模型能够对温度场给出准确高效的计算结果。该方法有助于为复合材料传热特性的预测提供数值手段。     

无筒空射运载火箭重力出舱机箭耦合动力学

研究了以运输机为平台的内装式空射运载火箭重力出舱载机?火箭两体动力学.根据火箭受力条件和相对运动自由度,将其出舱运动顺次分为5个阶段.给出了各阶段过渡的力学条件,基于牛顿?欧拉法分别建立了前4个阶段的机?箭两体动力学模型.定义了火箭出舱过程可能发生危险的多种异常情况,给出了发生异常的力学或几何条件.然后对火箭出舱全程作...     

空间相机热平衡试验温度预测方法改进及应用

为实现对航天器热平衡试验平衡温度的预测,建立了热平衡温度预测的方程式,对影响预测结果的各参数进行了分析。首先,由节点网络法推导出平衡温度表达式,介绍了其基于非线性最小二乘法的求解过程,建立了平衡温度的迭代方程;其次,结合大量的试验数据,对影响迭代结果的3个因素进行了统计分析,并最终确定了各因素的合理取值范围;最后,利用温度预测程序对某空间相机热平衡试验中低温工况的平衡温度进行了预测,并与试验结束后的结果进行了对比。结果表明,预测温度与试验数据的误差为±1℃（在3%之内）,满足精度要求,对热平衡温度准确的预测有效的缩短了试验时间,节省试验费用。     

蜂窝夹层板超高速撞击极限方程分析

为分析撞击极限方程对蜂窝夹层结构的穿透特性的预测能力,调研得到了3类撞击极限方程的表达形式和等效方法,以及131个采用碳纤维复合材料(CFRP)面板的蜂窝夹层板结构的试验数据,并对撞击极限方程的预测能力进行了比较计算。结果发现,MET方程对他源数据的四种(未失效、失效、总体以及安全)预测率均大于80%,进行在轨航天器结构的失效分析时可优先选用;SRL方程对本源数据的安全预测率达到了100%,在他源数据上的安全预测率也很高,适用于航天器防护结构设计。探讨了撞击极限方程中的系数、速度分界值的优化思路,以提高撞击极限方程的预测率。     

An error analysis and optimization method for combined measurement with binocular vision

The accurate measurement of surfaces of large aviation components is vital for the assessment of manufacturing and assembly quality of such components. To satisfy the measurement requirement of large-size components, most current researches pay more attention to combined measurement methods utilizing different measuring instruments, but the related researches on error analysis and optimization methods are not taken enough attention. This paper proposes a combined laser-assisted measurement method with feature enhancement techniques, and it also develops an error propagation model of the main factors affecting the overall measurement error in detail. Firstly, the surface of a large-size component is measured by the measurement system at multiple stations. Secondly, a control point coordinate system is established as a bridge to unify all local measurement data into the global coordinate system. To improve the overall measurement accuracy, the pixel extraction error as a key factor causing the overall measurement error is analyzed in detail. Next, the error propagation model is established, and some optimization strategies of layout for minimizing measurement error and transformation error are researched. Finally, experiments are carried out to verify the effectiveness of the proposed method. The results show that the measurement error of the proposed method reaches 0.073% and 0.14% with a 1D standard ruler and a flat plate, respectively.     

Relevant experience learning: A deep reinforcement learning method for UAV autonomous motion planning in complex unknown environments

Unmanned Aerial Vehicles (UAVs) play a vital role in military warfare. In a variety of battlefield mission scenarios, UAVs are required to safely fly to designated locations without human intervention. Therefore, finding a suitable method to solve the UAV Autonomous Motion Planning (AMP) problem can improve the success rate of UAV missions to a certain extent. In recent years, many studies have used Deep Reinforcement Learning (DRL) methods to address the AMP problem and have achieved good results. From the perspective of sampling, this paper designs a sampling method with double-screening, combines it with the Deep Deterministic Policy Gradient (DDPG) algorithm, and proposes the Relevant Experience Learning-DDPG (REL-DDPG) algorithm. The REL-DDPG algorithm uses a Prioritized Experience Replay (PER) mechanism to break the correlation of continuous experiences in the experience pool, finds the experiences most similar to the current state to learn according to the theory in human education, and expands the influence of the learning process on action selection at the current state. All experiments are applied in a complex unknown simulation environment constructed based on the parameters of a real UAV. The training experiments show that REL-DDPG improves the convergence speed and the convergence result compared to the state-of-the-art DDPG algorithm, while the testing experiments show the applicability of the algorithm and investigate the performance under different parameter conditions.     

WAKE GEOMETRY CALCULATIONS FOR TILT-ROTOR USING VISCOUS VORTEX METHOD

A tilt-rotor unsteady flow analytical method has been developed based upon viscous vortex-particle meth- od. In this method, the vorticity field is divided into small assembled vortex particles. Vortex motion and diffusion are obtained by solving the velocity-vorticity-formed incompressible Navier-Stokes equations using a grid-free La- grangian simulation method. Generation of the newly vortex particles is calculated by using the Weissinger-L lifting surface model. Furthermore, in order to significantly improve computational efficiency, a fast multiple method （FMM） is introduced into the calculation of induced velocity and its gradient. Finally, the joint vertical experimen- tal （JVX） tilt-rotor is taken as numerical examples to analyze. The wake geometry and downwash are investigated for both hover and airplane modes. The proposed method for tilt-rotor flow analysis is verified by comparing its re- sults with those available measured data. Comparison indicates that the current method can accurately capture the complicated tilt-rotor wake variation and be suitable for aerodynamic interaction simulation in complex environ- ments. Additionally, the aerodynamic interactional characteristics of dual-rotor wake are discussed in different ro- tor distance. Results show that there are significant differences on interactional characteristics between hover mode and airplane mode.     

搭接连接系统的非线性振动分析

针对航空航天结构中典型的搭接连接系统,基于改进的Iwan迟滞非线性模型研究系统的非线性振动特性。采用谐波平衡法对系统稳态阶段响应求解,获得了系统的一阶谐波和三阶谐波近似解,并和数值积分解进行对比。分别研究了系统在谐波激励下的稳态解和瞬态解。结果表明,谐波平衡法获得的近似解与数值解吻合较好;谐波激励下系统的稳态响应具有软化非线性但不生跳跃的特点;瞬态响应中,等效系统固有频率随幅值降低而降低,响应信号中包含偶数倍高阶谐波分量。