高超声速飞行器分离干扰的伴随方法分析

以大气层内高超声速飞行器级间分离过程为研究对象,采用伴随方法得到了由冲击力和气动干扰力矩引起的攻角的解析解。利用该解析解,得到了分离干扰引起的攻角的瞬时变化曲线。结果表明,在高超声速飞行器级间分离开始0.4s内,冲击力和气动干扰力矩对攻角有一定的影响,并且随干扰的增大而增大。本研究实现了预示高超声速飞行器分离过程风险的目的,对高超声速飞行器分离干扰策略的制定提供了理论依据。     

装甲车辆运动姿态实时仿真系统设计与实现

系统基于计算机仿真技术构建装甲车辆运动时的虚拟战场环境,利用自动控制技术和虚拟现实技术实现对装甲车辆运动姿态的实时仿真,采用同步建模和实时动态仿真技术实现机电系统与视景的同步仿真,从而保证了平台振动位置与由视景运动产生的位置变化一致.通过软、硬件互补的优化设计,提高了系统的抗干扰能力,实现了高仿真度、高质量的仿真通用平台的研制.该系统模型结构完整,参数选取精细,量化科学,三维图形实时性好,模拟程度逼真,工作可靠,维护方便,通用性强.     

Dual-steering mode based on direct yaw moment control for multi-wheel hub motor driven vehicles:Theoretical design and experimental assessment

One of the main challenges for multi-wheel hub motor driven vehicles is the coordination of individual drivetrains to improve mobility and stability in the steering process.This paper proposes a dual-steering mode based on direct yaw moment control for enhancing vehicle steering ability in complex environ-ments.The control system is designed as a hierarchical structure,with a yaw moment decision layer and a driving force distribution layer.In the higher-level layer,the objective optimization function is con-structed to obtain the slip steering ratio,which represents the degree of vehicle slip steering in the dual-steering mode.A yaw moment controller using active disturbance rejection control theory is designed for continuous yaw rate control.When the actual yaw rate of the vehicle deviates from the reference yaw rate obtained by the vehicle reference model and the slip steering ratio,the yaw moment controller is actuated to determine the yaw moment demand for vehicle steering.In the lower-level layer,there is a torque distribution controller based on distribution rules,which meets the requirement of yaw moment demand without affecting the total longitudinal driving force of the vehicle.For verifying the validity and feasibility of the dual-steering mode,simulations were conducted on the hardware-in-loop real-time simulation platform.Additionally,corresponding real vehicle tests were carried out on an eight-wheel prototype vehicle.Test results were generally consistent with the simulation results,thereby demon-strating that the proposed dual-steering mode reduces steering radius and enhances the steering per-formance of the vehicle.     

无人机虚拟维修训练系统及其HLA设计

以某型无人机虚拟维修训练系统的设计为实例,采用Creator对联邦实体建模,结合动态视景仿真软件Vega Prim e进行环境与目标的驱动,基于高层体系结构HLA对系统的分布式网络互联进行仿真设计,无人机虚拟维修训练系统有效地改善了目前无人机结合实装进行操作训练的局限性。     

基于特征结构配置的车辆主动悬架控制器设计

基于特征结构配置参数化方法,提出了车辆主动悬架控制器设计方法,其目的是设计一组状态反馈控制器,使得闭环结构系统具有希望极点和特征向量。该方法提供的自由参数,可用来满足系统的鲁棒性能等指标。该方法直接基于车辆悬架系统的参数矩阵,故便于工程应用。对车辆悬架系统进行仿真分析,结果表明该设计方法简单有效。     

高超声速飞行器倾侧转弯耦合控制策略

针对高超声速飞行器倾侧转弯过程中俯仰、偏航和滚动通道间的强烈耦合,提出一种耦合控制策略。针对高超声速飞行器快时变、非线性和强不确定性的控制问题,基于解析形式的非线性最优预测控制方法,采用分层设计思想设计了飞行器姿态控制系统,可较好满足高超声速飞行器的快速性要求;在分析了倾侧转弯飞行控制过程的主要影响因素及其影响规律的基础上,提出一种"降低攻角—快速滚转—拉起攻角"的耦合控制策略。对该控制策略对于高超声速飞行器的适用性进行了仿真分析,结果表明:所提耦合控制策略有效降低了偏航通道的控制需求,降低了倾侧转弯控制过程的失控风险,提高了控制系统的可靠性。     

Transformations of node‐balanced routing problems

This article describes a polynomial transformation for a class of unit‐demand vehicle routing problems, named node‐balanced routing problems (BRP), where the number of nodes on each route is restricted to be in an interval such that the workload across the routes is balanced. The transformation is general in that it can be applied to single or multiple depot, homogeneous or heterogeneous fleet BRPs, and any combination thereof. At the heart of the procedure lies transforming the BRP into a generalized traveling salesman problem (TSP), which can then be transformed into a TSP. The transformed graph exhibits special properties which can be exploited to significantly reduce the number of arcs, and used to construct a formulation for the resulting TSP that amounts to no more than that of a constrained assignment problem. Computational results on a number of instances are presented. © 2015 Wiley Periodicals, Inc. Naval Research Logistics 62: 370–387, 2015     

射表误差及对射击精度的影响分析

以车载武器为研究对象,明确了射表的作用和基本要求,分析了射表误差的组成因素和简要计算方法,在此基础上剖析了射表误差对射击精度的影响。提出了射表误差是目前条件下影响车载武器射击精度主要因素的观点,可对研究车载武器射击精度提供一定参考。     

高超声速飞行器纵向平面滑翔飞行制导控制方法

针对高超声速飞行器纵向平面内准平衡滑翔制导控制问题,提出一种基于动态面控制和滑模控制的制导与姿态控制系统设计方法。建立高超声速飞行器纵向平面质心和绕质心运动模型,以航程预测-校正控制为出发点得到期望速度倾角并结合飞行器纵向模型中速度倾角、攻角和俯仰角速率间的关系,利用动态面控制方法、终端滑模控制和二阶滑模控制方法完成高超声速飞行器纵向平面内制导与姿控系统设计。基于偏导系数矩阵形式的通用高超声速飞行器气动模型,完成期望攻角和左右升降舵偏角指令的解析计算。通过高超声速飞行器对该制导控制系统设计方法的有效性和鲁棒性进行仿真验证。根据数值仿真结果,系统阐述了高超声速飞行器进入准平衡滑翔飞行前后制导控制系统工作的特点,进而总结了从初始下降段到准平衡滑翔段交班飞行阶段制导控制系统设计需要注意的问题。     

高超声速巡航飞行器机体/推进系统一体化设计参数灵敏度分析

建立了高超声速巡航飞行器机身/推进系统一体化设计模型,对高超声速巡航飞行器机体/推进系统设计参数对性能的影响进行了分析,提出了一种新的设计参数灵敏度分析方法和设计参数取值域界定方法,确定了各设计参数的影响等级并对设计参数取值域进行了划分。