Air route network optimization in fragmented airspace based on cellular automata

Air route network optimization,one of the essential parts of the airspace planning,is an effective way to optimize airspace resources,increase airspace capacity,and alleviate air traffic con gestion.However,little has been done on the optimization of air route network in the fragmented airspace caused by prohibited,restricted,and dangerous areas (PRDs).In this paper,an air route network optimization model is developed with the total operational cost as the objective function while airspace restriction,air route network capacity,and non-straight-line factors (NSLF) are taken as major constraints.A square grid cellular space,Moore neighbors,a fixed boundary,together with a set of rules for solving the route network optimization model are designed based on cellular automata.The empirical traffic of airports with the largest traffic volume in each of the 9 flight information regions in mainland China is collected as the origin-destination (OD) air port pair demands.Based on traffic patterns,the model generates 35 air routes which successfully avoids 144 PRDs.Compared with the current air route network structure,the number of nodes decreases by 41.67％,while the total length of flight segments and air routes drop by 32.03％ and 5.82％ respectively.The NSLF decreases by 5.82％ with changes in the total length of the air route network.More importantly,the total operational cost of the whole network decreases by 6.22％.The computational results show the potential benefits of the model and the advantage of the algorithm.Optimization of air route network can significantly reduce operational cost while ensuring operation safety.     

A surface parametric control and global optimization method for axial flow compressor blades

An aerodynamic optimization method for axial flow compressor blades available for engineering is developed in this paper. Bezier surface is adopted as parameterization method to control the suction surface of the blades, which brings the following advantages:(A) significantly reducing design variables;(B) easy to ensure the mechanical strength of rotating blades;(C) better physical understanding;(D) easy to achieve smooth surface. The Improved Artificial Bee Colony(IABC) algorithm, which significantly increases the convergence speed and global optimization ability, is adopted to find the optimal result. A new engineering optimization tool is constructed by combining the surface parametric control method, the IABC algorithm, with a verified Computational Fluid Dynamics(CFD) simulation method, and it has been successfully applied in the aerodynamic optimization for a single-row transonic rotor(Rotor 37) and a single-stage transonic axialflow compressor(Stage 35). With the constraint that the relative change in the flow rate is less than0.5% and the total pressure ratio does not decrease, within the acceptable time in engineering, the adiabatic efficiency of Rotor 37 at design point increases by 1.02%, while its surge margin 0.84%,and the adiabatic efficiency of Stage 35 0.54%, while its surge margin 1.11% after optimization, to verify the effectiveness and potential in engineering of this new tool for optimization of axial compressor blade.     

基于企业战略规划的维修资源布局

主要分析在民航十三五规划及企业战略规划的背景下，航空公司应该如何配置和布局维修资源，以满足自身机队发展及维修保障能力提升的需要。     

基于计划到达时刻的四维航迹规划

为了加速空管自动化与智能化技术的应用与实施,提出了水平航迹与高度/速度剖面分阶段设计的四维航迹规划方法。基于动态时间规整与层次聚类方法实现历史雷达航迹聚类分析,完成水平航迹设计。建立速度剖面规划模型,通过航迹生成器与速度调整器交互协作,精细化控制进场时间,以满足计划到达时间要求。以上海浦东国际机场PINOT进场航班为例实施验证,结果表明,四维航迹规划方法可有效实现航班的计划到达时间,从而减少航班延误,提高终端空域运行效率。     

基于SP-ABC算法的数控铣削参数优化

针对铣削加工中成本最低的优化问题,采用一种改进的人工蜂群(SP-ABC)算法对铣削参数进行优化.在基本ABC算法的基础上,嵌入粒子群(PSO)算法,以提高算法的局部寻优能力.此外,不同于传统的单工序优化,建立的优化目标模型,在考虑实际生产过程中的各种约束条件下,可同时对粗、精两个阶段多道工序同步进行优化.计算机仿真结果表明,相较其他的基本算法,该算法能够找到更优的铣削参数组合,从而实现铣削加工过程的成本最低化.     

基于MBD的数控加工工艺技术研究

针对传统数控加工工艺设计面临的问题,提出在基于MBD(Model Based Definition)的设计与工艺协同的新模式下,实现工厂工艺资源管理、数控加工工艺设计、工序模型的创建及三维标注、结构化工艺设计、三维作业指导卡的发布等一体化管理与应用.结构化工艺设计技术的应用将极大地缩短产品研制生产周期,为全面推进工厂的数字化建设提供了保障.     

10cm氙离子推力器变推力特性研究

非重力阻尼的连续、快速、高精度补偿是实现重力梯度测量卫星精细重力场测量的关键技术之一,直接影响到整星工程任务的成败。针对重力梯度测量卫星在轨飞行期间对电推进系统宽范围连续变推力能力的应用需求,分析了10cm氙离子推力器推力调节响应特性。在此基础上,通过对阳极电流、励磁电流和阳极流率等推力高敏感响应参量的组合调节,开展了推力调节试验研究,验证了10cm氙离子推力器宽范围连续变推力调节能力,获得了1～20mN范围内的推力调节性能及其变化规律。试验结果表明：在采用地面供电、供气设备条件下,10cm氙离子推力器能够在100～597W的功率范围内实现0.98～20.29mN的推力宽范围调节,比冲175～3500s,推力分辨率优于50μN。研究为建立10cm氙离子电推进系统的推力控制数学模型及调节控制算法奠定基础。     

基于压缩量偏差约束的整体叶盘砂布轮数控抛光路径规划

数控抛光是实现整体叶盘叶片表面光整加工自动化、高效化的关键技术,而抛光路径规划对表面质量有着显著的影响。在抛光曲面时,砂布轮沿接触曲线上的径向压缩量偏差导致材料去除量一致性较差。针对该问题,提出一种基于压缩量偏差约束的路径规划方法。通过对砂布轮受曲面挤压变形几何分析,建立了自由曲面抛光接触线上砂布轮压缩变形量分布模型。在给定刀触点处,以接触曲线上最大压缩量偏差最小化为评价指标构建了刀轴矢量优化模型,并利用改进的粒子群优化（PSO）算法进行求解。基于最优刀轴矢量,完成自由曲面上等参数相邻刀触轨迹曲线的计算。最后,通过数据对比和试验,验证了所提方法的正确性和有效性。结果表明,抛光区域的轮廓度、粗糙度均得到明显的改善。     

小型固定翼无人机集群综述和未来发展综述

围绕小型固定翼无人机集群这一难度高、发展快、应用前景广阔、多学科交叉的新方向,从集群系统内涵、现有典型项目、关键技术3个角度综述了国内外小型固定翼无人机集群的研究现状。在系统梳理集群系统内涵和应用优势的基础上,从集群协同模式探索、分布指挥体系构建、核心关键技术突破和集群验证等4个视角总结现有典型项目,从体系架构、通信组网、决策与规划、飞机平台、集群飞行、集群安全与集群指控等7个核心点综述了技术研究现状。最后,综合小型固定翼无人机集群中亟需解决的关键技术,展望了这一领域未来的发展趋势。     

Coactive design of explainable agent-based task planning and deep reinforcement learning for human-UAVs teamwork

Unmanned Aerial Vehicles (UAVs) are useful in dangerous and dynamic tasks such as search-and-rescue, forest surveillance, and anti-terrorist operations. These tasks can be solved better through the collaboration of multiple UAVs under human supervision. However, it is still difficult for human to monitor, understand, predict and control the behaviors of the UAVs due to the task complexity as well as the black-box machine learning and planning algorithms being used. In this paper, the coactive design method is adopted to analyze the cognitive capabilities required for the tasks and design the interdependencies among the heterogeneous teammates of UAVs or human for coherent collaboration. Then, an agent-based task planner is proposed to automatically decompose a complex task into a sequence of explainable subtasks under constrains of resources, execution time, social rules and costs. Besides, a deep reinforcement learning approach is designed for the UAVs to learn optimal policies of a flocking behavior and a path planner that are easy for the human operator to understand and control. Finally, a mixed-initiative action selection mechanism is used to evaluate the learned policies as well as the human’s decisions. Experimental results demonstrate the effectiveness of the proposed methods.