产品开发早期基于核心工艺框架的工艺设计

关于早期工艺设计理论方法的研究都是以特征信息为基础,不能利用早期阶段粗粒 度、非完备的产品信息.为此,采用关键特性表示粗粒度、非完备的产品信息,提出基于核 心工艺框架的工艺设计方法.核心工艺框架是对满足关键特性要求的工艺计划的抽象,可表 达产品族或零件族中各种变型的核心工艺内容,根据分支和存在规则快速配置工艺计划.基 于核心工艺框架的工艺设计过程包括4个步骤:确定产品族/零件族,检索核心工艺框架, 配置核心工艺和工艺路线设计,有效性规则、原理性规则和定制性规则确保工艺设计的准确 性.最后通过有翼导弹的弹翼主梁的加工工艺验证了此方法的可行性.      

概要工艺设计中的综合工艺能力估算方法

从估算工艺系统的输入性能即工艺要素能力出发,构造了一种具有工艺能力一般性质的工艺要素能力的通用量化函数,提出了一种度量整体工艺质量的指标——综合工艺能力指数及其估算函数,为在概要工艺设计阶段评估和优选工艺方案提供了有效手段.      

面向时序InSAR的卫星任务规划框架设计

随着国内自主雷达卫星和差分干涉合成孔径雷达技术(D-InSAR)及衍生的时序InSAR技术的发展,以时间序列上重复观测为主的长周期形变监测的应用与日俱增。对遥感卫星地面任务规划系统来说,规划和管理大量有时序关联的重复任务,从而最大限度地满足观测要求,是提升以形变监测为使命的雷达卫星运控效率的关键。在综合考虑雷达差分干涉任务序列性、一致性、周期性特征的基础上,设计了一种面向雷达卫星时序InSAR类型任务的规划框架,旨在规划序列任务时,考虑序列整体特性,进行序列任务组间的冲突检测。基于此方法,对现有的地面任务规划系统进行了优化升级,验证了框架的有效性。结果证明:该方法可快速、自动进行序列任务冲突消解,可为长周期序列任务的规划和管理提供设计参考。     

面向月球科研站任务的地月准实时遥操作模拟验证系统设计与关键技术研究

针对月球科研站任务地月遥操作需求和特点,设计地月准实时遥操作模拟验证系统,对其中的关键技术海量多尺度遥感数据环境感知、空地协同高精度定位、基于混合现实的预测仿真等进行了研究。提出了基于海量多尺度遥感数据的联合处理方法,环境感知数据融合可处理米级至厘米级环境感知结果;设计基于空地多运动平台协同定位的原型软件,空地协同地标约束下,定位精度不低于轨道器影像1个像素;开发了带有力觉反馈的预测仿真验证平台,在2~3 s变时延约束下可在仿真环境下协同演示遥操作过程,真实还原从端的遥操作作业场景,提高遥操作的执行效率和安全性。为地面人员的方案设计、操作手训练、故障处置等提供实时支持,为我国未来实施月球科研站任务筑牢基础。     

电子干扰对低可观测飞行器飞行路径规划的影响

为了提高巡航导弹的低空突防能力,在分析电子干扰对雷达网威胁区域的影响后认为:在多重干扰条件下,雷达探测空间会顺着干扰方向产生内凹和偏移,因此,建立了新的雷达探测空间模型.采用空间对象间拓扑关系推理方法建立了飞行器飞行路径规划目标函数中雷达威胁指数模型,然后改进了飞行器飞行路径规划模型,并在此基础上进行了巡航导弹飞行路径规划的软件仿真.仿真结果表明:考虑电子干扰对雷达威胁区域的影响情况下规划的飞行路径能够回避雷达威胁,有效提高飞行器低空突防能力.     

Exploring mission planning method for a team of carrier aircraft launching

High-level efficiency and safety are of great significance for improving the fighting capability of an aircraft carrier. One way to enhance efficiency and safety level is to organize the carrier aircraft into combat effectively. This paper studies the mission planning problem for a team of carrier aircraft launching, and a novel distributed mission planning architecture is proposed. The architecture is hierarchical and is comprised of four levels, namely, the input level, the coordination level,the path planning level and the execution level. Realistic constraints in each level of the distributed architecture, such as the vortex flow effect, the crowd effect and the motion of aircraft, are considered in the model. To solve this problem, a distributed path planning algorithm based on the asynchronous planning strategy is developed. The proposed Mission Planning Approach for Carrier Aircraft Launching(MPACAL) is validated using the setups of the Nimitz-class aircraft carrier.Compared to the isolated planning architecture and the centralized planning architecture, the proposed distributed planning architecture has advantages in coordinating the launch tasks not only belonging to the same catapult but also when all different catapults are considered. The proposed MPACAL provides a modeling method for the flight deck operation on aircraft carrier.     

Four-axis trochoidal toolpath planning for rough milling of aero-engine blisks

The Blade Integrated Disk (Blisk) is one of the key components in the aero-engine, it is generally manufactured by the multi-axis milling and almost 90% raw materials are removed. To avoid the full immersion of a cutter in the rough machining of a blisk channel, the trochoidal milling is a promising strategy since it can keep a small immersion angle in the rough milling process while maintaining the high machining efficiency. However, while toolpaths are being planned for the trochoidal milling process, the conventional methods are mainly for the planar machining area with fixed tool orientations, which cannot be used for complex channels where the multi-axis machining should be employed. To this end, this paper presents a four-axis trochoidal toolpath planning method with a ball-end cutter, and thus the blisk channel can be machined efficiently. For this to happen, the trochoidal paths are planned in the parametric domain and then mapped into the physical domain, with tool orientations controlled by the quaternion interpolation method to have smooth tool movement along the toolpaths. Both geometric simulation and physical milling experiments of the proposed method have convincingly demonstrated the validation of the proposed method.     

大型水陆两栖飞机抗浪能力研究

阐述了大型灭火/水上救援水陆两栖飞机高抗浪船体设计方法，对飞机起飞过程中的水阻力、滑行稳定性和波浪运动响应进行了研究。通过对比分析，发现断阶喷溅形态是影响水阻力出现第2峰值的关键因素，提出了水阻力曲线出现第2峰值的条件；分析了在纵倾角-速度图中不同区域滑行时飞机纵倾角响应特性，明确了飞机在典型状态的稳定边界；通过研究波长、速度对飞机纵倾角、飞高和机身垂向过载的影响，确定了飞机在波浪水面发生剧烈运动响应时对应的波长范围。     

基于不规则障碍物环境下无人机的改进几何路径规划算法

随着无人机应用环境的多样化,在复杂环境中寻找无碰撞路径是非常重要的。传统的路径规划算法可以找到可行的路径,但它们在时间效率和路径长度之间没有很好的平衡,传统的几何算法只能避免特殊形状的障碍物。提出了一种改进的几何路径规划算法,使无人机能够在复杂的环境中避开任意形状的障碍物,找到较短的路径。首先,针对不规则障碍物,建立了凸多边形覆盖模型。然后解决了传统几何算法陷入局部最优解的缺点。提出了从相邻路径段生成无碰撞路径的二次规划思想,并针对该方法提出了一种新的安全阀值策略。最后,为了验证算法的性能,在不同的复杂环境下进行了仿真,并从几个方面对所提出的算法与A*算法进行了对比分析。