基于多子网语言决策图的空管体系绩效评估

为评估空管体系综合绩效水平,制定了关键绩效领域和指标,提出基于多子网语言决策图的群体评估模型。采用多子网策略分析领域及指标间的影响关系,应用语言尺度辅助群体专家建立了领域及指标间的初始判断矩阵和影响连接矩阵。给出了模型的求解方法,在求得各子网内准则的全局权重后,聚合即可得到体系的综合评估值。案例分析表明,相比于不考虑领域及指标间影响的情况,模型结果能更客观、全面地展示各领域及指标的权重,更显著地揭示空管体系间的差距。     

基于军民融合条件的装备性能维修保障合同执行情况

在军民融合背景下,部分新获得承制资格企业在首批装备制造或维修保障任务中时有违约问题发生。为解决该问题,提出了以基于性能的采办理论为基础的合同违约预测方法研究。以陆军通用武器装备维修保障承制单位为案例,运用SPSS软件进行数据整理和因子分析,构建合同履行预测评价模型。然后利用新入民营企业试生产实验数据在量产前建立费用和可用度模型,通过费效比最优的方式预测各新入企业的首批装备可用度及花费等关键指标,进行综合评估。结论表明该方法能够对装备合同履行情况和违约风险进行预判。     

一种性能驱动的时序规划方法

在超级计算机体系结构设计阶段 ,有必要进行时序规划 ,以尽早判断设计方案和性能指标的物理可实现性。提出一种性能驱动的时序规划方法 ,采用适于组件性能描述的时序性能模型 ,并按照线网权重分配路径延时余量 ,算法具有效率高、延时分配合理的优点     

多次点火固体火箭发动机在面空导弹上的应用研究

论述了多次点火固体火箭发动机的多次点火的最佳控制,具体研究了两次点火固体火箭发动机的参数对飞行性能的影响,对两次点火固体火箭发动机结合弹道同时最佳化问题给出了仿真结果.     

基于网络的指挥控制协同性能评估模型

网络中心作战是通过部队网络化而实现的军事行动,网络化作战行动的评估需要新的模型和测量方法,以便获取基于信息优势对改进后的指挥和控制的效果.在借鉴美军经验的基础上,从信息的角度区分了网络中心作战信息栅格运作的方式,运用图论、复杂性理论和性能评估理论等方法,建立了作为信息处理系统的指挥控制网络的结构、预期延迟时间、协同影响、复杂性和有效期望等待时间模型,以及作为指挥控制系统的指挥控制网络的节点决策和网络决策效能模型,是对网络中心作战方法的探索.     

高精度CFD程序的内外子区域划分异构并行算法

对计算流体力学(Computational Fluid Dynamics, CFD)程序CNS提出一种Offload模式下对任务内外子区域划分的异构并行算法,结合结构化网格下有限差分计算和四阶龙格-库塔方法的特点,引入ghost网格点区域,设计了一种ghost区域收缩计算策略,显著降低了异构计算资源之间的数据传输开销,负载均衡时CPU端的计算与MPI通信完全和加速器端的计算重叠,提高了异构协同并行性。推导了保证计算正确性的ghost区域的参数,分析了负载均衡的条件。在"CPU(Intel Haswell Xeon E5-2670 12 cores×2)+加速器(Xeon Phi 7120A×2)"的服务器上测得该算法较直接将任务子块整体迁至加速器端计算的异构算法性能平均提升至5.9倍,较MPI/OpenMP两级并行算法使用24个纯CPU核的性能,该算法使用单加速器时加速至1.27倍,使用双加速器加速至1.45倍。讨论和分析了性能瓶颈与存在的问题。     

基于经济绩效的国防工业市场最优集中度研究

以满足企业利润最大化和社会福利最大化双重效率标准的思想为基础,通过拟合我国国防支出需求函数和国防工业企业的成本函数,对我国国防工业市场最优集中度进行了理论研究,得出最优企业数量的一般表达式,并以我国航空工业上市公司为例,对其市场集中度展开了系统性估算。研究结果表明,我国国防工业产业的最优企业数量可以根据相关数据与拟合出的参数得到一个明确的数值,并且我国国防工业产业的最优市场集中度表现为适度集中,而在特殊情况下表现为完全集中。我国航空工业上市公司的最优企业数量为14家时,能够满足企业利润最大化与市场出清的双重标准,市场集中度达到最优。     

Study on dynamic response of multi-degree-of-freedom explosion vessel system under impact load

In order to study the dynamic response and calculate the axial dynamic coefficient of the monolayer cylindrical explosion vessel, the wall of vessel is simplified as a multi-degree-of-freedom (MDoF) undamped elastic foundation beam. Decoupling the coupled motion equation and using Duhamel's integrals, the solutions in generalized coordinates of the equations under exponentially decaying loads, square wave loads and triangular wave loads are calculated. These solutions are consistent in form with the solutions of single-degree-of-freedom (SDoF) undamped forced vibration simplified model. Based on the model, equivalent MDoF design method (also called MDoF dynamic coefficient method) of cylindrical explosion vessel is proposed. The traditional method can only predict the dynamic coefficient of torus portion around the explosion center, but this method can predict that of the vessel wall at any axial n dividing point position. It is verified that the prediction accuracy of this model is greatly improved compared with the SDoF model by comparing the results of this model with SDoF model and numerical simulation in different working conditions. However, the prediction accuracy decreases as the scaled distance decreases and approaches the end of the vessel, which is related to the accuracy of the empirical formula of the implosion load, the simplification of the explosion load direction, the boundary conditions, and the loading time difference.     

Direct ink writing of 3D-Honeycombed CL-20 structures with low critical size

3D-Honeycombed CL-20 structures with low critical size of detonation have been fabricated successfully for intelligent weapon systems using a micro-flow direct ink writing (DIW) technology. The CL-20-based explosive ink for DIW technology was prepared by a two-component adhesive system with waterborne polyurethane (WPU) and ethyl cellulose (EC). Not only the preparation of the explosive ink but also the principle of DIW process have been investigated systematically. The explosive ink displayed strong shear-thinning behavior that permitted layer-by-layer deposition from a fine nozzle onto a substrate to produce complex shapes. The EC content was varied to alter the pore structure distribution and rheological behavior of ink samples after curing. The deposited explosive composite materials are of a honeycombed structure with high porosity, and the pore size distribution increases with the increase of EC content. No phase change was observed during the preparation process. Both WPU and EC show good compatibility with CL-20 particles. Apparently high activation energy was realized in the CL-20-based composite ink compared with that of the refined CL-20 due to the presence of non-energetic but stable WPU. The detonation performance of the composite materials can be precisely controlled by an adjustment in the content of binders. The 3D honeycombed CL-20 structures, which are fabricated by DIW technology, have a very small critical detonation size of less than 69 μm, as demonstrated by wedge shaped charge test. The ink can be used to create 3D structures with complex geometries not possible with traditional manufacturing techniques, which presents a bright future for the development of intelligent weapon systems.     

A high performance waveform and a new ranging method for the proximity detector

Signal modulation is an essential design factor for proximity detectors and directly affects the system’s potential performance. In order to achieve the advantages of chaotic codes bi-phase modulation (CCBPM) and linear frequency modulation (LFM) simultaneously, this paper designed a waveform which combined chaotic codes bi-phase modulation and linear frequency modulation (CCBPM–LFM) for proximity detectors. The CCBPM–LFM waveform was analyzed in the aspect of time delay resolution (TDR) and Doppler tolerance (DT) based on ambiguity function (AF). Then, a ranging method, which we called instant correlation harmonic demodulation (ICHD), was presented for the detector using the CCBPM–LFM waveform. By combining time domain instant correlation with harmonic demodulation, the ICHD solved the problem caused by combination modulation and made the most of the linear frequency modulation (LFM) harmonics and the correlation of chaotic codes. Finally, a prototype was implemented and ranging experiments were carried out. From the theoretical analysis and experimental results, the proximity detector used the CCBPM–LFM waveform has an outstanding detection performance.