矢量多边形并行栅格化数据划分方法

针对多边形并行栅格化中的负载不均衡问题提出一种新的数据划分方法,主要包括:迭代计算划分线的位置,在每次迭代中保证分块间的计算量大致均衡,完成数据划分、实现负载均衡;提出基于二叉树的划分结果融合策略,以解决跨边界多边形的融合问题。在多核CPU环境下实现并行算法,选用多个典型土地利用现状数据集进行测试。结果表明:针对不同类型多边形数据集,所提方法较传统方法可获得更高的并行加速比和更好的负载均衡;针对大数据量数据集,以多边形节点数为度量标准可更精确地估算分块计算量,从而更好地实现负载均衡。     

火力打击条件下Ad hoc网络节点毁伤程度评估

Ad Hoc网络在信息化战场的广泛应用,需要快速有效地评估火力打击对网络的毁伤程度。从Ad hoc网络自身属性出发,结合网络的内部测度和外部测度,给出了节点有效度、节点修复度以及节点连通度等指标计算模型。构建了节点毁伤程度加权邻接矩阵,提出了一种基于复杂网络团簇结构划分的节点毁伤程度评估方法,根据权值的相似程度对节点的毁伤程度进行归类,并给出了示例分析。最后将本算法与模糊聚类算法进行对比分析,结果证明了方法的正确性。     

不同形状喷嘴内流场模拟分析

建立了前混合磨料水射流喷嘴内固液两相流动的数学模型,运用Fluent软件对圆柱型、圆锥收敛型、流线型和圆锥带圆柱段收敛型喷嘴内流场进行了数值模拟,分析了喷嘴形状对喷嘴内流场和磨料颗粒加速性能的影响,并通过切割实验验证了仿真结果的可靠性。结果表明:圆柱型喷嘴能量损耗较大,圆锥收敛型喷嘴对磨料颗粒的加速性能差,流线型喷嘴性能良好但不易加工,只有圆锥带圆柱段收敛型喷嘴是用作前混合式磨料水射流喷嘴的最优选择。     

汽车加油机器人关键技术分析

传统加油模式使操作人员易受有毒易燃油气的侵害,而且严冬酷暑时加油站作业环境恶劣,因此在加油站配置机器人实现智能化加油变得十分迫切。介绍了国内外汽车加油机器人的研究进展,指出其作业对象的差异性、环境的多变性以及作业过程的危险性。分析了当前汽车加油机器人所采用的加油机构、加注接口以及识别与定位技术的特点,指出加油机构优化、安全控制、智能识别与定位研究是汽车加油机器人发展的方向。     

舰艇编队防空能力仿真和可疑目标识别模型

由于舰艇的探测范围有限,为了最大限度地保证指挥舰的安全,需要设计合理的编队队形。对此设计了一种对称环形编队,分析了该编队在有预警机和无预警机两种情景下的抗饱和攻击能力。分析结果显示该队形能最大程度地保护指挥舰安全,抗饱和攻击能力显著增强。特别在有预警机支援的情况下,舰队生存能力可以得到极大提升。最后针对未知目标,使用决策树分类可以更迅速准确地判断出目标真实意图。     

基于飞行仿真的近地告警包线计算

TSO-C151b标准中近地告警包线为通用模型设计,未结合飞机的自身特性。为精确给出飞机过大下降速率告警包线,通过结合飞机自身气动特性和操纵特性,分析告警机理,建立飞机六自由度仿真程序。依据飞机发动机数据、气动力数据、质量特性数据等,建立仿真模型及操作程序,实时模拟飞机各舵面的操作响应过程,以及飞机的运动姿态和飞行轨迹,计算飞机在不同下降速率时拉起的损失高度,设计近地告警包线。实际试飞数据验证了模型设计合理,计算结果准确。同时,将仿真计算得出的告警包线与TSO-C151b对比,给出适用于飞机的近地告警包线使用建议,保证飞机飞行安全。     

A study on the surface overpressure distribution and formation of a double curvature liner under a two-point initiation

The formation mechanism of an EFP(explosively formed projectile) using a double curvature liner under the overpressure effect generated by a regular oblique reflection was investigated in this paper.Based on the detonation wave propagation theory,the change of the incident angle of the detonation wave collision at different positions and the distribution area of the overpressure on the surface of the liner were calculated.Three-dimensional numerical simulations of the formation process of the EFP with tail as well as the ability to penetrate 45# steel were performed using LS-DYNA software,and the EFP ve-locity,the penetration ability,and the forming were assessed via experiments and x-ray photographs.The experimental results coincides with those of the simulations.Results indicate that the collision of the detonation wave was controlled to be a regular oblique reflection acting on the liner by setting the di-mensions of the unit charge and maintaining the pressure at the collision point region at more than 2.4 times the CJ detonation when the incident angle approached the critical angle.The distance from the liner midline to the boundary of the area within which the pressure ratio of the regular oblique reflection pressure to the CJ detonation pressure was greater than 2.5,2,and 1.5was approximately 0.66 mm,1.32 mm,and 3.3 mm,respectively.It is noted that pressure gradient caused the liner to turn inside out in the middle to form the head of the EFP and close the two tails of the EFP at approximately 120μs.The penetration depth of the EFP into a 45# steel target exceeded 30 mm,and there was radial expansion between the head and tail of the EFE increasing the penetration resistance of the EFP.Therefore,the structural size of the unit charge and the liner can be further optimized to reduce resistance to increase the penetration ability of the EFP.     

One-step synthesis of FeO(OH) nanoparticles by electric explosion of iron wire underwater

In this study,we investigated electric explosion of iron wire in distilled water with different energy input adjusted by charging voltage.The as-prepared samples were characterized by X-ray diffraction (XRD),scanning electron microscopy (SEM),transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS),showing the presence of iron and multiple iron-based compounds oxides with contents influenced by the experimental conditions.In particular,pure FeO(OH) nanoparticles were obtained using electric explosion of iron wire with energy input of 1125 J at charging voltage of 15 kV.Analysis of discharge current and resistive voltage data indicate that the high energy input induced by strong plasma discharge at high charging voltage is a key factor to form FeO(OH).This study presents a one-step method to synthesize FeO(OH) nanoparticles using electric explosion of iron wire.     

Driving force coordinated control of an 8 ×8 in-wheel motor drive vehicle with tire-road friction coefficient identification

Because of the complexities of tire-road interaction,the wheels of a multi-wheel distributed electric drive vehicle can easily slip under certain working conditions.As wheel slip affects the dynamic per-formance and stability of the vehicle,it is crucial to control it and coordinate the driving force.With this aim,this paper presents a driving force coordination control strategy with road identification for eight-wheeled electric vehicles equipped with an in-wheel motor for each wheel.In the proposed control strategy,the road identification module estimates tire-road forces using an unscented Kalman filter al-gorithm and recognizes the road adhesion coefficient by employing the recursive least-square method.According to road identification,the optimal slip ratio under the current driving condition is obtained,and a controller based on sliding mode control with a conditional integrator uses this value for accel-eration slip regulation.The anti-slip controller obtains the adjusting torque,which is integrated with the driver-command-based feedforward control torque to implement driving force coordination control.The results of hardware-in-loop simulation show that this control strategy can accurately estimate tire-road forces as well as the friction coefficient,and thus,can effectively fulfill the purpose of driving force coordinated control under different driving conditions.     

The investigation of NTO/HMX-based plastic-bonded explosives and its safety performance

3-nitro-1,2,4-triazol-5-one (NTO) is the main component of insensitive munitions (IM) formulation because of its outstanding insensitive properties.In this paper,a series of NTO/HMX-based composite explosives were prepared and characterized.The study focuses on the effect of NTO on the performance of the formulations,especially the safety performance.The results revealed that the mechanical sensi-tivity of formulations was associated with NTO content,as well as the thermal conductivity,specific heat capacity and Arrhenius parameters.Then,the high amount of NTO using in formulation was proved to be helpful for NTO/HMX-based formulation to exhibit good thermal safety.Besides,by accelerating rate calorimeter (ARC) and a modified cook-offequipment,the pressure and pressure rise rate were proved as the important indicator for judging the thermal safety performance in confined spaces.Finally,the numerical simulation was used as a credible method for predicting the respond temperature of cook-off experiment.