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61.
训练空域的动态规划对于提高空域利用率,提高部队训练效率,缓解军民用空矛盾具有重要意义。本文将空域的动态规划问题进行分阶段处理,通过寻求各个阶段的最优方案来使得总的占用时间最短。针对各个阶段的动态规划问题,在分析问题复杂性的基础上,构建了空域规划模型,提出了遗传-离散粒子群算法,通过融合遗传算法中的交叉与变异思想来改善DPSO算法摆脱局部最优解的能力,提高算法的收敛速度和精度。同时为保证种群的多样性,设计了可保证个体可行性的自适应交叉算子和变异算子。最后利用甘特图来表示整个空域规划过程。将改进后的遗传-粒子群算法用于算例,并与遗传算法比较,结果表明该算法获得的结果更优且收敛速度更快。 相似文献
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为研究天线不同结构对表面等离激元(SPP)增益光镊作用的影响,建立天线-基底的电磁波传输耦合激元电场触发光梯度力的数值模型,并利用数值模型分析天线不同结构对SPP电场的影响规律,同时,这种电场变化规律对光镊增益有直接的数学关系,基于上述物理机制,获得不同天线结构对光梯度力产生的优化策略。为验证上述物理机制与优化策略的有效性,开展纳米颗粒的粒子图像测速(PIV)试验,天线材料为银,基底为二氧化硅,纳米颗粒为银,试验能够完好地观测到纳米颗粒在天线通道的运动情况。结果表明,光梯度力的增益机制在于激元电场强度和梯度两方面因素,前者随天线不对称性增强而先增大后减小,后者呈现一直增大趋势;纳米颗粒推动作用力的计算误差约为5.5%~13.8%,且试验值与计算值的趋势相符,一方面验证本文研究机理及优化策略的有效性,另一方面证明PFP技术的原理可行。 相似文献
66.
Non-thermal components are key ingredients for understanding clusters of galaxies. In the hierarchical model of structure
formation, shocks and large-scale turbulence are unavoidable in the cluster formation processes. Understanding the amplification
and evolution of the magnetic field in galaxy clusters is necessary for modelling both the heat transport and the dissipative
processes in the hot intra-cluster plasma. The acceleration, transport and interactions of non-thermal energetic particles
are essential for modelling the observed emissions. Therefore, the inclusion of the non-thermal components will be mandatory
for simulating accurately the global dynamical processes in clusters. In this review, we summarise the results obtained with
the simulations of the formation of galaxy clusters which address the issues of shocks, magnetic field, cosmic ray particles
and turbulence. 相似文献
67.
In this paper we review the possible mechanisms for production of non-thermal electrons which are responsible for the observed
non-thermal radiation in clusters of galaxies. Our primary focus is on non-thermal Bremsstrahlung and inverse Compton scattering,
that produce hard X-ray emission. We first give a brief review of acceleration mechanisms and point out that in most astrophysical
situations, and in particular for the intracluster medium, shocks, turbulence and plasma waves play a crucial role. We also
outline how the effects of the turbulence can be accounted for. Using a generic model for turbulence and acceleration, we
then consider two scenarios for production of non-thermal radiation. The first is motivated by the possibility that hard X-ray
emission is due to non-thermal Bremsstrahlung by nonrelativistic particles and attempts to produce non-thermal tails by accelerating
the electrons from the background plasma with an initial Maxwellian distribution. For acceleration rates smaller than the
Coulomb energy loss rate, the effect of energising the plasma is to primarily heat the plasma with little sign of a distinct
non-thermal tail. Such tails are discernible only for acceleration rates comparable or larger than the Coulomb loss rate.
However, these tails are accompanied by significant heating and they are present for a short time of <106 years, which is also the time that the tail will be thermalised. A longer period of acceleration at such rates will result
in a runaway situation with most particles being accelerated to very high energies. These more exact treatments confirm the
difficulty with this model, first pointed out by Petrosian (Astrophys. J. 557:560, 2001). Such non-thermal tails, even if possible, can only explain the hard X-ray but not the radio emission which needs GeV or
higher energy electrons. For these and for production of hard X-rays by the inverse Compton model, we need the second scenario
where there is injection and subsequent acceleration of relativistic electrons. It is shown that a steady state situation,
for example arising from secondary electrons produced from cosmic ray proton scattering by background protons, will most likely
lead to flatter than required electron spectra or it requires a short escape time of the electrons from the cluster. An episodic
injection of relativistic electrons, presumably from galaxies or AGN, and/or episodic generation of turbulence and shocks
by mergers can result in an electron spectrum consistent with observations but for only a short period of less than one billion
years. 相似文献
68.
L.A. Fisk G. Gloeckler 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2009
Stochastic acceleration in the heliosheath appears to be a likely mechanism by which Anomalous Cosmic Rays (ACRs) are accelerated. However, most stochastic acceleration mechanisms are not appropriate. The energy density in the ACRs and in the interstellar pickup ions out of which the ACRs are accelerated greatly exceeds the energy density in the turbulence in the heliosheath. Thus, a traditional stochastic acceleration mechanism in which particles are accelerated by damping the turbulence will not work. A stochastic acceleration mechanism has been developed in which the total energy of the pickup ions and the ACRs is conserved. Energy is redistributed from the core pickup ions into a suprathermal tail to create the ACRs. A model for the acceleration of the ACRs in the heliosheath, based on this stochastic acceleration mechanism, is presented. The model provides reasonable fits to the spectra of suprathermal particles and ACRs observed by Voyager. 相似文献
69.
基于粒子群拍卖混合算法的空空导弹制导权移交技术 总被引:1,自引:0,他引:1
为解决超视距协同空战中的空空导弹制导权移交问题,首先对空空导弹制导权移交问题进行了数学建模,构建了我机对目标机制导优先权模型以及我机对空空导弹制导优先权模型,建立了空空导弹制导权移交的任务分配模型;其次为实现对大规模空空导弹制导权移交问题的快速寻优求解,提出了一种分布式的粒子群拍卖混合算法,该算法对粒子群算法进行了改进,并融合了拍卖算法的优点,可在较短的时间内获得较为合理的制导权移交方案,具有较好的动态性、全局寻优性能以及易于计算机编程实现等优点。最后,通过仿真实验证明了本方法的合理性和有效性。 相似文献
70.
针对运载火箭上升段在复杂飞行环境、大不确定性干扰和振动等因素的影响下,传统PID控制方法难以满足高品质控制需求的问题,进行了自适应增广控制(AAC)方法研究,以实现对运载火箭姿态的精确控制。在深入分析自适应增广控制系统整体构架的基础上,通过标称PID控制器设计与基于粒子群优化(PSO)的数字滤波器设计实现了刚体控制及对弹性振动的抑制;继而针对大范围干扰、不确定性和由于滤波器切换产生的弹性振动影响,设计了在线调整算法自适应调节PID控制增益,并对其工作机理与参数设计原则进行研究;然后设计干扰补偿回路和主动减载回路以减小内外扰动、弹性振动和风载荷影响;最后在弹性振动、风干扰和参数不确定性等因素同时作用的状态下进行仿真分析,验证了自适应增广控制系统能够有效应对运载火箭主动段复杂飞行环境的影响,大幅度提升综合控制性能,具有理论研究意义与工程应用价值。 相似文献