根据量纲分析原理,提出了关于有耗雷达目标表面阻抗的相似准则关系式。
Drawing on the experience of the principle of similitude in hydrodynamics, the formula of similitude-criterion concerning the surface impedance of target is proposed in this paper.
认清并化解阻抗与移情是精神分析的两大目标。
Identifying and working through resistance and transference are the two critical goals of psychoanalysis.
本文研究阻抗加载对雷达目标微波成像的影响。
The effects of impedance loading on microwave imaging of radar target are investigated.
通过在目标函数中增加先验知识约束,我们可以解决波阻抗反演的病态问题及带限问题。
By introducing the prior information constraint in the objective function, we can solve the ill-posed problem and band-limited problem for the impedance inversion.
结果三弹性腔九元件集中参数模型模拟出的输入阻抗模和幅角与目标输入阻抗模和幅角能较好的吻合。
G. Fung et al. Results the modulus and phase simulated by the nine-element lumped parameter model could fit the goal input impedance well.
导出了水中透声目标表面边界条件的时域有限差分(FDTD)表达形式,将FDTD在水声学中的应用范围扩大到无切应力的有限声阻抗目标的散射问题。
The proposed finite difference boundary condition expands the scope of application of FDTD to scattering problems of objects with a finite acoustic impedance but without tangential stress.
但是在处理高频问题和具有精密结构的缝隙时,对目标剖分过密会导致稠密的阻抗矩阵,未知量增加,影响计算的效率。
But for high frequency problem and complex structure, too dense grid of object will lead to dense impedance matrix and many unknown variables, so the computational efficiency will be very low.
因为我们不再对那些小目标鸣笛催促,也无任何实现它们的阻抗,它们只是简单的发生了就好像它们自己找来的。
Because we are hootless about these micro-goals and have no resistance to achieving them, they simply "happen" as if on their own.
虚拟支路的导纳参数可由目标分流系数、戴维南等效阻抗及原潮流越限支路导纳获得。
Admittance parameters of the virtual branch can be obtained by object shunting coefficient, Thevenin's equivalent resistance and the admittance of the primary branch of power flow off-limit.
建立了CMAC网络补偿器对视觉阻抗控制输出量进行了优化,最后进行了运动目标捕捉控制仿真实验。
With CMAC network compensator, the output of vision impedance control is optimized. Finally, the simulation of control experiment of grasping moving object is carried out.
建立了CMAC网络补偿器对视觉阻抗控制输出量进行了优化,最后进行了运动目标捕捉控制仿真实验。
With CMAC network compensator, the output of vision impedance control is optimized. Finally, the simulation of control experiment of grasping moving object is carried out.
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