1) phase point distribution coefficient
相点空间分布系数
1.
Being different from the traditional time and frequency domain analysis,a feature extraction methodology was presented for phase portrait structure based on multidimensional coordinates space,in which a phase point distribution coefficient was defined to quantitatively describe the feature variance of different vibration modes with on-load tap changers(OLTC) operations.
为了给OLTC故障诊断提供更丰富的信息源,提出了一种基于多维坐标空间提取相轨图几何特征的方法,它区别于传统时、频域分析法,通过定义相点空间分布系数以定量描述开关操作时不同振动模式的特征变化,从混沌动力学角度为机械状态监测与故障诊断提供一项新的科学依据。
2) phase-space distribution function
相空间分布函数
1.
The results provide further new insights into the phase space technology of quantum statistics and thermo field dynamics, and have certain theoretical guidance meaning for studying other quantum phase-space distribution functions.
研究结果加深了人们对量子统计中相空间技术和热场动力学(TFD)理论的认识,且对于其它量子纯态与相应混合态相空间分布函数一致性的研究具有很好的理论指导意义。
3) space distribution weight coefficient
空间分布权系数
1.
In order to optimize the algorithm of selecting Kriging neighborhood points,this paper introduces a new algorithm based on space distribution weight coefficient.
方法通过建立估值点周围邻域点间空间分布权系数的函数,确定参与克立格估值计算的邻域点。
4) spatial node distribution
点空间分布
1.
Time stationary average speed and uniform spatial node distribution of SGM are proved by Markov process and renewal process theory.
在总结现有实体随机移动模型优、缺点的基础上,提出一种能够较好地反映现实节点运动规律的参数独立可控性比较强的平滑高斯-半马尔可夫实体随机移动模型(smooth Gauss-semi-Markov mobility model,简称SGM),并利用马尔可夫过程及更新过程理论证明了该模型具有平均速率时间平稳和点空间分布均匀的特性,适用于移动无线传感器网络的模拟仿真研究。
5) Phase-space distribution
相空间分布
1.
In order to explore self-consistently the fundamental properties of breathing round beams propagating in a uniform channel, the initial phase-space distribution of a beam injected into a linac is adopted to be a sufficiently realistic distribution such as Gaussian, waterbag and parabolic distribution Mult.
然后按照自治理论,进一步对相空间中的初始粒子分布分别满足水袋型、抛物线型以及高斯型等相空间分布情况下进行了模拟计算,并得到了一系列结果诸如束晕强度、发射度增长随失配因子及调谐衰减变化等。
6) transverse phase space density
相空间密度分布函数
补充资料:分布系数
分析化学中,一定型体的平衡浓度占分析浓度的比值。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。