Fast QSTS for distributed PV impact studies using vector quantization and variable time-steps

机译：使用向量量化和可变时间步长进行分布式光伏影响研究的快速QSTS

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As the penetration level of PV systems increases, utilities are in great need of methods to quickly and effectively analyze PV's impact on electric distribution systems. Compared to other conventional methods, quasi-static time-series (QSTS) based analysis has demonstrated its advantages of accurately capturing the impact of interest, e.g. control device operations, and min and max voltages. However, yearlong QSTS simulation with 1-second granularity is currently too computationally expensive for regular use. Therefore, vector quantization (VQ) and variable time-step (VTS) solution methods have been developed to accelerate QSTS simulation. This paper proposes the combination of VQ with VTS. We investigate the effectiveness of implementing VQ in combination with 2 VTS algorithms, predetermined time-step (PT) and VTS with backtrack downsampling (VTS-BD) to demonstrate a runtime reduction of 99.55% with error metrics below acceptable thresholds.

机译：随着光伏系统渗透率的提高，公用事业部门迫切需要快速有效地分析光伏对配电系统影响的方法。与其他传统方法相比，基于准静态时间序列（QSTS）的分析已证明其具有准确捕获感兴趣影响的优势，例如：控制设备的操作，以及最小和最大电压。但是，对于常规使用而言，具有1秒粒度的长达一年的QSTS仿真目前在计算上过于昂贵。因此，已经开发了矢量量化（VQ）和可变时步（VTS）解决方案方法来加速QSTS仿真。本文提出了VQ与VTS的结合。我们调查了结合2种VTS算法，预定时间步长（PT）和带回溯下采样（VTS-BD）的VTS来实施VQ的有效性，以证明运行时间减少了99.55％，并且误差指标低于可接受的阈值。

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《IEEE Power and Energy Society Innovative Smart Grid Technologies Conference》|2018年|1-5|共5页
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Qinmiao Li; Barry Mather; Jeremiah Deboever; Matthew J. Reno;
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Vector quantization; Switches; Runtime; Clustering algorithms; Load flow; Matlab;

机译：向量量化;开关;运行时间;聚类算法;潮流; Matlab;

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1. Fast Quasi-Static Time-Series (QSTS) for yearlong PV impact studies using vector quantization [J] . Deboever Jeremiah, Grijalva Santiago, Reno Matthew J., Solar Energy . 2018,第JANa期

机译：快速准静态时间序列（QSTS），用于使用矢量量化进行为期一年的PV影响研究
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机译：从可变长度标量量化器派生的结构化固定速率矢量量化器。二。向量来源
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机译：使用加权非平方变换矢量量化的变维语音频谱矢量编码
4. Fast QSTS for distributed PV impact studies using vector quantization and variable time-steps [C] . Qinmiao Li, Barry Mather, Jeremiah Deboever, IEEE Power Energy Society Innovative Smart Grid Technologies Conference . 2018

机译：使用矢量量化和可变时间步骤的分布式PV影响研究的快速QST
5. Design and analysis of a fixed-rate structured vector quantizer derived from variable-length scalar quantizers. [D] . Laroia, Rajiv. 1992

机译：从可变长度标量量化器派生的固定速率结构化矢量量化器的设计和分析。
6. Medical Image Compression Based on Vector Quantization with Variable Block Sizes in Wavelet Domain [O] . Huiyan Jiang, Zhiyuan Ma, Yang Hu, 2012

机译：基于矢量量化的小波域可变块医学图像压缩
7. Figure 3: (A) Constrained ordination (CAP; Resource and Fencing are the constraining factors) with vector overlays representing simple Spearman correlations between response variables and the two axes (Appendix S2). Separation of communities along Axis 1 is largely related to the impact of the Resource treatment on community structure. Thus, the extent to which a vector is parallel with Axis 1 reflects the extent of the negative (to the left) or positive (to the right) correlation of densities of that taxon with the addition of detritus. The length of each vector represents the joint correlation of the response variable with both axes of the ordination, with the circle representing a correlation of 1. Vectors shown have Spearman coefficients with CAP Axis 1 that are ≥.50 or ≤−.50. To prevent clutter on the graph, arrow heads of the vectors are not drawn. Key to abbreviations is in Fig. 1. (B) Constrained ordination (CAP) with vector overlays representing multiple correlation coefficients (analogous to univariate partial correlation coefficients). [O] . -1

机译：图3：（a）受约束的秩序（帽;资源和围栏是约束因子），其具有表示响应变量和两个轴之间的简单的Spearman相关性的载体覆盖（附录S2）。沿着轴1的群落分离在很大程度上与资源处理对群落结构的影响有关。因此，载体与轴1平行的程度反映了将该分类群的密度的负（向左）或正（右侧）相关的程度反映了碎屑。每个矢量的长度表示与序列的两个轴的响应变量的关节相关性，表示所示的圆圈的圆圈具有凸轴1的矛盾系数，≥50或≤-.50。为了防止图形上的杂乱，没有绘制向量的箭头头。缩写的键在图1中。（b）受约束的偏移（帽），其覆盖层表示多个相关系数（类似于单偏移部分相关系数）。

Fast QSTS for distributed PV impact studies using vector quantization and variable time-steps

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