阻碍:在你的实验后院割草

IF 2.1 4区材料科学 Q3 MATERIALS SCIENCE, COATINGS & FILMS

Journal of Plastic Film & Sheeting Pub Date : 2022-06-16 DOI:10.1177/87560879221109861

Shari Kraber

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引用次数: 0

摘要

运行实验的一个挑战是控制过程、采样和测量的变化。阻塞是一种统计工具，用于消除来自非实验部分的非受控变量的变化。当噪声降低时，主要因素的影响更容易估计，这使得系统的建模更精确。例如，一个实验可能包含太多的运行，无法在一天内完成。然而，该过程可能从一天到下一天都不相同，导致未知数量的变化被添加到实验数据中。通过屏蔽日期，在计算因子效应之前，从数据中删除了每天的变化。其他典型的阻塞变量是原料批次(批)、多台“相同”的机器或测试设备、进行测试的人员等。在每种情况下，阻塞变量都只是运行实验所需的资源—而不是感兴趣的因素。阻塞是统计上将跑步分成更小组的过程。研究人员可能会假设随机分组是理想的，我们都知道随机顺序是最好的!然而，当目标是统计评估各组之间的差异，然后计算干净因素影响时，这是不正确的。DesignExpert®软件使用统计属性(如正交性和混叠)将运行分成组。例如，将使用与创建分数阶乘相同的最佳技术将两级阶乘设计分割成块。通过使用高阶交互的编码模式将设计分解为多个部分。如果有5个因素，则可以使用ABCDE术语。所有具有“-”级别ABCDE的运行都放在第一个块中，而具有“+”级别ABCDE的运行则放在第二个块中。同样，响应面设计也被统计阻塞，以便尽可能清晰地估计因子效应。块不是“免费的”。每个额外的块使用一个自由度(df)。如果设计中没有重复，例如标准的析因设计，则可以牺牲一个模型项来逐个块地过滤掉变化。通常这些都是高阶交互，使“成本”最小化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Blocking: Mowing the grass in your experimental backyard

One challenge of running experiments is controlling the variation from process, sampling and measurement. Blocking is a statistical tool used to remove the variation coming from uncontrolled variables that are not part of the experiment. When the noise is reduced, the primary factor effects are estimated more easily, which allows the system to be modeled more precisely. For example, an experiment may contain too many runs to be completed in just 1 day. However, the process may not operate identically from 1 day to the next, causing an unknown amount of variation to be added to the experimental data. By blocking on the days, the day-to-day variation is removed from the data before the factor effects are calculated. Other typical blocking variables are raw material batches (lots), multiple “identical” machines or test equipment, people doing the testing, etc. In each case the blocking variable is simply a resource required to run the experiment-not a factor of interest. Blocking is the process of statistically splitting the runs into smaller groups. The researcher might assume that arranging runs into groups randomly is ideal we all learn that random order is best! However, this is not true when the goal is to statistically assess the variation between groups of runs, and then calculate clean factor effects. DesignExpert® software splits the runs into groups using statistical properties such as orthogonality and aliasing. For example, a two-level factorial design will be split into blocks using the same optimal technique used for creating fractional factorials. The design is broken into parts by using the coded pattern of the high-order interactions. If there are 5 factors, the ABCDE term can be used. All the runs with “-” levels of ABCDE are put in the first block, and the runs with “+” levels of ABCDE are put in the second block. Similarly, response surface designs are also blocked statistically so that the factor effects can be estimated as cleanly as possible. Blocks are not “free”. One degree of freedom (df) is used for each additional block. If there are no replicates in the design, such as a standard factorial design, then a model term may be sacrificed to filter out block-by-block variation. Usually these are high-order interactions, making the “cost” minimal.

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来源期刊

Journal of Plastic Film & Sheeting 工程技术-材料科学：膜

CiteScore

6.00

自引率

16.10%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Plastic Film and Sheeting improves communication concerning plastic film and sheeting with major emphasis on the propogation of knowledge which will serve to advance the science and technology of these products and thus better serve industry and the ultimate consumer. The journal reports on the wide variety of advances that are rapidly taking place in the technology of plastic film and sheeting. This journal is a member of the Committee on Publication Ethics (COPE).