Eliminating "systematic survivorship bias" in the attitude of specialists to the significance of investment attractive features of examined objects

Q3 Mathematics

Eastern-European Journal of Enterprise Technologies Pub Date : 2023-12-28 DOI:10.15587/1729-4061.2023.292875

O. Reva, V. Kamyshyn, S. Borsuk, Stanislav Yarotskyiі, Bogdan Avramchuk

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引用次数: 0

Abstract

Methods for detecting and eliminating false measurements are well known in the theory of metrology. However, the relevant methodology is not adapted to the needs of the qualitative assessment of the impact of the human factor on expert decision-making. The "systematic survivorship bias" refers to the following: when involving experts in conducting examinations, they usually focus on that part of them, where statistically probable agreed opinions are observed based on the results of these examinations. Other experts are considered "marginal", their opinions are discarded and not taken into account, which defines the "systematic survivorship bias", also called the "paradox of information availability". Although the specified "marginality" may be a consequence of the unique experience of conducting examinations or, for example, the use of modern technologies by a specific specialist, little known to the general public. It should be noted that manipulation of statistical data with an orientation only on "successful" cases could be really dangerous, for example, in studies of the human factor in complex ergastic active and organizational management systems, in particular aviation. The rationale and implementation of the algorithm for detecting and eliminating the "systematic survivorship bias" have been given in this paper. m=90 specialists who are usually involved in various examinations by UkrINTEI took part in the research. The actual elimination of the "systematic survivorship bias" occurs after the implementation of a certain number of iterations of the algorithm given in the current work. As a result of iterations of the above-mentioned algorithm, it was established that four subgroups can be distinguished from the initial sample with the number of m=90, with the following numbers: mC=30 people, mH=12 people, mM=11 people, mT=6 people. For the specified subgroups, the consistency of group opinions satisfies the entire spectrum of hypothesis testing criteria established in this paper

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消除专家对被审查对象的投资吸引力特征的重要性所持态度中的 "系统性幸存者偏差"； - 消除专家对被审查对象的投资吸引力特征的重要性所持态度中的 "系统性幸存者偏差"。

检测和消除错误测量的方法在计量理论中是众所周知的。然而，相关方法并不适合对人为因素对专家决策的影响进行定性评估的需要。系统性幸存者偏差 "指的是以下情况：在让专家参与进行检查时，他们通常会将重点放在根据这些检查结果观察到的统计上可能达成一致意见的那部分专家身上。其他专家则被视为 "边缘人"，他们的意见会被抛弃，不予考虑，这就是 "系统生存偏差"，也被称为 "信息可用性悖论"。尽管特定的 "边缘性 "可能是进行检查的独特经验或特定专家使用现代技术的结果，但公众对此知之甚少。应当指出的是，仅以 "成功 "案例为导向的统计数据操作可能会带来真正的危险，例如，在对复杂的工效活动和组织管理系统（特别是航空）中的人为因素进行研究时。本文介绍了检测和消除 "系统幸存者偏差 "算法的原理和实施方法。实际消除 "系统幸存者偏差 "是在本研究中给出的算法迭代一定次数后进行的。根据上述算法迭代的结果，可以从 m=90 的初始样本中区分出四个分组，分组人数如下：mC=30 人，mH=12 人，mM=11 人，mT=6 人。对于指定的子群，群体意见的一致性满足本文所建立的假设检验标准的全部范围

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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来源期刊

Eastern-European Journal of Enterprise Technologies Mathematics-Applied Mathematics

CiteScore

2.00

自引率

0.00%

发文量

369

审稿时长

6 weeks

期刊介绍： Terminology used in the title of the "East European Journal of Enterprise Technologies" - "enterprise technologies" should be read as "industrial technologies". "Eastern-European Journal of Enterprise Technologies" publishes all those best ideas from the science, which can be introduced in the industry. Since, obtaining the high-quality, competitive industrial products is based on introducing high technologies from various independent spheres of scientific researches, but united by a common end result - a finished high-technology product. Among these scientific spheres, there are engineering, power engineering and energy saving, technologies of inorganic and organic substances and materials science, information technologies and control systems. Publishing scientific papers in these directions are the main development "vectors" of the "Eastern-European Journal of Enterprise Technologies". Since, these are those directions of scientific researches, the results of which can be directly used in modern industrial production: space and aircraft industry, instrument-making industry, mechanical engineering, power engineering, chemical industry and metallurgy.