Computation of financial risk using principal component analysis

IF 0.3 Q4 BUSINESS, FINANCE

Algorithmic Finance Pub Date : 2022-09-30 DOI:10.3233/af-220339

Mavungu Masiala

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引用次数: 0

Abstract

This article uses Principal Component Analysis to compute and extract the main factors for the financial risk of a portfolio, to determine the most dominating stock for each risk factor and for each portfolio and finally to compute the total risk of the portfolio. Firstly, each dataset is standardized and yields a new datasets. For each obtained dataset a covariance matrix is constructed from which the eigenvalues and eigenvectors are computed. The eigenvectors are linearly independent one to another and span a real vector space where the dimension is equal to the number of the original variables. They are also orthogonal and yield the principal risk components (pcs) also called principal risk axis, principal risk directions or main risk factors for the risk of the portfolios. They capture the maximum variance (risk) of the original dataset. Their number may even be reduced with minimum (negligible) loss of information and they constitute the new system of coordinates. Every principal component is a linear combination of the original variables (stock rate of returns). For each dataset, each financial transaction can be written as a linear combination of the eigenvectors. Since they are mutually orthogonal and linearly independent and that they capture the maximum variance of the original data, the risk of the portfolio is calculated by using the principal components, then they have been used to calculate the total risk of the portfolio which is a weighted sum of the variance explained by the principal components.

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用主成分分析法计算财务风险

本文使用主成分分析来计算和提取投资组合财务风险的主要因素，确定每个风险因素和每个投资组合的最主要股票，最后计算投资组合的总风险。首先，对每个数据集进行标准化，并生成一个新的数据集。对于每个获得的数据集，构造协方差矩阵，从中计算特征值和特征向量。特征向量彼此线性独立，并且跨越真实向量空间，其中维度等于原始变量的数量。它们也是正交的，并产生主要风险成分（pcs），也称为主要风险轴、主要风险方向或投资组合风险的主要风险因素。它们捕获原始数据集的最大方差（风险）。它们的数量甚至可以在信息损失最小（可忽略不计）的情况下减少，它们构成了新的坐标系。每个主要成分都是原始变量（股票回报率）的线性组合。对于每个数据集，每个金融交易都可以写成特征向量的线性组合。由于它们是相互正交和线性独立的，并且它们捕获了原始数据的最大方差，因此通过使用主成分来计算投资组合的风险，然后它们被用于计算投资组合总风险，该总风险是由主成分解释的方差的加权和。

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

Algorithmic Finance BUSINESS, FINANCE-

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： Algorithmic Finance is both a nascent field of study and a new high-quality academic research journal that seeks to bridge computer science and finance. It covers such applications as: High frequency and algorithmic trading Statistical arbitrage strategies Momentum and other algorithmic portfolio management Machine learning and computational financial intelligence Agent-based finance Complexity and market efficiency Algorithmic analysis of derivatives valuation Behavioral finance and investor heuristics and algorithms Applications of quantum computation to finance News analytics and automated textual analysis.