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引用次数: 0
摘要
我们提出了一种简单的随机表示法,用于描述最小方差边界的三个标量参数和两个投资组合权重向量的样本估计值的联合分布。这种随机表示法有助于高效地对观测数据进行采样,以闭合形式推导矩,以及研究作为这五个变量函数的许多投资组合策略的分布和表现。我们还提出了这五个变量在标准机制和高维机制下的渐近联合分布。这两种渐近分布都比有限样本分布简单,而高维制度下的渐近分布,即资产数量和样本量以恒定速度同时达到无穷大时的渐近分布,揭示了所考虑的估计器的高维特性。我们的研究结果是在 T. Bodnar、H. Dette、N. Parolya 和 E. Thorstén [《低维度和大维度中最优投资组合权重和特征的采样分布》,Random Matrices:11 (2022) 2250008]。
The distribution of sample mean-variance portfolio weights
We present a simple stochastic representation for the joint distribution of sample estimates of three scalar parameters and two vectors of portfolio weights that characterize the minimum-variance frontier. This stochastic representation is useful for sampling observations efficiently, deriving moments in closed-form, and studying the distribution and performance of many portfolio strategies that are functions of these five variables. We also present the asymptotic joint distributions of these five variables for both the standard regime and the high-dimensional regime. Both asymptotic distributions are simpler than the finite-sample one, and the one for the high-dimensional regime, i.e. when the number of assets and the sample size go together to infinity at a constant rate, reveals the high-dimensional properties of the considered estimators. Our results extend upon T. Bodnar, H. Dette, N. Parolya and E. Thorstén [Sampling distributions of optimal portfolio weights and characteristics in low and large dimensions, Random Matrices: Theory Appl.11 (2022) 2250008].
期刊介绍:
Random Matrix Theory (RMT) has a long and rich history and has, especially in recent years, shown to have important applications in many diverse areas of mathematics, science, and engineering. The scope of RMT and its applications include the areas of classical analysis, probability theory, statistical analysis of big data, as well as connections to graph theory, number theory, representation theory, and many areas of mathematical physics.
Applications of Random Matrix Theory continue to present themselves and new applications are welcome in this journal. Some examples are orthogonal polynomial theory, free probability, integrable systems, growth models, wireless communications, signal processing, numerical computing, complex networks, economics, statistical mechanics, and quantum theory.
Special issues devoted to single topic of current interest will also be considered and published in this journal.
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