Application Of Regime Switching And Random Matrix Theory For Portfolio Optimization
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Random Matrix Theory with Applications in Statistics and Finance
| Author | : Nadia Abdel Samie Basyouni Kotb Saad |
| Publisher | : |
| Total Pages | : |
| Release | : 2001 |
| Genre | : University of Ottawa theses |
| ISBN | : |
This thesis investigates a technique to estimate the risk of the mean-variance (MV) portfolio optimization problem. We call this technique the Scaling technique. It provides a better estimator of the risk of the MV optimal portfolio. We obtain this result for a general estimator of the covariance matrix of the returns which includes the correlated sampling case as well as the independent sampling case and the exponentially weighted moving average case. This gave rise to the paper, [CMcS]. Our result concerning the Scaling technique relies on the moments of the inverse of compound Wishart matrices. This is an open problem in the theory of random matrices. We actually tackle a much more general setup, where we consider any random matrix provided that its distribution has an appropriate invariance property (orthogonal or unitary) under an appropriate action (by conjugation, or by a left-right action). Our approach is based on Weingarten calculus. As an interesting byproduct of our study - and as a preliminary to the solution of our problem of computing the moments of the inverse of a compound Wishart random matrix, we obtain explicit moment formulas for the pseudo-inverse of Ginibre random matrices. These results are also given in the paper, [CMS]. Using the moments of the inverse of compound Wishart matrices, we obtain asymptotically unbiased estimators of the risk and the weights of the MV portfolio. Finally, we have some numerical results which are part of our future work.
Advanced Composite Materials
| Author | : Wen Zhe Chen |
| Publisher | : Trans Tech Publications Ltd |
| Total Pages | : 2790 |
| Release | : 2012-02-27 |
| Genre | : Technology & Engineering |
| ISBN | : 3038138061 |
This extensive collection of papers constitutes an invaluable source of information covering the current state of the art with regard to manufacturing science and engineering, and focussing on Advanced Composite Materials. These 534 peer-reviewed papers are grouped into 12 chapters: CAD/CAM; Ceramic-Matrix Composites; Coatings, Damage Mechanics; Design of Materials and Components, Environmental Effects; Metal-Matrix Composites; Modelling; Non-Destructive Evaluation; Polymer-Matrix Composites; Processing and Manufacturing, Properties and Performance; Prototyping Reinforcement Materials, Repair, Testing; Thermoplastic Composites; Nanotechnology.
Seminar on Stochastic Analysis, Random Fields and Applications VII
| Author | : Robert C. Dalang |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 470 |
| Release | : 2013-09-05 |
| Genre | : Mathematics |
| ISBN | : 3034805454 |
This volume contains refereed research or review articles presented at the 7th Seminar on Stochastic Analysis, Random Fields and Applications which took place at the Centro Stefano Franscini (Monte Verità) in Ascona , Switzerland, in May 2011. The seminar focused mainly on: - stochastic (partial) differential equations, especially with jump processes, construction of solutions and approximations - Malliavin calculus and Stein methods, and other techniques in stochastic analysis, especially chaos representations and convergence, and applications to models of interacting particle systems - stochastic methods in financial models, especially models for power markets or for risk analysis, empirical estimation and approximation, stochastic control and optimal pricing. The book will be a valuable resource for researchers in stochastic analysis and for professionals interested in stochastic methods in finance.
Asset Allocation Using Regime Switching Methods
| Author | : Sarthak Garg |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2016 |
| Genre | : |
| ISBN | : |
The aim of this thesis is to develop a Markov Regime Switching framework that can be used in asset allocation in conjunction with Modern Portfolio Theory. Modern Portfolio Theory has long been a popular tool among big financial institutions. However, one of its major limitations is assumption of stationary market volatility. In this paper, we develop a single period Mean Variance Optimization model that minimizes the variance of a portfolio subject to a specified expected return by combining Modern Portfolio Theory with a Markov Regime Switching framework. Then, we extend the above developed framework to be used in conjunction with a robust optimization framework as proposed by Goldfarb Iyengar in which regards we were partially successful. The portfolios constructed by the Markov Regime-Switching framework were tested out of sample to outperform those suggested by a Simple MVO One Factor model and the Robust MVO One Factor Model.
Multi-Period Trading Via Convex Optimization
| Author | : Stephen Boyd |
| Publisher | : |
| Total Pages | : 92 |
| Release | : 2017-07-28 |
| Genre | : Mathematics |
| ISBN | : 9781680833287 |
This monograph collects in one place the basic definitions, a careful description of the model, and discussion of how convex optimization can be used in multi-period trading, all in a common notation and framework.
A Regime-Switching Factor Model for Mean-Variance Optimization
| Author | : Giorgio Costa |
| Publisher | : |
| Total Pages | : 33 |
| Release | : 2020 |
| Genre | : |
| ISBN | : |
We formulate a novel Markov regime-switching factor model to describe the cyclical nature of asset returns in modern financial markets. Maintaining a factor model structure allows us to easily derive the asset expected returns and their corresponding covariance matrix. By design, these two parameters are calibrated to better describe the properties of the different market regimes. In turn, these regime-dependent parameters serve as the inputs during mean-variance optimization, thereby constructing portfolios adapted to the current market environment. Through this formulation, the proposed model allows for the construction of large, realistic portfolios at no additional computational cost during optimization. Moreover, the viability of this model can be significantly improved by periodically re-balancing the portfolio, ensuring proper alignment between the estimated parameters and the transient market regimes. An out-of-sample computational experiment over a long investment horizon shows that the proposed regime-dependent portfolios are better aligned with the market environment, yielding a higher ex post rate of return and lower volatility than competing portfolios.
