Optimal Portfolio Management when There are Taxes and Transaction Costs [microform]
Author | : Cristin Buescu |
Publisher | : Library and Archives Canada = Bibliothèque et Archives Canada |
Total Pages | : 310 |
Release | : 2004 |
Genre | : Bonds |
ISBN | : |
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Author | : Cristin Buescu |
Publisher | : Library and Archives Canada = Bibliothèque et Archives Canada |
Total Pages | : 310 |
Release | : 2004 |
Genre | : Bonds |
ISBN | : |
Author | : Hayne E. Leland |
Publisher | : |
Total Pages | : 47 |
Release | : 1999 |
Genre | : Portfolio management |
ISBN | : |
Author | : |
Publisher | : |
Total Pages | : |
Release | : 2014 |
Genre | : |
ISBN | : |
Across various sets of parameters, duality gaps between lower and upper bounds are smaller than 3% in most examples. We are able to solve the problem up to the size of 20 risky assets and a 30-year-long horizon.
Author | : Zheng Zhang |
Publisher | : |
Total Pages | : |
Release | : 2012 |
Genre | : Portfolio management |
ISBN | : |
Author | : Jeremy Dale Myers |
Publisher | : |
Total Pages | : 88 |
Release | : 2009 |
Genre | : |
ISBN | : |
In the financial world, many quantitative investment managers have developed sophisticated statistical techniques to generate signals about expected returns from previous market data. However, the manner in which they apply this information to rebalancing their portfolios is often ad-hoc, trading off between rebalancing their assets into an allocation that generates the greatest expected return based on the generated signals and the incurred transaction costs that the reallocation will require. In this thesis, we develop an approximation to our investor's true value function which incorporates both return predictability and transaction costs. By optimizing our approximate value function at each time step, we will generate a portfolio strategy that closely emulates the optimal portfolio strategy, which is based on the true value function. In order to determine the optimal set of parameters for our approximate function which will generate the best overall portfolio performance, we develop a simulation-based method. Our computational implementation is verified against well-known base cases. We determine the optimal parameters for our approximate function in the single stock and bond case. In addition, we determine a confidence level on our simulation results. Our approximate function gives us useful insight into the optimal portfolio allocation in complex higher dimensional cases. Our function derivation and simulation methodology extend easily to portfolio allocation in higher dimensional cases, and we implement the modifications required to run these simulations. Simple cases are tested and more complex tests are specified for testing when appropriate dedicated computing resources are available.