Optimal Portfolio Modeling (eBook, PDF)
Models to Maximize Returns and Control Risk in Excel and R
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Optimal Portfolio Modeling (eBook, PDF)
Models to Maximize Returns and Control Risk in Excel and R
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Optimal Portfolio Modeling is an easily accessible introduction to portfolio modeling for those who prefer an intuitive approach to this discipline. While early chapters provide engaging insights on the statistical properties of markets, this book quickly moves on to illustrate invaluable trading and risk control models based on popular programs such as Excel and the statistical modeling language R. This reliable resource presents modeling formulas that will allow you to effectively maximize the performance, minimize the drawdown, and manage the risk of your portfolio.
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- Größe: 17.73MB
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- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 312
- Erscheinungstermin: 19. Februar 2008
- Englisch
- ISBN-13: 9780470260852
- Artikelnr.: 37291446
- Verlag: John Wiley & Sons
- Seitenzahl: 312
- Erscheinungstermin: 19. Februar 2008
- Englisch
- ISBN-13: 9780470260852
- Artikelnr.: 37291446
Market Microstructure Randomness in Markets. The Random Walk Model. What
You Cannot Predict Is Random To You. Market Microstructure. Efficient
Market Hypothesis. Arbitrage Pricing Theory. Chapter 2. The Distribution of
Price Changes. The Normal Distribution. The Empirical Distribution. The
Lognormal as an Approximation. Chapter 3. Investment Objectives.
Statistician's Fair Game. A Fair Game Is A Loser! Criteria for a Favorable
Game. Gambler's Ruin. Optimal Return Models. Markets Are Rational,
Psychologists Are Not. The St. Petersburg Paradox. Compounded Return is the
Real Objective. Defining Risk. Minimum Risk Models. Correlation of Assets.
Summary of Correlation Relationships. Beta and Alpha. The Efficient
Frontier and the Market Portfolio. The Sharpe Ratio. Limitations of Modern
Portfolio Theory. Chapter 4. Modeling Risk Management and Stop Loss Myths.
Stop Loss Orders. Stops: Effect on the Mean Return. Stops: Effect on the
Probability of Gain. Stops: Probability of being stopped out. Stops: Effect
on Variance and Standard Deviation. Effect on Skew. Effect on the Kurtosis.
Stop Loss: Summary. Modeling Stops. Identifying When to Use Stops and When
Not To. Stop Profits. Puts and Calls. Chapter 5. Maximal Compounded Return
Model. Optimal Compound Return Models. Relative Returns. Average Stock
Returns, but Compound Portfolio Returns. Logarithms and the Optimal
Exponential Growth Model. Position Sizing as the Only Guaranteed Risk
Control. Controlling Risk through Optimal Position Sizing. Maximize
Compounded Portfolio Return. Maximal Compounded Return Models. What the
Model Is and Is Not. Modeling the Empirical Distribution. Correlations. The
Enhanced Maximum Investment Formulas. Expected Drawdowns May be Large.
Chapter 6. Utility Models - Preferences Toward Risk and Return. Basis for a
Utility Model. History of Logarithms. Optimal Compounded Utility Model. The
Sharpe Ratio. Optimal Model for the Sharpe Ratio. Optimization with Excel
Solver. Chapter 7. Money Management Formulas Using the Joint Multi-Asset
Distribution. The Continuous Theoretical Distributions. Maximal Log Log
Model in the presence of Correlation. Optimal Sharpe Model with
Correlation. The Empirical Distribution. Maximal Log Log Model in the
Presence of Correlation. Maximizing the Sharpe Ratio in the Presence of
Correlation. Chapter 8. Proper Backtesting for Portfolio Models. Assuring
Good Data. Synchronize Data. Use Net Changes NOT Levels. Only Use
Information from the Past. Predictive Studies vs. Non-Predictive Studies.
Use Intraday Highs and Lows for Model Accuracy. Adjusted Data May Be
Erroneous. Adjusting Your Own Data. Miscellaneous Data Pitfalls. Tabulate
and Save the Detailed Results with Dates. Overlapping Dates are Important
for Correlations. Calculate Mean, Standard Deviation, Variance and
Probability of Win. Robust Methods to Find Statistics. Confidence Limits
for Robust Statistics. Chapter 9. The Combined Optimal Portfolio Model.
Choosing the Theoretical Distribution. The Empirical Distribution.
Selecting Sharpe Versus a Log Log Objective Function. Model Simulation.
Professional Money Manager versus Private Investor. About the CD-Rom.
Contents of the CD-Rom. Installation of the CD-Rom. Using the Programs.
Updates to the CD-Rom. Appendix A. Table of Values of the Normal
Distribution. Appendix B. Installing R. Appendix C. Introduction to R.
Introduction to R Manual. Appendix D. R Language Definition. R Language
Definition Manual. Index.
Market Microstructure Randomness in Markets. The Random Walk Model. What
You Cannot Predict Is Random To You. Market Microstructure. Efficient
Market Hypothesis. Arbitrage Pricing Theory. Chapter 2. The Distribution of
Price Changes. The Normal Distribution. The Empirical Distribution. The
Lognormal as an Approximation. Chapter 3. Investment Objectives.
Statistician's Fair Game. A Fair Game Is A Loser! Criteria for a Favorable
Game. Gambler's Ruin. Optimal Return Models. Markets Are Rational,
Psychologists Are Not. The St. Petersburg Paradox. Compounded Return is the
Real Objective. Defining Risk. Minimum Risk Models. Correlation of Assets.
Summary of Correlation Relationships. Beta and Alpha. The Efficient
Frontier and the Market Portfolio. The Sharpe Ratio. Limitations of Modern
Portfolio Theory. Chapter 4. Modeling Risk Management and Stop Loss Myths.
Stop Loss Orders. Stops: Effect on the Mean Return. Stops: Effect on the
Probability of Gain. Stops: Probability of being stopped out. Stops: Effect
on Variance and Standard Deviation. Effect on Skew. Effect on the Kurtosis.
Stop Loss: Summary. Modeling Stops. Identifying When to Use Stops and When
Not To. Stop Profits. Puts and Calls. Chapter 5. Maximal Compounded Return
Model. Optimal Compound Return Models. Relative Returns. Average Stock
Returns, but Compound Portfolio Returns. Logarithms and the Optimal
Exponential Growth Model. Position Sizing as the Only Guaranteed Risk
Control. Controlling Risk through Optimal Position Sizing. Maximize
Compounded Portfolio Return. Maximal Compounded Return Models. What the
Model Is and Is Not. Modeling the Empirical Distribution. Correlations. The
Enhanced Maximum Investment Formulas. Expected Drawdowns May be Large.
Chapter 6. Utility Models - Preferences Toward Risk and Return. Basis for a
Utility Model. History of Logarithms. Optimal Compounded Utility Model. The
Sharpe Ratio. Optimal Model for the Sharpe Ratio. Optimization with Excel
Solver. Chapter 7. Money Management Formulas Using the Joint Multi-Asset
Distribution. The Continuous Theoretical Distributions. Maximal Log Log
Model in the presence of Correlation. Optimal Sharpe Model with
Correlation. The Empirical Distribution. Maximal Log Log Model in the
Presence of Correlation. Maximizing the Sharpe Ratio in the Presence of
Correlation. Chapter 8. Proper Backtesting for Portfolio Models. Assuring
Good Data. Synchronize Data. Use Net Changes NOT Levels. Only Use
Information from the Past. Predictive Studies vs. Non-Predictive Studies.
Use Intraday Highs and Lows for Model Accuracy. Adjusted Data May Be
Erroneous. Adjusting Your Own Data. Miscellaneous Data Pitfalls. Tabulate
and Save the Detailed Results with Dates. Overlapping Dates are Important
for Correlations. Calculate Mean, Standard Deviation, Variance and
Probability of Win. Robust Methods to Find Statistics. Confidence Limits
for Robust Statistics. Chapter 9. The Combined Optimal Portfolio Model.
Choosing the Theoretical Distribution. The Empirical Distribution.
Selecting Sharpe Versus a Log Log Objective Function. Model Simulation.
Professional Money Manager versus Private Investor. About the CD-Rom.
Contents of the CD-Rom. Installation of the CD-Rom. Using the Programs.
Updates to the CD-Rom. Appendix A. Table of Values of the Normal
Distribution. Appendix B. Installing R. Appendix C. Introduction to R.
Introduction to R Manual. Appendix D. R Language Definition. R Language
Definition Manual. Index.