Quantitative Portfolio Management. Michael Isichenko

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Quantitative Portfolio Management - Michael Isichenko


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Asked Questions in Quantitative Finance, Wiley, 2009.

      3 9 P.A. Samuelson, Proof That Properly Anticipated Prices Fluctuate Randomly, Industrial Management Review, 6, pp. 41–49, 1965.

      4 10 A.W. Lo, The Adaptive Markets Hypothesis: Market Efficiency from an Evolutionary Perspective, Journal of Portfolio Management, 30(5), pp. 15–29, 2004.

      Among other things, this book gives a fair amount of attention to the combination of multiple financial forecasts, an important question not well covered in the literature. Forecast combination is a more advanced version of the well-discussed theme of investment diversification. Just like it is difficult to make forecasts in efficient markets, it is also difficult, but not impossible, to optimally combine forecasts due to their correlation and what is known as the curse of dimensionality. To break the never ending cycle of quantitative trial and error, it is important to understand fundamental limitations on what can and what can't be done.

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      1 11 X. Gabaix, R.S.J. Koijen, In Search of the Origins of Financial Fluctuations: The Inelastic Markets Hypothesis, Swiss Finance Institute Research Paper No. 20-91, Available at SSRN: https://ssrn.com/abstract=3686935, 2021.

      2 12 J.-P. Bouchaud, J.D. Farmer, F. Lillo, How markets slowly digest changes in supply and demand, arXiv:0809.0822 [q-fin.TR], 2008.

      Computation is a primary tool in most parts of the quantitative trading process and in machine learning. Several aspects of computing, including coding style, efficiency, bugs, and environmental issues are discussed throughout the book. A few important machine learning concepts, such as bias-variance tradeoff (Secs. 2.3.5 and 2.4.12) and the curse of dimensionality (Sec. 2.4.10), are supported by small self-contained pieces of Python code generating meaningful plots. The reader is encouraged to experiment along these lines. It is often easier to do productive experimental mathematics than real math.

      Some of the material covering statistics, machine learning, and optimization necessarily involves a fair amount of math and relies on academic and applied research in various, often disjoint, fields. Our exposition does not attempt to be mathematically rigorous and mostly settles for a “physicist's level of rigor” while trying to build a qualitative understanding of what's going on. Accordingly, the book is designed to be reasonably accessible and informative to a less technical reader who can skip over the more scary math and focus on the plain English around it. For example, the fairly technical method of boosting in ML (Sec. 2.4.14) is explained as follows: The idea of boosting is twofold: learning on someone else's errors and voting by majority.

      A note about footnotes. Citing sources in footnotes seems more user-friendly than at the end of chapters. Footnotes are also used for various reflections or mini stories that could be either meaningful or entertaining but often tangential to the main material.

      Finally, in the spirit of the quant problem-solving sportsmanship, and for the reader's entertainment, a number of actual interview questions asked at various quant job interviews are inserted in different sections of the book and indexed at the end, along with the main index, quotes, and the stories.

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      1 13 R.C. Grinold, R.N. Kahn, Active Portfolio Management: A Quantitative Approach for Producing Superior Returns and Controlling Risk. McGraw-Hill, New York, 2000.

      2 14 R.K. Narang, Inside the Black Box: A Simple Guide to Quantitative and High Frequency Trading, 2nd Edition, Wiley, 2013.

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