The Physics of Wall Street: a brief History of Predicting the Unpredictable
particularly important because the problems with these criticisms re-
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particularly important because the problems with these criticisms re- veal why we should reconsider Weinstein’s proposal. one of the most prominent arguments against mathematical mod- eling in finance might be thought of as an argument from psychology and human behavior. the idea is that ideas from physics are doomed to fail in finance because they treat markets as though they’re com- posed of things like quarks or pulleys. Physics is fine for billiard balls and inclined planes, even for space travel and nuclear reactors, but as newton said, it cannot predict the madness of men. this kind of criti- cism draws heavily on ideas from a field known as behavioral econom- ics, which attempts to understand economics by drawing on psychol- ogy and sociology. from this point of view, markets are all about the foibles of human beings — they cannot be reduced to the formulas of physics and mathematics. there is nothing wrong with behavioral economics — it is clear that a deeper understanding of how individuals interact with one an- other and with markets is essential to understanding how an economy works. But a criticism of mathematical modeling based on behavioral economics trades on a misunderstanding. Using physics as a springboard for new ideas in finance does not involve describing people as though they were quarks or pendulums. think about how the ideas discussed in this book have made the move from physics into financial modeling. Some physicists, like Mandel- brot and osborne, made progress in understanding markets by sim- ply drawing on their familiarity with statistics to identify new ways of thinking about markets and risk. others, like farmer and Packard, used their expertise at extracting information from a noisy source to identify local patterns that could be useful for trading. Still others, like Black, derman, and Sornette, combined their observations about the details of markets in action with theoretical expertise learned in phys- ics to come up with mathematical expressions that describe how read- ily observed features of markets (like stock prices and fluctuations) 214 • t h e p h y s i c s o f wa l l s t r e e t relate to more opaque features (like options prices and oncoming crashes). none of these examples involves assuming that investors are a bunch of quarks or that firms behave like exploding stars. there’s a deeper issue here, however. A careful study of human be- havior is hardly inconsistent with using mathematical models to study markets and the economy more broadly. Indeed, psychology, in the form of the Weber-fechner law, played an important part at the very beginning of mathematical modeling of stock prices: osborne used it to explain why stock prices exhibited a log-normal distribution and not a normal distribution. More recently, Sornette has shown how ac- counting for herding effects — another important aspect of human psychology, and a mainstay of the behavioral economics community — can be useful in predicting financial calamity using mathematical techniques. In both of these cases, an understanding of psychology has played a crucial role in developing and refining mathematical models. In general, one should expect studies of psychology and human behav- ior to be symbiotic with mathematical approaches to economics. A second kind of criticism — one that has already come up in the book — has found its biggest champion in nassim taleb. taleb has written an influential book, The Black Swan, which argues that mar- kets are far too wild to be tamed by physicists. A black swan, you’ll recall, is an event that is so unprecedented it is simply impossible to predict. Black swans, taleb argues, are what really matter — and yet they are precisely what our best mathematical models are unable to anticipate. this is a particular problem for financial modeling, taleb says. He argues in his book and in many articles that physics lives in a world he calls “Mediocristan,” whereas finance lives in “extremistan.” the difference is that randomness in Mediocristan is well behaved and can be described by normal distributions. In extremistan, normal dis- tributions are simply misleading. for this reason, he argues, applying ideas from physics to finance is a fool’s errand. on one level, what taleb says is certainly true — and absolutely es- sential to recognize, especially for people who rely on mathematical models to make real-world decisions. We will never be able to predict everything that can happen. for this reason, a measure of caution and a good helping of common sense are always going to be important Epilogue: Send Physics, Math, and Money! • 215 when we try to use models successfully. But recognizing that we will never be able to predict everything, and that we shouldn’t assume our models reveal some deep truth about what can and cannot occur, is Download 3.76 Kb. Do'stlaringiz bilan baham: 
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