We propose a random walk model of asset returns where the parameters depend on market stress. Stress is measured by, e.g., the value of an implied volatility index. We show that model parameters including standard deviations and correlations can be estimated robustly and that all distributions are approximately normal. Fat tails in observed distributions occur because time series sample different stress levels and therefore different normal distributions. This provides a quantitative description of the observed distribution including the fat tails. We discuss simple applications in risk management and portfolio construction. ar X i
There is substantial evidence that many time series associated with financial and insurance claim da...
Abstract. For fat tailed distributions (i.e. those that decay slower than an exponential), large dev...
Estimation of the tail index of stationary, fat-tailed return distributions is non-trivial since the...
We explore the effects of fat tails on the equilibrium implications of the long run risks model of a...
Using a Gibbs distribution developed in the theory of statistical physics and a long−range percolati...
It's commonly known that the correlation between stocks increases during market turbulent periods. I...
Abstract: We investigate the impact of ignoring fat tails observed in the empirical distributions of...
Large deviations for fat tailed distributions, i.e. those that decay slower than exponential, are no...
Financial returns are known to be nonnormal and tend to have fat-tailed distributions. This article ...
Abstract. Since the work of Mandelbrot in the 1960’s there has accumu-lated a great deal of empirica...
Despite the evidence that returns are fat-tailed and that expected returns vary through time, most M...
This paper provides evidence that tails in the distribution of macroeconomic forecasts are time-vary...
The likelihood of systemic risk presents a challenge for modern finance. In particular, it is import...
This title is written for the numerate nonspecialist, and hopes to serve three purposes. First it ga...
Using a simultaneous-move herding model of rational traders who infer other traders\u27private infor...
There is substantial evidence that many time series associated with financial and insurance claim da...
Abstract. For fat tailed distributions (i.e. those that decay slower than an exponential), large dev...
Estimation of the tail index of stationary, fat-tailed return distributions is non-trivial since the...
We explore the effects of fat tails on the equilibrium implications of the long run risks model of a...
Using a Gibbs distribution developed in the theory of statistical physics and a long−range percolati...
It's commonly known that the correlation between stocks increases during market turbulent periods. I...
Abstract: We investigate the impact of ignoring fat tails observed in the empirical distributions of...
Large deviations for fat tailed distributions, i.e. those that decay slower than exponential, are no...
Financial returns are known to be nonnormal and tend to have fat-tailed distributions. This article ...
Abstract. Since the work of Mandelbrot in the 1960’s there has accumu-lated a great deal of empirica...
Despite the evidence that returns are fat-tailed and that expected returns vary through time, most M...
This paper provides evidence that tails in the distribution of macroeconomic forecasts are time-vary...
The likelihood of systemic risk presents a challenge for modern finance. In particular, it is import...
This title is written for the numerate nonspecialist, and hopes to serve three purposes. First it ga...
Using a simultaneous-move herding model of rational traders who infer other traders\u27private infor...
There is substantial evidence that many time series associated with financial and insurance claim da...
Abstract. For fat tailed distributions (i.e. those that decay slower than an exponential), large dev...
Estimation of the tail index of stationary, fat-tailed return distributions is non-trivial since the...