@ARTICLE{10.3389/fphy.2020.565372,
AUTHOR={Maskawa, Jun-ichi and Kuroda, Koji},
TITLE={Model of Continuous Random Cascade Processes in Financial Markets},
JOURNAL={Frontiers in Physics},
VOLUME={8},
PAGES={549},
YEAR={2020},
URL={https://www.frontiersin.org/article/10.3389/fphy.2020.565372},
DOI={10.3389/fphy.2020.565372},
ISSN={2296-424X},
ABSTRACT={This article presents a continuous cascade model of volatility formulated as a stochastic differential equation. Two independent Brownian motions are introduced as random sources triggering the volatility cascade: one multiplicatively combines with volatility; the other does so additively. Assuming that the latter acts perturbatively on the system, the model parameters are estimated by the application to an actual stock price time series. Numerical calculation of the Fokkerâ€“Planck equation derived from the stochastic differential equation is conducted using the estimated values of parameters. The results reproduce the probability density function of the empirical volatility, the multifractality of the time series, and other empirical facts.}
}