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3 results on '"Business, Finance"'

1. Self‐similarity in long‐horizon returns

Author

Dilip B. Madan and Wim Schoutens

Subjects
Mathematics, Interdisciplinary Applications, DYNAMICS, Independent and identically distributed random variables, Economics and Econometrics, Self-similarity, Economics, ASSET RETURNS, equity bias for longer horizons, Social Sciences, Random shocks, Business & Economics, Accounting, Component (UML), Econometrics, asset return modeling, Mathematics, Science & Technology, Horizon (archaeology), Applied Mathematics, RUN, Social Sciences, Mathematical Methods, Asset return, self-similarity and scaling, Business, Finance, Term (time), MODEL, LEVY, Long memory, Physical Sciences, Mathematical Methods In Social Sciences, Social Sciences (miscellaneous), Finance
Abstract

Asset returns incorporate new information via the effects of independent and possibly identically distributed random shocks. They may also incorporate long memory effects related to the concept of self‐similarity. The two approaches are here combined. In addition, methods are proposed for estimating the contribution of each component and evidence supporting the presence of both components in both the physical and risk‐neutral distributions is presented. Furthermore, it is shown that long‐horizon returns may be nonnormal when there is a self‐similar component. The presence of a self‐similar component also questions positive equity biases over the longer term.

Published
2020
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2. Dividend policy and capital structure of a defaultable firm

Author

Alex S. L. Tse

Subjects
default risk, capital structure, Event of default, Economics, Social Sciences, Monetary economics, Dividend policy, 01 natural sciences, 010104 statistics & probability, Business & Economics, 0102 Applied Mathematics, Equity value, OPTIMAL CONSUMPTION, RISK, 050208 finance, Limited liability, Applied Mathematics, 05 social sciences, 1502 Banking, Finance and Investment, Mathematical Finance (q-fin.MF), TIME, Quantitative Finance - Mathematical Finance, Physical Sciences, GROWTH, Dividend, Mathematical Methods In Social Sciences, Mathematics, Interdisciplinary Applications, Economics and Econometrics, STRATEGIES, Capital structure, FOS: Economics and business, singular stochastic control, Accounting, 0502 economics and business, dividend policy, 0101 mathematics, Science & Technology, Dividend payout ratio, Equity (finance), Social Sciences, Mathematical Methods, Business, Finance, OPTIMAL INVESTMENT, MODEL, PORTFOLIO SELECTION, PAYOUT, HJB equation, Mathematics, Social Sciences (miscellaneous), Finance
Abstract

Default risk significantly affects the corporate policies of a firm. We develop a model in which a limited liability entity subject to default at an exponential random time jointly sets its dividend policy and capital structure to maximize the expected lifetime utility from consumption of risk‐averse equity investors. We give a complete characterization of the solution to the singular stochastic control problem. The optimal policy involves paying dividends to keep the ratio of firm's equity value to investors' wealth below a critical threshold. Dividend payout acts as a precautionary channel to transfer wealth from the firm to investors for mitigation of losses in the event of default. Higher the default risk, more aggressively the firm leverages and pays dividends.

Published
2020
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3. Pathwise moderate deviations for option pricing

Author

Konstantinos Spiliopoulos and Antoine Jacquier

Subjects
Mathematics, Interdisciplinary Applications, Economics and Econometrics, DIFFUSION-APPROXIMATION, FUNCTIONALS, Economics, Social Sciences, math.PR, 01 natural sciences, STOCHASTIC VOLATILITY, FOS: Economics and business, 010104 statistics & probability, SYSTEMS, Business & Economics, 0102 Applied Mathematics, Accounting, Transfer (computing), q-fin.MF, 0502 economics and business, FOS: Mathematics, Econometrics, 0101 mathematics, Scaling, Mathematics, Science & Technology, 050208 finance, Applied Mathematics, Probability (math.PR), 05 social sciences, 1502 Banking, Finance and Investment, Social Sciences, Mathematical Methods, POISSON EQUATION, Business, Finance, Mathematical Finance (q-fin.MF), Quantitative Finance - Mathematical Finance, Valuation of options, Physical Sciences, Large deviations theory, PRINCIPLE, Pricing of Securities (q-fin.PR), Moderate deviations, Quantitative Finance - Pricing of Securities, q-fin.PR, Mathematics - Probability, Mathematical Methods In Social Sciences, Social Sciences (miscellaneous), Finance
Abstract

We provide a unifying treatment of pathwise moderate deviations for models commonly used in financial applications, and for related integrated functionals. Suitable scaling enables us to transfer these results into small‐time, large‐time, and tail asymptotics for diffusions, as well as for option prices and realized variances. In passing, we highlight some intuitive relationships between moderate deviations rate functions and their large deviations counterparts; these turn out to be useful for numerical purposes, as large deviations rate functions are often difficult to compute.

Published
2019
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