Andere Kunden interessierten sich auch für
![C*-Algebras and Mathematical Foundations of Quantum Statistical Mechanics]( "C*-Algebras and Mathematical Foundations of Quantum Statistical Mechanics")
C*-Algebras and Mathematical Foundations of Quantum Statistical Mechanics59,99 €![An Introduction to Anomalous Diffusion and Relaxation]( "An Introduction to Anomalous Diffusion and Relaxation")
An Introduction to Anomalous Diffusion and Relaxation44,99 €![An Introduction to Anomalous Diffusion and Relaxation]( "An Introduction to Anomalous Diffusion and Relaxation")
An Introduction to Anomalous Diffusion and Relaxation59,99 €![Classical and Relativistic Rational Extended Thermodynamics of Gases]( "Classical and Relativistic Rational Extended Thermodynamics of Gases")
Classical and Relativistic Rational Extended Thermodynamics of Gases110,99 €![Classical and Relativistic Rational Extended Thermodynamics of Gases]( "Classical and Relativistic Rational Extended Thermodynamics of Gases")
Classical and Relativistic Rational Extended Thermodynamics of Gases110,99 €![Exponential Families of Stochastic Processes]( "Exponential Families of Stochastic Processes")
Exponential Families of Stochastic Processes110,99 €![Active Particles, Volume 3]( "Active Particles, Volume 3")
Active Particles, Volume 388,99 €
The book discusses a class of discrete time stochastic growth processes for which the growth rate is proportional to the exponential of a Gaussian Markov process. These growth processes appear naturally in problems of mathematical finance as discrete time approximations of stochastic volatility models and stochastic interest rates models such as the Black-Derman-Toy and Black-Karasinski models. These processes can be mapped to interacting one-dimensional lattice gases with long-range interactions.
The book gives a detailed discussion of these statistical mechanics models, including new results not available in the literature, and their implication for the stochastic growth models. The statistical mechanics analogy is used to understand observed non-analytic dependence of the Lyapunov exponents of the stochastic growth processes considered, which is related to phase transitions in the lattice gas system. The theoretical results are applied to simulations of financial models and are illustrated with Mathematica code.
The book includes a general introduction to exponential stochastic growth with examples from biology, population dynamics and finance. The presentation does not assume knowledge of mathematical finance. The new results on lattice gases can be read independently of the rest of the book. The book should be useful to practitioners and academics studying the simulation and application of stochastic growth models.
The book gives a detailed discussion of these statistical mechanics models, including new results not available in the literature, and their implication for the stochastic growth models. The statistical mechanics analogy is used to understand observed non-analytic dependence of the Lyapunov exponents of the stochastic growth processes considered, which is related to phase transitions in the lattice gas system. The theoretical results are applied to simulations of financial models and are illustrated with Mathematica code.
The book includes a general introduction to exponential stochastic growth with examples from biology, population dynamics and finance. The presentation does not assume knowledge of mathematical finance. The new results on lattice gases can be read independently of the rest of the book. The book should be useful to practitioners and academics studying the simulation and application of stochastic growth models.