Exit Problems for Lévy and Markov Processes with One-Sided Jumps and Related Topics

Exit Problems for Lévy and Markov Processes with One-Sided Jumps and Related Topics

Exit problems for one-dimensional Lévy processes are easier when jumps only occur in one direction. In the last few years, this intuition became more precise: we know now that a wide variety of identities for exit problems of spectrally-negative Lévy processes may be ergonomically expressed in ter...

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Bibliographic Details
Other Authors: Avram, Florin (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Research & information: general
Mathematics & science
Lévy processes
non-random overshoots
skip-free random walks
fluctuation theory
scale functions
capital surplus process
dividend payment
optimal control
capital injection constraint
spectrally negative Lévy processes
reflected Lévy processes
first passage
drawdown process
spectrally negative process
dividends
de Finetti valuation objective
variational problem
stochastic control
optimal dividends
Parisian ruin
log-convexity
barrier strategies
adjustment coefficient
logarithmic asymptotics
quadratic programming problem
ruin probability
two-dimensional Brownian motion
spectrally negative Lévy process
general tax structure
first crossing time
joint Laplace transform
potential measure
Laplace transform
first hitting time
diffusion-type process
running maximum and minimum processes
boundary-value problem
normal reflection
Sparre Andersen model
heavy tails
completely monotone distributions
error bounds
hyperexponential distribution
reflected Brownian motion
linear diffusions
drawdown
Segerdahl process
affine coefficients
spectrally negative Markov process
hypergeometric functions
capital injections
bankruptcy
reflection and absorption
Pollaczek-Khinchine formula
scale function
Padé approximations
Laguerre series
Tricomi-Weeks Laplace inversion
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Description
Summary:Exit problems for one-dimensional Lévy processes are easier when jumps only occur in one direction. In the last few years, this intuition became more precise: we know now that a wide variety of identities for exit problems of spectrally-negative Lévy processes may be ergonomically expressed in terms of two q-harmonic functions (or scale functions or positive martingales) W and Z. The proofs typically require not much more than the strong Markov property, which hold, in principle, for the wider class of spectrally-negative strong Markov processes. This has been established already in particular cases, such as random walks, Markov additive processes, Lévy processes with omega-state-dependent killing, and certain Lévy processes with state dependent drift, and seems to be true for general strong Markov processes, subject to technical conditions. However, computing the functions W and Z is still an open problem outside the Lévy and diffusion classes, even for the simplest risk models with state-dependent parameters (say, Ornstein-Uhlenbeck or Feller branching diffusion with phase-type jumps).
Physical Description:1 electronic resource (218 p.)
ISBN:books978-3-03928-459-7
9783039284580
9783039284597
Access:Open Access

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