词条 | Generalised hyperbolic distribution |
释义 |
name =Generalised hyperbolic| type =density| pdf_image =| cdf_image =| parameters = (real) }} The generalised hyperbolic distribution (GH) is a continuous probability distribution defined as the normal variance-mean mixture where the mixing distribution is the generalized inverse Gaussian distribution (GIG). Its probability density function (see the box) is given in terms of modified Bessel function of the second kind, denoted by .[1] It was introduced by Ole Barndorff-Nielsen, who studied it in the context of physics of wind-blown sand.[2] PropertiesLinear transformationThis class is closed under affine transformations.[1] SummationBarndorff-Nielsen and Halgreen proved that the GIG distribution is infinitely divisible and since the GH distribution can be obtained as a normal variance-mean mixture where the mixing distribution is the generalized inverse Gaussian distribution, Barndorff-Nielsen and Halgreen showed the GH distribution is infinitely divisible as well.[3] Fails to be convolution-closedAn important point about infinitely divisible distribution is there connection to Lévy processes, i.e. at any point in time a Lévy process is infinitely divisible distributed. Many families of well-known infinitely divisible distributions are so-called convolution-closed, i.e. if the distribution of a Lévy process at one point in time belongs to one of these families, then the distribution of the Lévy process at all points in time belong to the same family of distributions. For example, a Possion process will be Possion distributed at all points in time, or a Brownian motion will be normal distributed at all points in time. However, a Lévy process that is generalised hyperbolic at one point in time might fail to be generalized hyperbolic at another point in time. In fact, the generalized Laplace distributions and the normal inverse Gaussian distributions are the only subclasses of the generalized hyperbolic distributions that are closed under convolution.[4] Related distributionsAs the name suggests it is of a very general form, being the superclass of, among others, the Student's t-distribution, the Laplace distribution, the hyperbolic distribution, the normal-inverse Gaussian distribution and the variance-gamma distribution.
ApplicationsIt is mainly applied to areas that require sufficient probability of far-field behaviour{{what|date=January 2018}}, which it can model due to its semi-heavy tails—a property the normal distribution does not possess. The generalised hyperbolic distribution is often used in economics, with particular application in the fields of modelling financial markets and risk management, due to its semi-heavy tails. References1. ^1 Ole E Barndorff-Nielsen, Thomas Mikosch and Sidney I. Resnick, Lévy Processes: Theory and Applications, Birkhäuser 2013 {{ProbDistributions|continuous-infinite}}{{DEFAULTSORT:Generalised Hyperbolic Distribution}}2. ^{{cite journal|doi=10.1098/rspa.1977.0041|last=Barndorff-Nielsen|first=Ole|year=1977|title=Exponentially decreasing distributions for the logarithm of particle size|journal=Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences|volume=353|issue=1674|pages=401–409|jstor=79167|publisher=The Royal Society}} 3. ^O. Barndorff-Nielsen and Christian Halgreen, Infinite Divisibility of the Hyperbolic and Generalized Inverse Gaussian Distributions, Zeitschrift für Wahrscheinlichkeitstheorie und verwandte Gebiete 1977 4. ^{{cite journal |last1=Podgórski |first1=Krzysztof |last2=Wallin |first2=Jonas |title=Convolution-invariant subclasses of generalized hyperbolic distributions |journal=Communications in Statistics - Theory and Methods |date=9 February 2015 |volume=45 |issue=1 |pages=98–103 |doi=10.1080/03610926.2013.821489 |url=https://doi.org/10.1080/03610926.2013.821489 |accessdate=14 February 2019}} 1 : Continuous distributions |
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