# Browsing by Subject "Asymptotics"

###### Results Per Page

###### Sort Options

Item Open Access Some Advances in Nonparametric Statistics(2023) Zhu, YichenNonparametric statistics is an important branch of statistics that utilize infinite dimensional modelsto achieve great flexibility. However, such flexibility often comes with difficulties in computations and convergent properties. One approach is to study the natural patterns for one type of datasets and summarize such patterns into mathematical assumptions that can potentially provide computational and theoretical benefits. I carried out the above idea on three different problems. The first problem is the classification trees for imbalanced datasets, where I formulate the regularity of shapes into surface-to-volumeratio and develop satisfactory theory and methodology using this ratio. The second problem is the approximation of Gaussian process, where I observe the critical role of spatial decaying covariance function in Gaussian process approximations and use such decaying properties to prove the approximation error for my proposed method. The last problem is the posterior contraction rates in Kullback-Leibler (KL) divergence, where I am motivated by the dismatch between KL divergence and Hellinger distance and develop a posterior contraction theory entirely based on KL divergence

Item Restricted Stochastic Microlensing: Mathematical Theory and Applications(2011) Teguia, Alberto MokakStochastic microlensing is a central tool in probing dark matter on galactic scales. From first principles, we initiate the development of a mathematical theory

of stochastic microlensing. We first construct a natural probability space for stochastic microlensing and characterize the general behaviour of the random time

delay functions' random critical sets. Next we study stochastic microlensing in two distinct random microlensing scenarios: The uniform stars' distribution with

constant mass spectrum and the spatial stars' distribution with general mass spectrum. For each scenario, we determine exact and asymptotic (in the large number

of point masses limit) stochastic properties of the random time delay functions and associated random lensing maps and random shear tensors, including their

moments and asymptotic density functions. We use these results to study certain random observables, such as random fixed lensed images, random bending angles,

and random magnifications. These results are relevant to the theory of random

fields and provide a platform for further generalizations as well as analytical limits for checking astrophysical studies of stochastic microlensing.

Continuing our development of a mathematical theory of stochastic microlensing, we study the stochastic version of the Image Counting Problem, first considered

in the non-random setting by Einstein and generalized by Petters. In particular, we employ the Kac-Rice formula and Morse theory to deduce general formulas for

the expected total number of images and the expected number of saddle images for a general random lensing scenario. We further

generalize these results by considering random sources defined on a countable compact covering of the light source plane. This is done to introduce the notion of

global expected number of positive parity images due to a general lensing map. Applying the result to the uniform stars' distribution random microlensing

scenario, we calculate the asymptotic global expected number of minimum images in the limit of an infinite number of stars. This global expectation is bounded,

while the global expected number of images and the global expected number of saddle images diverge as the order of the number of stars.

Finally, we outline a framework for the study of stochastic microlensing in the neighbourhood of lensed images. This framework is related to the study of the

local geometry of a random surface. In our case, the surface is non-Gaussian, and therefore standard literature on the subject does not apply. We explore the case

of a random gravitational field caused by a random star.