Spelling suggestions: "subject:"hilbert space"" "subject:"hilbert apace""
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Local Mixture Model in Hilbert SpaceZhiyue, Huang 26 January 2010 (has links)
In this thesis, we study local mixture models with a Hilbert space structure. First, we consider the fibre bundle structure of local mixture models in a Hilbert space. Next, the spectral decomposition is introduced in order to construct local mixture models. We analyze
the approximation error asymptotically in the Hilbert space. After that, we will discuss the convexity structure of local mixture models. There are two forms of convexity conditions to consider,
first due to positivity in the $-1$-affine structure and the second by points having to lie inside the convex hull of a parametric
family. It is shown that the set of mixture densities is located inside the intersection of the sets defined by these two convexities. Finally, we discuss the impact of the approximation error in the Hilbert space when the domain of mixing variable
changes.
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Functional inverse regression and reproducing kernel Hilbert spaceRen, Haobo 30 October 2006 (has links)
The basic philosophy of Functional Data Analysis (FDA) is to think of the observed data
functions as elements of a possibly infinite-dimensional function space. Most of the current
research topics on FDA focus on advancing theoretical tools and extending existing
multivariate techniques to accommodate the infinite-dimensional nature of data. This dissertation
reports contributions on both fronts, where a unifying inverse regression theory
for both the multivariate setting (Li 1991) and functional data from a Reproducing Kernel
Hilbert Space (RKHS) prospective is developed.
We proposed a functional multiple-index model which models a real response variable
as a function of a few predictor variables called indices. These indices are random
elements of the Hilbert space spanned by a second order stochastic process and they constitute
the so-called Effective Dimensional Reduction Space (EDRS). To conduct inference
on the EDRS, we discovered a fundamental result which reveals the geometrical association
between the EDRS and the RKHS of the process. Two inverse regression procedures,
a âÂÂslicingâ approach and a kernel approach, were introduced to estimate the counterpart of
the EDRS in the RKHS. Further the estimate of the EDRS was achieved via the transformation
from the RKHS to the original Hilbert space. To construct an asymptotic theory, we
introduced an isometric mapping from the empirical RKHS to the theoretical RKHS, which
can be used to measure the distance between the estimator and the target. Some general computational issues of FDA were discussed, which led to the smoothed versions of the
functional inverse regression methods. Simulation studies were performed to evaluate the
performance of the inference procedures and applications to biological and chemometrical
data analysis were illustrated.
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Μελέτη εξισώσεων διαφορών σε χώρους Hilbert και Banach και εφαρμογές αυτώνΠετροπούλου, Ευγενία 30 September 2009 (has links)
- / -
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On representing resonances and decaying statesHarshman, Nathan Lee 15 March 2011 (has links)
Not available / text
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Spectral theory and measure preserving transformations.Belley, J. M. (Jean Marc), 1943- January 1971 (has links)
No description available.
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Uniqueness results for the infinite unitary, orthogonal and associated groupsAtim, Alexandru Gabriel. Kallman, Robert R., January 2008 (has links)
Thesis (Ph. D.)--University of North Texas, May, 2008. / Title from title page display. Includes bibliographical references.
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Risk Bounds for Regularized Least-squares Algorithm with Operator-valued kernelsVito, Ernesto De, Caponnetto, Andrea 16 May 2005 (has links)
We show that recent results in [3] on risk bounds for regularized least-squares on reproducing kernel Hilbert spaces can be straightforwardly extended to the vector-valued regression setting. We first briefly introduce central concepts on operator-valued kernels. Then we show how risk bounds can be expressed in terms of a generalization of effective dimension.
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Semilinear stochastic evolution equationsZangeneh, Bijan Z. January 1990 (has links)
Let H be a separable Hilbert space. Suppose (Ω, F, Ft, P) is a complete stochastic basis with a right continuous filtration and {Wt,t ∈ R} is an H-valued cylindrical Brownian motion with respect to {Ω, F, Ft, P). U(t, s) denotes an almost strong evolution operator generated by a family of unbounded closed linear operators on H. Consider the semilinear stochastic integral equation
[formula omitted]
where
• f is of monotone type, i.e., ft(.) = f(t, w,.) : H → H is semimonotone, demicon-tinuous, uniformly bounded, and for each x ∈ H, ft(x) is a stochastic process which satisfies certain measurability conditions.
• gs(.) is a uniformly-Lipschitz predictable functional with values in the space of Hilbert-Schmidt operators on H.
• Vt is a cadlag adapted process with values in H.
• X₀ is a random variable.
We obtain existence, uniqueness, boundedness of the solution of this equation. We show the solution of this equation changes continuously when one or all of X₀, f, g, and V are varied. We apply this result to find stationary solutions of certain equations, and to study the associated large deviation principles.
Let {Zt,t ∈ R} be an H-valued semimartingale. We prove an Ito-type inequality and a Burkholder-type inequality for stochastic convolution [formula omitted]. These are the main tools for our study of the above stochastic integral equation. / Science, Faculty of / Mathematics, Department of / Graduate
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Compact Operators and the Schrödinger EquationKazemi, Parimah 12 1900 (has links)
In this thesis I look at the theory of compact operators in a general Hilbert space, as well as the inverse of the Hamiltonian operator in the specific case of L2[a,b]. I show that this inverse is a compact, positive, and bounded linear operator. Also the eigenfunctions of this operator form a basis for the space of continuous functions as a subspace of L2[a,b]. A numerical method is proposed to solve for these eigenfunctions when the Hamiltonian is considered as an operator on Rn. The paper finishes with a discussion of examples of Schrödinger equations and the solutions.
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A Classification of the Homogeneity of Countable Products of Subsets of Real NumbersAllen, Cristian Gerardo 08 1900 (has links)
Spaces such as the closed interval [0, 1] do not have the property of being homogeneous, strongly locally homogeneous (SLH) or countable dense homogeneous (CDH), but the Hilbert cube has all three properties. We investigate subsets X of real numbers to determine when their countable product is homogeneous, SLH, or CDH. We give necessary and sufficient conditions for the product to be homogeneous. We also prove that the product is SLH if and only if X is zero-dimensional or an interval. And finally we show that for a Borel subset X of real numbers the product is CDH iff X is a G-delta zero-dimensional set or an interval.
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