942 resultados para Hilbert symbol
Resumo:
2000 Mathematics Subject Classification: 42A45.
Resumo:
This Master's thesis explores the hypothesis that Elian Gonzalez functions as a religious and ideological symbol for Cuban-Americans similarly to La Virgen de la Caridad del Cobre. Both La Caridad and Eliin are contested symbols among most Cuban and Cuban-American individuals, meaning both groups appropriate them toward their religious and ideological ends. The Virgin aids in the formulation of a collective identity for members of the Cuban exile community. Her shrine in Miami bridges the spatial and temporal gap between the exile community and the homeland of Cuba and represents the exile's hope for a return to a free Cuba. Elian functions as a metaphor of the Cuban exile experience, and thus a multi-leveled, transnational, religious and ideological symbol. In order to assess this, theoretical and journalistic materials are used, along with personal interviews and participant observation. This methodology is used to determine the function Elian serves for this community.
Resumo:
La trattazione che segue fornisce un'introduzione agli operatori lineari. Il primo capitolo contiene dei cenni sugli spazi di Hilbert di dimensione infinita, in modo da poter lavorare con operatori definiti non solo su spazi finito dimensionali, che sono generalmente rappresentati da matrici. Nel secondo capitolo si prosegue con lo studio degli operatori lineari limitati, proponendo come esempio l'operatore di proiezione. Viene definito anche l'importante concetto di operatore aggiunto, generalizzato nel capitolo successivo. Il capitolo finale tratta gli operatori non limitati, che possono essere analizzati con più facilità se soddisfano una proprietà topologica, che è la chiusura. Si affronta anche il concetto di spettro di un operatore, soprattutto nel caso di un operatore autoaggiunto, concludendo con l' esempio di un importante operatore, cioè l'operatore differenziale, fondamentale in meccanica quantistica.
Resumo:
A Hilbert space operator is called universal (in the sense of Rota) if every operator on the Hilbert space is similar to a multiple of the restriction of the universal operator to one of its invariant subspaces. We exhibit an analytic Toeplitz operator whose adjoint is universal in the sense of Rota and commutes with a quasi-nilpotent injective compact operator with dense range. In articular, this new universal operator invites an approach to the Invariant Subspace Problem that uses properties of operators that commute with the universal operator.
Resumo:
General note: Title and date provided by Bettye Lane.
Resumo:
Inscriptions: Verso: [stamped] Photograph by Freda Leinwand. [463 West Street, Studio 229G, New York, NY 10014].
Resumo:
We prove that a random Hilbert scheme that parametrizes the closed subschemes with a fixed Hilbert polynomial in some projective space is irreducible and nonsingular with probability greater than $0.5$. To consider the set of nonempty Hilbert schemes as a probability space, we transform this set into a disjoint union of infinite binary trees, reinterpreting Macaulay's classification of admissible Hilbert polynomials. Choosing discrete probability distributions with infinite support on the trees establishes our notion of random Hilbert schemes. To bound the probability that random Hilbert schemes are irreducible and nonsingular, we show that at least half of the vertices in the binary trees correspond to Hilbert schemes with unique Borel-fixed points.
Resumo:
In this paper, we focus on a Riemann–Hilbert boundary value problem (BVP) with a constant coefficients for the poly-Hardy space on the real unit ball in higher dimensions. We first discuss the boundary behaviour of functions in the poly-Hardy class. Then we construct the Schwarz kernel and the higher order Schwarz operator to study Riemann–Hilbert BVPs over the unit ball for the poly- Hardy class. Finally, we obtain explicit integral expressions for their solutions. As a special case, monogenic signals as elements in the Hardy space over the unit sphere will be reconstructed in the case of boundary data given in terms of functions having values in a Clifford subalgebra. Such monogenic signals represent the generalization of analytic signals as elements of the Hardy space over the unit circle of the complex plane.
Resumo:
A simple but efficient voice activity detector based on the Hilbert transform and a dynamic threshold is presented to be used on the pre-processing of audio signals -- The algorithm to define the dynamic threshold is a modification of a convex combination found in literature -- This scheme allows the detection of prosodic and silence segments on a speech in presence of non-ideal conditions like a spectral overlapped noise -- The present work shows preliminary results over a database built with some political speech -- The tests were performed adding artificial noise to natural noises over the audio signals, and some algorithms are compared -- Results will be extrapolated to the field of adaptive filtering on monophonic signals and the analysis of speech pathologies on futures works
Resumo:
Se desarrolla un estudio de todas las herramientas necesarias para llegar al teorema de los ceros de Hilbert el cual luego se demuestra en sus formas débil y fuerte. Se introducen los conceptos básicos relacionados con los anillos noetherianos y las variedades algebraicas afines que son fundamentales para el estudio del teorema de los ceros de Hilbert. Es por ello que estudiamos detenidamente el concepto de ideal primo e ideal primario, como también las distintas operaciones entre ideales, en particular la descomposición primaria de ideales. En seguida se desarrollan las demostraciones de algunos de los teoremas importantes de los anillos noetherianos, haciendo uso de la descomposición primaria de un ideal y un resultado fundamental: el teorema de la base de Hilbert. Además se desarrollan las definiciones, proposiciones, teoremas de una variedad algebraica afín y el ideal asociado a una variedad, así como también el ideal de una variedad y lo más interesante es la descomposición de ideales en variedades algebraicas afines, como la condición de cadena descendente de variedades. También se hace la aplicación de los resultados obtenidos en los capítulos anteriores, para demostrar el teorema de los ceros de Hilbert en su forma dedil así como en la forma fuerte. Finalmente adoptamos una Topología que es muy débil pero sorprendentemente útil ocupando los resultados anteriores, probando propiedades que cumple esta topología como la cerradura topológica y compacidad.
Resumo:
A Hilbert space operator is called universal (in the sense of Rota) if every operator on the Hilbert space is similar to a multiple of the restriction of the universal operator to one of its invariant subspaces. We exhibit an analytic Toeplitz operator whose adjoint is universal in the sense of Rota and commutes with a quasi-nilpotent injective compact operator with dense range. In particular, this new universal operator invites an approach to the Invariant Subspace Problem that uses properties of operators that commute with the universal operator.
Resumo:
This thesis is concerned with change point analysis for time series, i.e. with detection of structural breaks in time-ordered, random data. This long-standing research field regained popularity over the last few years and is still undergoing, as statistical analysis in general, a transformation to high-dimensional problems. We focus on the fundamental »change in the mean« problem and provide extensions of the classical non-parametric Darling-Erdős-type cumulative sum (CUSUM) testing and estimation theory within highdimensional Hilbert space settings. In the first part we contribute to (long run) principal component based testing methods for Hilbert space valued time series under a rather broad (abrupt, epidemic, gradual, multiple) change setting and under dependence. For the dependence structure we consider either traditional m-dependence assumptions or more recently developed m-approximability conditions which cover, e.g., MA, AR and ARCH models. We derive Gumbel and Brownian bridge type approximations of the distribution of the test statistic under the null hypothesis of no change and consistency conditions under the alternative. A new formulation of the test statistic using projections on subspaces allows us to simplify the standard proof techniques and to weaken common assumptions on the covariance structure. Furthermore, we propose to adjust the principal components by an implicit estimation of a (possible) change direction. This approach adds flexibility to projection based methods, weakens typical technical conditions and provides better consistency properties under the alternative. In the second part we contribute to estimation methods for common changes in the means of panels of Hilbert space valued time series. We analyze weighted CUSUM estimates within a recently proposed »high-dimensional low sample size (HDLSS)« framework, where the sample size is fixed but the number of panels increases. We derive sharp conditions on »pointwise asymptotic accuracy« or »uniform asymptotic accuracy« of those estimates in terms of the weighting function. Particularly, we prove that a covariance-based correction of Darling-Erdős-type CUSUM estimates is required to guarantee uniform asymptotic accuracy under moderate dependence conditions within panels and that these conditions are fulfilled, e.g., by any MA(1) time series. As a counterexample we show that for AR(1) time series, close to the non-stationary case, the dependence is too strong and uniform asymptotic accuracy cannot be ensured. Finally, we conduct simulations to demonstrate that our results are practically applicable and that our methodological suggestions are advantageous.
Resumo:
Using Macaulay's correspondence we study the family of Artinian Gorenstein local algebras with fixed symmetric Hilbert function decomposition. As an application we give a new lower bound for the dimension of cactus varieties of the third Veronese embedding. We discuss the case of cubic surfaces, where interesting phenomena occur.
Resumo:
Fleck and Johnson (Int. J. Mech. Sci. 29 (1987) 507) and Fleck et al. (Proc. Inst. Mech. Eng. 206 (1992) 119) have developed foil rolling models which allow for large deformations in the roll profile, including the possibility that the rolls flatten completely. However, these models require computationally expensive iterative solution techniques. A new approach to the approximate solution of the Fleck et al. (1992) Influence Function Model has been developed using both analytic and approximation techniques. The numerical difficulties arising from solving an integral equation in the flattened region have been reduced by applying an Inverse Hilbert Transform to get an analytic expression for the pressure. The method described in this paper is applicable to cases where there is or there is not a flat region.
Resumo:
This paper presents an efficient low-complexity clipping noise compensation scheme for PAR reduced orthogonal frequency division multiple access (OFDMA) systems. Conventional clipping noise compensation schemes proposed for OFDM systems are decision directed schemes which use demodulated data symbols. Thus these schemes fail to deliver expected performance in OFDMA systems where multiple users share a single OFDM symbol and a specific user may only know his/her own modulation scheme. The proposed clipping noise estimation and compensation scheme does not require the knowledge of the demodulated symbols of the other users, making it very promising for OFDMA systems. It uses the equalized output and the reserved tones to reconstruct the signal by compensating the clipping noise. Simulation results show that the proposed scheme can significantly improve the system performance.
