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In modern geoscience, understanding the climate depends on the information about the oceans. Covering two thirds of the Earth, oceans play an important role. Oceanic phenomena are, for example, oceanic circulation, water exchanges between atmosphere, land and ocean or temporal changes of the total water volume. All these features require new methods in constructive approximation, since they are regionally bounded and not globally observable. This article deals with methods of handling data with locally supported basis functions, modeling them in a multiscale scheme involving a wavelet approximation and presenting the main results for the dynamic topography and the geostrophic flow, e.g., in the Northern Atlantic. Further, it is demonstrated that compressional rates of the occurring wavelet transforms can be achieved by use of locally supported wavelets.
In this dissertation a model of melt spinning (by Doufas, McHugh and Miller) has been investigated. The model (DMM model) which takes into account effects of inertia, air drag, gravity and surface tension in the momentum equation and heat exchange between air and fibre surface, viscous dissipation and crystallization in the energy equation also has a complicated coupling with the microstructure. The model has two parts, before onset of crystallization (BOC) and after onset of crystallization (AOC) with the point of onset of crystallization as the unknown interface. Mathematically the model has been formulated as a Free boundary value problem. Changes have been introduced in the model with respect to the air drag and an interface condition at the free boundary. The mathematical analysis of the nonlinear, coupled free boundary value problem shows that the solution of this problem depends heavily on initial conditions and parameters which renders the global analysis impossible. But by defining a physically acceptable solution, it is shown that for a more restricted set of initial conditions if a unique solution exists for IVP BOC then it is physically acceptable. For this the important property of the positivity of the conformation tensor variables has been proved. Further it is shown that if a physically acceptable solution exists for IVP BOC then under certain conditions it also exists for IVP AOC. This gives an important relation between the initial conditions of IVP BOC and the existence of a physically acceptable solution of IVP AOC. A new investigation has been done for the melt spinning process in the framework of classical mechanics. A Hamiltonian formulation has been done for the melt spinning process for which appropriate Poisson brackets have been derived for the 1-d, elongational flow of a viscoelastic fluid. From the Hamiltonian, cross sectionally averaged balance mass and momentum equations of melt spinning can be derived along with the microstructural equations. These studies show that the complicated problem of melt spinning can also be studied under the framework of classical mechanics. This work provides the basic groundwork on which further investigations on the dynamics of a fibre could be carried out. The Free boundary value problem has been solved numerically using shooting method. Matlab routines have been used to solve the IVPs arising in the problem. Some numerical case studies have been done to study the sensitivity of the ODE systems with respect to the initial guess and parameters. These experiments support the analysis done and throw more light on the stiff nature and ill posedness of the ODE systems. To validate the model, simulations have been performed on sets of data provided by the company. Comparison of numerical results (axial velocity profiles) has been done with the experimental profiles provided by the company. Numerical results have been found to be in excellent agreement with the experimental profiles.
Under physiological conditions oxygen is constantly being converted to reactive oxygen intermediates, in mitochondria, peroxisomes, cytochrome p450 systems, macrophages, neutrophils and in plasma membranes. These reactive oxygen species (ROS) are toxic and therefore alter cell integrity leading to cell damage. To protect itself against this toxic effect of ROS, living systems have developed defence systems that scavenge ROS formation. These systems include some enzymes, transporting proteins and small antioxidant molecules for instance vitamin C and E. This thesis describes a study on the antioxidant chemistry and activity of vitamin C in vivo and in vitro systems using ESR spectroscopy. Also, a new method was designed to label ascorbic acid with a fluorescent marker. Moreover, some important criteria were considered for the evaluation and quantification of ascorbyl radicals in human blood plasma using two types of ESR spectrometers.
We introduce splines for the approximation of harmonic functions on a 3-dimensional ball. Those splines are combined with a multiresolution concept. More precisely, at each step of improving the approximation we add more data and, at the same time, reduce the hat-width of the used spline basis functions. Finally, a convergence theorem is proved. One possible application, that is discussed in detail, is the reconstruction of the Earth´s density distribution from gravitational data obtained at a satellite orbit. This is an exponentially ill-posed problem where only the harmonic part of the density can be recovered since its orthogonal complement has the potential 0. Whereas classical approaches use a truncated singular value decomposition (TSVD) with the well-known disadvantages like the non-localizing character of the used spherical harmonics and the bandlimitedness of the solution, modern regularization techniques use wavelets allowing a localized reconstruction via convolutions with kernels that are only essentially large in the region of interest. The essential remaining drawback of a TSVD and the wavelet approaches is that the integrals (i.e. the inner product in case of a TSVD and the convolution in case of wavelets) are calculated on a spherical orbit, which is not given in reality. Thus, simplifying modelling assumptions, that certainly include a modelling error, have to be made. The splines introduced here have the important advantage, that the given data need not be located on a sphere but may be (almost) arbitrarily distributed in the outer space of the Earth. This includes, in particular, the possibility to mix data from different satellite missions (different orbits, different derivatives of the gravitational potential) in the calculation of the Earth´s density distribution. Moreover, the approximating splines can be calculated at varying resolution scales, where the differences for increasing the resolution can be computed with the introduced spline-wavelet technique.
In the field of gravity determination a special kind of boundary value problem respectively ill-posed satellite problem occurs; the data and hence side condition of our PDE are oblique second order derivatives of the gravitational potential. In mathematical terms this means that our gravitational potential \(v\) fulfills \(\Delta v = 0\) in the exterior space of the Earth and \(\mathscr D v = f\) on the discrete data location which is on the Earth's surface for terrestrial measurements and on a satellite track in the exterior for spaceborne measurement campaigns. \(\mathscr D\) is a first order derivative for methods like geometric astronomic levelling and satellite-to-satellite tracking (e.g. CHAMP); it is a second order derivative for other methods like terrestrial gradiometry and satellite gravity gradiometry (e.g. GOCE). Classically one can handle first order side conditions which are not tangential to the surface and second derivatives pointing in the radial direction employing integral and pseudo differential equation methods. We will present a different approach: We classify all first and purely second order operators \(\mathscr D\) which fulfill \(\Delta \mathscr D v = 0\) if \(\Delta v = 0\). This allows us to solve the problem with oblique side conditions as if we had ordinary i.e. non-derived side conditions. The only additional work which has to be done is an inversion of \(\mathscr D\), i.e. integration.
It is considered an analytical model of defaultable bond portfolio in terms of its face value process. The face value process dynamically evolves with time and incorporates changes caused by recovery payment on default followed by purchasing of new bonds. The further studies involve properties, distribution and control of the face value process.
In many industrial applications fast and accurate solutions of linear elliptic partial differential equations are needed as one of the building blocks of more complex problems. The domains are often highly complex and meshing turns out to be expensive and difficult to obtain with a sufficient quality. In such cases methods with a regular, not boundary adapted grid offer an attractive alternative. The Explicit Jump Immersed Interface Method is one of these algorithms. The main interest of this work lies in solving the linear elasticity equations. For this purpose the existing EJIIM algorithm has been extended to three dimensions. The Poisson equation is always considered in parallel as the most typical representative of elliptic PDEs. During the work it became clear that EJIIM can have very high computational memory requirements. To overcome this problem an improvement, Reduced EJIIM is proposed. The main theoretical result in this work is the proof of the smoothing property of inverses of elliptic finite difference operators in two and three space dimensions. It is an often observed phenomena that the local truncation error is allowed to be of lower order along some lower dimensional manifold without influencing the global convergence order of the solution.
An autoregressive-ARCH model with possible exogeneous variables is treated. We estimate the conditional volatility of the model by applying feedforward networks to the residuals and prove consistency and asymptotic normality for the estimates under the rate of feedforward networks complexity. Recurrent neural networks estimates of GARCH and value-at-risk is studied. We prove consistency and asymptotic normality for the recurrent neural networks ARMA estimator under the rate of recurrent networks complexity. We also overcome the estimation problem in stochastic variance models in discrete time by feedforward networks and the introduction of a new distributions on the innovations. We use the method to calculate market risk such as expected shortfall and Value-at risk. We tested this distribution together with other new distributions on the GARCH family models against other common distributions on the financial market such as Normal Inverse Gaussian, normal and the Student's t- distributions. As an application of the models, some German stocks are studied and the different approaches are compared together with the most common method of GARCH(1,1) fit.
Seit Beginn der 90er Jahre werden vermehrt Kreisverkehre gebaut. Insbesondere beim Umbau vorhandener LSA-Kreuzungen zu Kreisverkehren werden Vorteile für den Individualverkehr gesehen. Diese Vorteile werden allerdings mit Nachteilen für den öffentlichen Personennahverkehr erkauft. Die erstmals untersuchten Auswirkungen dieser Knotenpunktform auf Fahrzeuge des öffentlichen Personennahverkehr (ÖPNV) sind teilweise erheblich: - Wartezeiten für ÖV-Fahrzeuge an Kreisverkehren schwanken und sind schlecht in den Fahrplan zu integrieren, - Fahrtrichtungswechsel bei der Befahrung der Kreisfahrbahn reduzieren den Fahrkomfort, - ÖPNV-Beschleunigungen werden an Kreisver-kehren selten angewandt, - ÖPNV-Priorisierungmöglichkeiten durch Eingriffe in Lichtsignalanlagensteuerungen entfallen. Dass Beschleunigungen auf dem Linienweg in vielen Fällen möglich sind, wurde sowohl durch empirische Auswertungen bestehender Kreisverkehre als auch durch Simulationen gezeigt. Bei geringen Verkehrsstärken sind Beschleunigungen im Allgemeinen nicht notwendig. Zudem steht die Wirkung häufig in ungünstiger Relation zum erforderlichen Aufwand. Bei hohen Verkehrsstärken in den Zufahrten ermöglicht dagegen z.B. die ÖV-Spur hervorragende Beschleunigungen für den ÖV. Allerdings wurden bei zweistreifiger, pa-ralleler Führung von MIV- und ÖV-Strömen zu einstreifigen Kreisverkehren häufig Irritationen zwischen MIV- und ÖV-Fahrzeugen beobachtet. Kei-ne Irritationen wurden beobachtet, wenn MIV- und ÖV- Spur in der Zufahrt zum Kreisverkehr zweistreifig parallel geführt werden und die MIV-Fahrspur unmittelbar vor dem Kreisverkehr in einer Fahrstreifenreduktion endet und die ebenfalls endende ÖV-Spur als normaler Fahrstreifen fortgeführt wird. Bei dieser als „KREIFAS“ (KReisverkehr mit EIngezogenem FAhrstreifen) bezeichneten Verkehrsführung wechseln die MIV-Fahrzeuge den Fahrstreifen, während der ÖV geradeaus weiterfahren kann. Eine Beschleunigungsmöglichkeit bei der Einfahrt in die Kreisfahrbahn bietet die „schlafende LSA“. Der Vorrang der Fahrzeuge auf der Kreisfahrbahn wird durch eine schlafende Lichtsignalanlage (Dunkelampel) aufgehoben, wenn ÖV-Fahrzeuge in der Zufahrt auf den Kreisverkehr zufahren. Fahrzeuge aus dieser Zufahrt erhalten solange Vorrang, bis dass das ÖV-Fahrzeug die Kreisfahrbahn erreicht hat. Durch diese und andere Maßnahmen wird eine Reduzierung von Wartezeiten für Busse bei der Einfahrt in die Kreisfahrbahn erreicht, ebenso wie eine Verstetigung des Fahrtverlaufes in der Zufahrt und somit eine Steigerung von Fahrplantreue und Fahrkomfort erreicht. Insgesamt ist eine ausgewogene Berücksichtigung aller Verkehrsteilnehmer auch bei Planungen an Kreisverkehren erforderlich. Wenn ÖV-Linien beschleunigt über Kreisverkehre geführt werden sollen, sind deren Anforderungen besonders sorgfältig zu berücksichtigen. Somit ergeben sich auch für das Element Kreisverkehr Beschleunigungsmöglichkeiten, um den Wegfall von LSA-Beschleunigungsmaßnahmen in weiten Teilen zu kompensieren.
In the thesis the task of channel estimation in beyond 3G service area based mobile radio air interfaces is considered. A system concept named Joint Transmission and Detection Integrated Network (JOINT) forms the target platform for the investigations. A single service area of JOINT is considered, in which a number of mobile terminals is supported by a number of radio access points, which are connected to a central unit responsible for the signal processing. The modulation scheme of JOINT is OFDM. Pilot-aided channel estimation is considered, which has to be performed only in the uplink of JOINT, because the duplexing scheme TDD is applied. In this way, the complexity of the mobile terminals is reduced, because they do not need a channel estimator. Based on the signals received by the access points, the central unit estimates the channel transfer functions jointly for all mobile terminals. This is done by resorting to the a priori knowledge of the radiated pilot signals and by applying the technique of joint channel estimation, which is developed in the thesis. The quality of the gained estimates is judged by the degradation of their signal-to-noise ratio as compared to the signal-to-noise ratio of the respective estimates gained in the case of a single mobile terminal radiating its pilots. In the case of single-element receive antennas at the access points, said degradation depends solely on the structure of the applied pilots. In the thesis it is shown how by a proper design of the pilots the SNR degradation can be minimized. Besides using appropriate pilots, the performance of joint channel estimation can be further improved by the inclusion of additional a-priori information in the estimation process. An example of such additional information would be the knowledge of the directional properties of the radio channels. This knowledge can be gained if multi-element antennas are applied at the access points. Further, a-priori channel state information in the form of the power delay profiles of the radio channels can be included in the estimation process by the application of the minimum mean square error estimation principle for joint channel estimation. After having intensively studied the problem of joint channel estimation in JOINT, the thesis rounds itself by considering the impact of the unavoidable channel estimation errors on the performance of data estimation in JOINT. For the case of small channel estimation errors occurring due to the presence of noise at the access points, the performance of joint detection in the uplink and of joint transmission in the downlink of JOINT are investigated based on simulations. For the uplink, which utilizes joint detection, it is shown to which degree the bit error probability increases due to channel estimation errors. For the downlink, which utilizes joint transmission, channel estimation errors lead to an increase of the required transmit power, which can be quantified by the simulation results.