612 research outputs found
Long-term analysis of stochastic θ-methods for damped stochastic oscillators
We analyze long-term properties of stochastic θ-methods for damped linear stochastic oscillators. The presented a-priori analysis of the error in the correlation matrix allows to infer the long-time behaviour of stochastic θ-methods and their capability to reproduce the same long-term features of the continuous dynamics. The theoretical analysis is also supported by a selection of numerical experiments
Nearly conservative multivalue methods with extended bounded parasitism
The paper is focused on the analysis of parasitism for multivalue numerical methods intended as geometric numerical integrators for Hamiltonian problems. In particular, the main topic is the design of multivalue numerical methods whose parasitic components remain bounded over certain time intervals, opening the path to the development of nearly conservative multivalue methods able to guarantee a control of parasitism in the long time. The analysis of parasitism as well as the development of the corresponding methods is the core of the treatise. The effectiveness of the approach is also confirmed on selected Hamiltonian problems
El análisis del cuerpo en contextos festivo-rituales: el caso del pogo
Fil: Citro, Silvia V. Universidad de Buenos Aires. Facultad de Filosofía y Letras; Argentina.Fil: Citro, Silvia V. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina.22 ref.En este trabajo presentamos los resultados de una investigación sobre las actuaciones coporales en contextos festivo-rituales, partiendo de algunos desarrollos recientes en la antropología del cuerpo que plantean una crítica al llamado "enfoque semiótico" o "textualista". En la primera parte realizamos una síntesis del marco analítico elaborado como alternativa a este paradigma. Los comportamientos kinésicos son conceptualizados como prácticas diferenciables que forman parte de distintos contextos sociales y son concebidos desde una dimensión procesual, fruto de una historia y con distintos efectos en la praxis social. En la segunda parte, analizamos desde este marco un caso en particular: una forma de baile denominada "pogo" que es practicada en un estilo de recitales de rock nacional característicos de los '90. A través de este análisis intentaremos demostrar que si bien los comportamientos kinésicos en este tipo de prácticas pueden ser generados en torno a ciertas representaciones sociales, así como pueden inducir diversos patrones representacionales, ellos, en sí mismos, no siempre pueden ser tratados como representaciones, y, sobre todo, provocan cambios en las experiencias de los sujetos en movimiento que nuestro análisis antropológico de lo corporal no debería pasar por alto
Re Citro [1991] Ch 142, Court of Appeal
Essential Cases: Land Law provides a bridge between course textbooks and key case judgments. This case document summarizes the facts and decision in Re Citro [1991] Ch 142, Court of Appeal. The document also includes supporting commentary from author Aruna Nair.</p
Global stability and sensitivity analysis of boundary-layer flows past a hemispherical roughness element
We study the full three-dimensional instability mechanism past a hemispherical roughness element immersed in a laminar Blasius boundary layer. The inherent threedimensional flow pattern beyond the Hopf bifurcation is characterized by coherent vortical structures usually called hairpin vortices. Direct numerical simulation results are used to analyze the formation and the shedding of hairpin vortices inside the shear layer. The first bifurcation is investigated by global-stability tools. We show the spatial structure of the linear direct and adjoint global eigenmodes of the linearized Navier-Stokes equations and use the structural-sensitivity field to locate the region where the instability mechanism acts. The core of this instability is found to be symmetric and spatially localized in the region immediately downstream of the roughness element. The effect of the variation of the ratio between the obstacle height k and the boundary layer thickness delta(*)(k) is also considered. The resulting bifurcation scenario is found to agree well with previous experimental investigations. A limit regime for k/.5k* < 1.5 is attained where the critical Reynolds number is almost constant, Rek 580. This result indicates that, in these conditions, the only important parameter identifying the bifurcation is the unperturbed (i.e., without the roughness element) velocity slope at the wall
Sensitivity analysis and passive control of the secondary instability in the wake of a cylinder
The stability properties of selected flow configurations, usually denoted as base flows, can be significantly altered by small modifications of the flow, which can be caused, for instance, by a non-intrusive passive control. This aspect is amply demonstrated in the literature by ad hoc sensitivity studies which, however, focus on configurations characterised by a steady base flow. Nevertheless, several flow configurations of interest are characterised by a time-periodic base flow. To this purpose, we propose here an original theoretical framework suitable to quantify the effects of base-flow variations in the stability properties of saturated time-periodic limit cycles. In particular, starting from a Floquet analysis of the linearised Navier–Stokes equations and using adjoint methods, it is possible to estimate the variation of a selected Floquet exponent caused by a generic structural perturbation of the base-flow equations. This link is expressed concisely using the adjoint operators coming from the analysis, and the final result, when applied to spatially localised disturbances, is used to build spatial sensitivity and control maps. These maps identify the regions of the flow where the placement of a infinitesimal small object produces the largest effect on the Floquet exponent and may also provide a quantification of this effect. Such analysis brings useful insights both for passive control strategies and for further characterising the investigated instability. As an example of application, the proposed analysis is applied here to the three-dimensional flow instabilities in the wake past a circular cylinder. This is a classical problem which has been widely studied in the literature. Nevertheless, by applying the proposed analysis we derive original results comprising a further characterisation of the instability and related control maps. We finally show that the control maps obtained here are in very good agreement with control experiments documented in the literature
External acoustic control of the laminar vortex shedding past a bluff body
This paper deals with the active control of the compressible flow past a bluff-body by means of external acoustic sources. We successfully suppress the transition leading to the von-Karman vortex street. The derived adjoint-based framework allows the determination of the corresponding acoustic sources for generic bluff-body shapes. In particular, we determine the optimal spatial position for the control, i.e. where the acoustic source is most efficient, and the associated temporal signal. For the proposed example, a two-dimensional cylindrical body, the resulting acoustic actuation is anti-symmetric and harmonic. We found that the limits of our control approach are related to the limits of linear acoustics. The methodology and the results proposed in this paper can be used to design a control strategy coupled with a continuation procedure able to obtain the unstable solutions beyond the critical threshold
Recreational drugs: a new health hazard for patients with concomitant chronic liver diseases.
Optimal explicit Runge-Kutta methods for compressible Navier-Stokes equations
We focus our attention on the numerical simulations of compressible flows obtained by using Finite Difference in time /Finite Element in space approximation. In particular, we determine optimal explicit Runge-Kutta methods capable to maximize the stability features of the resulting numerical scheme. Two different regimes characterized by low and moderate Mach numbers have been taken into account. In the former regime, we have determined an explicit Runge-Kutta method of fourth order that is approximately 15% more efficient than classical ERK(4,4) schemes. For moderate Mach numbers, Ma=0.4, and transitional Reynolds numbers we have determined ERK schemes that outperform classic
ERK(3,3) or ERK(4,4). Optimal ERK have a reduced CFL approximatively four or five times larger than classical ones. These optimized ERK schemes are then promising for the study of transitional flows for global stability or transient growth analyses
Erratum to: Error sensitivity to refinement: a criterion for optimal grid adaptation (Theoretical and Computational Fluid Dynamics, (2017), 31, 5-6, (595-605), 10.1007/s00162-016-0413-x)
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