Les espaces de l'halieutique

L'objet de l'article est la présentation d'un modèle spatialisé forcé par l'environnement de la population de thons albacore de l'Atlantique. Le modèle s'appuie sur des relations non linéaires estimées par modélisation additive généralisée (GAM) caractérisant, d'une part les préférences environnementales des albacores et d'autre part leur capturabilité à différents engins. Formulées analytiquement, les relations caratéristiques des préférences environnementales des albacores sont utilisées pour forcer un modèle d'advection-diffusion-réaction des albacores. Egalement formulées analytiquement, les relations caractérisant la capturabilité à différents engins permettent d'envisager l'ajustement du modèle aux captures observées. Le modèle permet de simuler la répartition des animaux en fonction de l'environnement océanique et des captures réelles. A travers différentes simulations, on s'intéresse au phénomène de surexploitation locale des thons adultes dans le Golfe de Guinée. La très grande ampleur du phénomène observée dans les simulations est discutée. (Résumé d'auteur

Combined longitudinal and transverse multiturn injection in a heavy ion accumulator

After the completion of the antiproton programme, the Low-Energy Antiproton Ring (LEAR) will be able to serve as an accumulator ring for heavy ions in the injector chain of the Large Hadron Collider (LHC). For injection and accumulation, a scheme is proposed, which exploits both the longitudinal and the transverse acceptances of LEAR. Compared to a classical multiturn injection, a factor 3 to 5 in intensity is gained for the set of parameters pertaining to this case; furthermore emittances, which are more favorable for electron cooling, result. The principle is outlined and computer simulations are presented

Optics for the Antiproton Decelerator at CERN

The former Antiproton Collector (AC) at CERN has been transformed into an Antiproton Decelerator (AD) to supply high quality antiproton beams with a momentum of 100 MeV/c (kinetic energy of 5.3 MeV) [1]. As in AC, an-tiprotons are injected at 3.57 GeV/c and cooled by stochastic cooling system. To facilitate the deceleration and to prepare a small emittance beam for the experiments, stochastic cooling at 2 GeV/c and electron cooling at 300 MeV/c and 100 MeV/c has been incorporated. The required optics modifications are described and the results of machine commissioning are discussed

Front face fluorescence spectroscopy and visible spectroscopy coupled with chemometrics have the potential to characterise ripening of Cabernet Franc grapes

The potential of front-face spectroscopy for grape ripening dates discrimination was investigated on Cabernet Franc grapes from three parcels located on the Loire Valley and for six ripening dates. The 18 batches were analysed by front-face fluorescence spectroscopy and visible spectroscopy. The excitation spectra (250–310 nm, emission wavelength = 350 nm) were characterised by a shoulder at 280 nm. Grapes spectra were classified by factorial discriminant analysis (FDA). Ripening dates were well predicted by fluorescence spectra: grapes before veraison were separated from grapes after veraison and almost every ripening date was identified. The common spectroscopic space obtained by CCSWA showed that wavelengths corresponding to anthocyanin absorption in the visible were correlated to fluorescence wavelengths around the starting and ending points of the shoulder (263 and at 292 nm). Then, regression models were investigated to predict total soluble solids (TSS), total acidity, malvidin-3G, total anthocyanins and total phenolics content from visible and fluorescence spectra. To predict technological indicators (TSS and total acidity), the PLS model with visible spectra (RMSECV = 0.82°Brix or 0.96 g L−1 H2SO4) was better than those with fluorescence one (RMSECV = 1.39°Brix or 2.06 g L−1 H2SO4). For malvidin-3G and total anthocyanins, all R c 2 and R cv 2 were superior to 0.90 and RMSECV were low. Visible and fluorescence spectroscopies succeeded in predicting anthocyanin content. Concerning total phenolic, the best prediction was provided by fluorescence spectroscopy

Time-evolving measures and macroscopic modeling of pedestrian flow

This paper deals with the early results of a new model of pedestrian flow, conceived within a measure-theoretical framework. The modeling approach consists in a discrete-time Eulerian macroscopic representation of the system via a family of measures which, pushed forward by some motion mappings, provide an estimate of the space occupancy by pedestrians at successive time steps. From the modeling point of view, this setting is particularly suitable to treat nonlocal interactions among pedestrians, obstacles, and wall boundary conditions. In addition, analysis and numerical approximation of the resulting mathematical structures, which is the main target of this work, follow more easily and straightforwardly than in case of standard hyperbolic conservation laws, also used in the specialized literature by some Authors to address analogous problems.Comment: 27 pages, 6 figures -- Accepted for publication in Arch. Ration. Mech. Anal., 201

Is transiliac bone biopsy a painful procedure ?

Despite an increased availability of non-invasive procedures to assess bone mass, histological examination of undecalcified transiliac bone biopsies remains a very valuable tool in the diagnosis of metabolic or malignant bone disorders. Nonetheless, clinicians are sometimes reluctant to perform this “invasive” examination, arguing that it might be a painful procedure. The aim of our study was to evaluate pain and anxiety described by patients in the months following the biopsy and to characterize potential early or late side effects. A single interviewer conducted a phone survey (19 items questionnaire) in 117 patients in whom a bone biopsy had been performed by two experienced physicians, with the same material and similar anesthetic and technical procedure. The topics covered pain during or after the biopsy, anxiety, comparison of other potentially painful procedures, early or late side effects as well as global evaluation by the patients. Bone biopsy was judged as non-painful by almost 70% of patients; some discomfort was present in 25% in the following days. The procedure was described as similar as or less painful than bone marrow aspiration, venipuncture or tooth extraction. About 90% of the patients estimated that it was a quite bearable diagnostic procedure. Side effects were not serious. About 7% remembered a vasovagal episode, 47% of local bruising in the following days. There was no report of hematoma or infection. In experienced hands and adapted trephine, transiliac bone biopsy is a safe procedure that brings invaluable information in bone disorders

Pedestrian flows in bounded domains with obstacles

In this paper we systematically apply the mathematical structures by time-evolving measures developed in a previous work to the macroscopic modeling of pedestrian flows. We propose a discrete-time Eulerian model, in which the space occupancy by pedestrians is described via a sequence of Radon positive measures generated by a push-forward recursive relation. We assume that two fundamental aspects of pedestrian behavior rule the dynamics of the system: On the one hand, the will to reach specific targets, which determines the main direction of motion of the walkers; on the other hand, the tendency to avoid crowding, which introduces interactions among the individuals. The resulting model is able to reproduce several experimental evidences of pedestrian flows pointed out in the specialized literature, being at the same time much easier to handle, from both the analytical and the numerical point of view, than other models relying on nonlinear hyperbolic conservation laws. This makes it suitable to address two-dimensional applications of practical interest, chiefly the motion of pedestrians in complex domains scattered with obstacles.Comment: 25 pages, 9 figure

Stability of cooled beams

Because of their high density together with extremely small spreads in betatron frequency and momentum, cooled beams are very vulnerable to incoherent and coherent space-charge effects and instabilities. Moreover, the cooling system itself, i.e. the electron beam in the case of e-cooling, presents large linear and non-linear 'impedances' to the circulating ion beam, in addition to the usual beam-environment coupling impedances of the storage ring. Beam blow-up and losses, attributed to such effects, have been observed in virtually all the existing electron cooling rings. The adverse effects seem to be more pronounced in those rings, like CELSIUS, that are equipped with a cooler capable of reaching the presently highest energy (100 to 300 keV electrons corresponding to 180 to 560 MeV protons). The stability conditions will be revisited with emphasis on the experience gained at LEAR. It will be argued that for all present coolers, three conditions are necessary (although probably not sufficient) for the stability of intense cold beams: (i) operation below transition energy, (ii) active damping to counteract coherent instability, and (iii) careful control of the e-beam neutralisation. An extrapolation to the future 'medium energy coolers', planned to work for (anti)protons of several GeV, will also be attempted