769 research outputs found
BAKTRAK: Backtracking drifting objects using an iterative algorithm with a forward trajectory model
The task of determining the origin of a drifting object after it has been
located is highly complex due to the uncertainties in drift properties and
environmental forcing (wind, waves and surface currents). Usually the origin is
inferred by running a trajectory model (stochastic or deterministic) in
reverse. However, this approach has some severe drawbacks, most notably the
fact that many drifting objects go through nonlinear state changes underway
(e.g., evaporating oil or a capsizing lifeboat). This makes it difficult to
naively construct a reverse-time trajectory model which realistically predicts
the earliest possible time the object may have started drifting. We propose
instead a different approach where the original (forward) trajectory model is
kept unaltered while an iterative seeding and selection process allows us to
retain only those particles that end up within a certain time-space radius of
the observation. An iterative refinement process named BAKTRAK is employed
where those trajectories that do not make it to the goal are rejected and new
trajectories are spawned from successful trajectories. This allows the model to
be run in the forward direction to determine the point of origin of a drifting
object. The method is demonstrated using the Leeway stochastic trajectory model
for drifting objects due to its relative simplicity and the practical
importance of being able to identify the origin of drifting objects. However,
the methodology is general and even more applicable to oil drift trajectories,
drifting ships and hazardous material that exhibit non-linear state changes
such as evaporation, chemical weathering, capsizing or swamping. The
backtracking method is tested against the drift trajectory of a life raft and
is shown to predict closely the initial release position of the raft and its
subsequent trajectory.Comment: 28 pages, 8 figures, 2 table
ChemicalDrift 1.0: an open-source Lagrangian chemical-fate and transport model for organic aquatic pollutants
A new model for transport and fate of chemicals in the aquatic environment is presented. The tool, named ChemicalDrift, is integrated into the open-source Lagrangian framework OpenDrift and is hereby presented for organic compounds. The supported chemical processes include the degradation, the volatilization, and the partitioning between the different phases that a target chemical can be associated with in the aquatic environment, e.g. dissolved, bound to suspended particles, or deposited to the seabed sediments. The dependencies of the chemical processes on changes in temperature, salinity, and particle concentration are formulated and implemented. The chemical-fate modelling is combined with wide support for hydrodynamics by the integration within the Lagrangian framework which provides e.g. advection by ocean currents, diffusion, wind-induced turbulent mixing, and Stokes drift generated by waves. A flexible interface compatible with a wide range of available metocean data is made accessible by the integration, making the tool easily adaptable to different spatio-temporal scales and fit for modelling of complex coastal regions. Further inherent capabilities of the Lagrangian approach include the seamless tracking and separation of multiple sources, e.g. pollutants emitted from ships or from rivers or water treatment plants. Specific interfaces to a dataset produced by a model of emissions from shipping and to an unstructured-grid oceanographic model of the Adriatic Sea are provided. The model includes a database of chemical parameters for a set of poly-aromatic hydrocarbons and a database of emission factors for different chemicals found in discharged waters from sulfur emission abatement systems in marine vessels. A post-processing tool for generating mean concentrations of a target chemical, over customizable spatio-temporal grids, is provided. Model development and simulation results demonstrating the functionalities of the model are presented, while tuning of parameters, validation, and reporting of numerical results are planned as future activities. The ChemicalDrift model flexibility, functionalities, and potential are demonstrated through a selection of examples, introducing the model as a freely available and open-source tool for chemical fate and transport that can be applied to assess the risks of contamination by organic pollutants in the aquatic environment
Assimilation of radar altimeter data in numerical wave models: an impact study in two different wave climate regions
An operational assimilation system incorporating significant wave height observations in high resolution numerical wave models is studied and evaluated. In particular, altimeter satellite data provided by the European Space Agency (ESA-ENVISAT) are assimilated in the wave model WAM which operates in two different wave climate areas: the Mediterranean Sea and the Indian Ocean. The first is a wind-sea dominated area while in the second, swell is the principal part of the sea state, a fact that seriously affects the performance of the assimilation scheme. A detailed study of the different impact is presented and the resulting forecasts are evaluated against available buoy and satellite observations. The corresponding results show a considerable improvement in wave forecasting for the Indian Ocean while in the Mediterranean Sea the assimilation impact is restricted to isolated areas
Ondansetron does not inhibit the analgesic effect of alfentanil
5-Hydroxytryptamine (5-HT) causes antinociception via presynaptic 5-HT3 (5-HT subtype 3) receptors on primary afferent nociceptive neurones in the spinal cord dorsal horn. Therefore, ondansetron (a 5-HT3 receptor antagonist) may increase the perception of a noxious stimulus or decrease the effects of concurrently administered antinociceptive drugs. Using a randomized, doubleblind, crossover study design, we have tested this hypothesis in eight healthy volunteers who, on three different days, received either ondansetron and placebo, ondansetron and alfentanil or placebo and alfentanil. Experimental pain was induced with heat, cold, mechanical pressure and electrical stimulation. Ondansetron alone did not change the response to any of the experimental tests, but alfentanil and the combination ondansetron- alfentanil significantly changed the response compared with ondansetron alone. There was no difference between alfentanil alone and the combination ondansetron-alfentanil. We conclude that ondansetron does not change the response to pressure, heat, cold or electrical nociceptive stimuli or antagonize the analgesic effect of alfentani
No peaks without valleys: The stable mass transfer channel for gravitational-wave sources in light of the neutron star-black hole mass gap
Gravitational-wave (GW) detections are starting to reveal features in the
mass distribution of double compact objects. The lower end of the black hole
(BH) mass distribution is especially interesting as few formation channels
contribute here and because it is more robust against variations in the cosmic
star formation than the high mass end. In this work we explore the stable mass
transfer channel for the formation of GW sources with a focus on the low-mass
end of the mass distribution. We conduct an extensive exploration of the
uncertain physical processes that impact this channel. We note that, for
fiducial assumptions, this channel reproduces the peak at in the GW-observed binary BH mass distribution remarkably
well, and predicts a cutoff mass that coincides with the upper edge of the
purported neutron star BH mass gap. The peak and cutoff mass are a consequence
of unique properties of this channel, namely (1) the requirement of stability
during the mass transfer phases, and (2) the complex way in which the final
compact object masses scale with the initial mass. We provide an analytical
expression for the cutoff in the primary component mass and show that this
adequately matches our numerical results. Our results imply that selection
effects resulting from the formation channel alone can provide an explanation
for the purported neutron star--BH mass gap in GW detections. This provides an
alternative to the commonly adopted view that the gap emerges during BH
formation.Comment: Accepted for publication in ApJ associated code is available at
https://github.com/LiekeVanSon/LowMBH_and_StableChanne
Feminist phenomenology and the woman in the running body
Modern phenomenology, with its roots in Husserlian philosophy, has been taken up and utilised in a myriad of ways within different disciplines, but until recently has remained relatively under-used within sports studies. A corpus of sociological-phenomenological work is now beginning to develop in this domain, alongside a longer standing literature in feminist phenomenology. These specific social-phenomenological forms explore the situatedness of lived-body experience within a particular social structure. After providing a brief overview of key strands of phenomenology, this article considers some of the ways in which sociological, and particularly feminist phenomenology, might be used to analyse female sporting embodiment. For illustrative purposes, data from an autophenomenographic project on female distance running are also included, in order briefly to demonstrate the application of phenomenology within sociology, as both theoretical framework and methodological approach
Action theory and the value of sport
I present a corrective to the formalist and conventionalist down-playing of physical actions in the understanding of the value of sport. I give a necessarily brief account of the Causal Theory of Action (CTA) and its implications for the normativity of actions. I show that the CTA has limitations, particularly in the case of failed or incomplete actions, and I show that failed or incomplete actions are constitutive of sport. This allows me to open up the space for another model, drawn from Aristotle, for failed or incomplete actions, conceived of as ‘doables’. This avoids some of the problems of the CTA. I explain the importance of difficult but doable actions, at which athletes often fail, and suggest that this establishes pro tanto value. Finally, I claim that this account of the actions that are constitutive of sport deepens our understanding of the value of sport as a whole
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