1,482 research outputs found
Research priorities relating to the debate on assisted dying: what do we still need to know? : Results of a modified Delphi technique
Objective To identify the main areas of uncertainty and subsequent research priorities to inform the ongoing debate around assisted dying. Design Two-round electronic modified Delphi consultation with experts and interested bodies. Setting and participants 110 groups and individuals interested in the subject of end of life care and/or assisted dying were approached to participate. Respondents included health and social care professionals, researchers, campaigners, patients, and carers predominately based in the UK. In the first round, the respondents were asked to propose high-priority research questions related to the topic of assisted dying. The collected research questions were then de-duplicated and presented to all respondents in a second round in which they could rate each question in terms of importance. Results 24% and 26% of participants responded to the first and second rounds respectively. Respondents suggested 85 unique research questions in the first round. These were grouped by theme and rated in terms of importance in the second round. Emergent themes were: Palliative care/symptom control; patient characteristics, experiences and decisions; families and carers; society and the general public; arguments for and against assisted dying; international experiences /analysis of existing national data; suicide; mental health, psychological and psychosocial considerations; comorbidities; the role of clinicians; environment and external influences; broader topics incorporating assisted dying; and moral, ethical and legal issues. Ten of the 85 proposed questions were rated as being important (≥7/10) by at least 50% of respondents. Conclusions Research questions with the highest levels of consensus were predominately concerned with understanding how and why people make end-of-life decisions, and which factors influence those decisions. Dissemination of these findings alongside a focused examination of the existing literature may be the most effective way to add evidence to the ongoing debate around assisted dying
Integrated electrical and mechanical modelling of integrated-full-electric-propulsion systems
Integrated Full Electric Propulsion (IFEP) systems are the subject of much interest at present. Current research is focused on analysing and improving aspects of subsystem and system performance. However, there is a great need to look more widely at the `multi-physics' problem of characterising the dynamic interactions between the electrical and mechanical systems. This paper will discuss the changing nature of modelling and simulation to aid research into IFEP systems, outlining the alternative angle taken by the Advanced Marine Electrical Propulsion Systems (AMEPS) project to characterise and investigate electrical-mechanical system interactions. The paper will describe this approach and highlight the unique challenges associated with the problem, discussing the suitable methods that will be adopted to address these challenges. Finally, an overview of the present and future research opportunities facilitated via the AMEPS project will be presented
A solution for improved simulation efficiency of a multi-domain marine power system model
Integrated Full Electric Propulsion (IFEP) marine power systems offer increased design flexibility and operational economy by supplying ship propulsion and service loads from a common electrical system. Predicting the behaviour of IFEP systems through simulation is important in reducing the design risk. However, the prevalence of power electronics and the potential for interaction between large electrical and mechanical systems introduce significant simulation challenges. This paper presents an integrated simulation tool, which brings together electrical, mechanical, thermal and hydrodynamic models, facilitating a holistic simulation capability. Approaches adopted for model validation and computational efficiency together with two case studies are discussed
The conventional wisdom of discharge arbitration outcomes and remedies: fact or fiction
This study examines some of the arbitration community’s commonly accepted beliefs about arbitration outcomes and remedies in employee discharge cases, with the findings revealing that some beliefs are likely fact, while others, perhaps, are fiction. With data from 1432 Minnesota discharge awards and 74 arbitrators who decided them, eight truisms are examined pertaining to the following: the frequency that arbitrators use Daugherty’s Seven Tests rubric to analyze case evidence and whether its use affects award outcomes; the distribution of varying quanta of required proof by arbitrators and how different quanta affects award outcomes; and the effect of employee job tenure and “last chance agreement” status on award outcomes. Using a subsample of “reinstatement with back pay” awards, we additionally examine the prevalence of arbitrators ordering how back pay should be computed and “retaining jurisdiction” over back pay cases
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Driving pockels cells using avalanche transistor pulsers
The purpose of this paper is to describe the current state of avalanche transistor based Pockels cell driver development at LLNL and to provide the reader with a set of useful design guidelines. A general description of the units is followed by a short section on the circuit design of avalanche transistor pulsers. A more detailed design guide is given. Techniques for delivering either {1/4} or {1/2} wave voltages to a Pockels cell are covered. Recently these units have been modified for use at repetition rates up to 10kHz. Operating at high repetition rates represents problems for both the driver and the Pockels Cell. Design solutions for the pulser are presented as well as discussion of Pockels cell acoustic resonance
Storm fronts over galaxy discs: Models of how waves generate extraplanar gas and its anomalous kinematics
The existence of partially ionized, diffuse gas and dust clouds at kiloparsec
scale distances above the central planes of edge-on, galaxy discs was an
unexpected discovery about 20 yrs ago. Subsequent observations showed that this
EDIG (extended or extraplanar diffuse interstellar gas) has rotation velocities
approximately 10-20% lower than those in the central plane, and have been hard
to account for. Here we present results of hydrodynamic models, with radiative
cooling and heating from star formation. We find that in models with star
formation generated stochastically across the disc an extraplanar gas layer is
generated as long as the star formation is sufficiently strong. However, this
gas rotates at nearly the same speed as the mid-plane gas. We then studied a
range of models with imposed spiral or bar waves in the disc. EDIG layers were
also generated in these models, but primarily over the wave regions, not over
the entire disc. Because of this partial coverage, the EDIG clouds move
radially, as well as vertically, with the result that observed kinematic
anomalies are reproduced. The implication is that the kinematic anomalies are
the result of three-dimensional motions when the cylindrical symmetry of the
disc is broken. Thus, the kinematic anomalies are the result of bars or strong
waves, and more face-on galaxies with such waves should have an asymmetric EDIG
component. The models also indicate that the EDIG can contain a significant
fraction of cool gas, and that some star formation can be triggered at
considerable heights above the disc midplane. We expect all of these effects to
be more prominent in young, forming discs, to play a role in rapidly smoothing
disc asymmetries, and in working to self-regulate disc structure.Comment: 30 pages, 9 figs., accepted for MNRAS with additional referee
correction
Critical Dynamics of a Vortex Loop Model for the Superconducting Transition
We calculate analytically the dynamic critical exponent measured in
Monte Carlo simulations for a vortex loop model of the superconducting
transition, and account for the simulation results. In the weak screening
limit, where magnetic fluctuations are neglected, the dynamic exponent is found
to be . In the perfect screening limit, . We relate
to the actual value of observable in experiments and find that , consistent with some experimental results
Higher-order modulations in the skyrmion-lattice phase of CuOSeO
Using small angle neutron scattering, we have investigated higher-order peaks
in the skyrmion-lattice phase of CuOSeO, in which two different
skyrmion lattices, SkX1 and SkX2, are known to form. For each skyrmion-lattice
phase, we observed two sets of symmetrically inequivalent peaks at the
higher-order-reflection positions with the indices and . Under
the condition where the SkX1 and SkX2 coexist, we confirmed the absence of the
scattering at positions combining reflections from the two phases,
indicating a significantly weak double-scattering component. Detailed analysis
of the peak profile, as well as the temperature and magnetic-field dependence
of the peak intensity, also supports the intrinsic higher-order modulation
rather than the parasitic double scattering. The two higher-order modulations
show contrasting magnetic-field dependence; the former increases as the
field is increased, whereas the latter decreases. This indicates that,
in CuOSeO, skyrmions are weakly distorted, and the distortion is
field-dependent in a way that the dominant higher-order modulation switches
from to under field. Monte Carlo simulations under sweeping
external magnetic field qualitatively reproduce the observed magnetic-field
dependence, and suggests that the higher-order modulations correspond to the
superlattices of weak swirlings appearing in the middle of the original
triangular-latticed skyrmions.Comment: 13 pages, 14 figure
Data shopping in an open marketplace: introducing the Ontogrator web application for marking up data using ontologies and browsing using facets
In the future, we hope to see an open and thriving data market in which users can find and select data from a wide range of data providers. In such an open access market, data are products that must be packaged accordingly. Increasingly, eCommerce sellers present heterogeneous product lines to buyers using faceted browsing. Using this approach we have developed the Ontogrator platform, which allows for rapid retrieval of data in a way that would be familiar to any online shopper. Using Knowledge Organization Systems (KOS), especially ontologies, Ontogrator uses text mining to mark up data and faceted browsing to help users navigate, query and retrieve data. Ontogrator offers the potential to impact scientific research in two major ways: 1) by significantly improving the retrieval of relevant information; and 2) by significantly reducing the time required to compose standard database queries and assemble information for further research. Here we present a pilot implementation developed in collaboration with the Genomic Standards Consortium (GSC) that includes content from the StrainInfo, GOLD, CAMERA, Silva and Pubmed databases. This implementation demonstrates the power of ontogration and highlights that the usefulness of this approach is fully dependent on both the quality of data and the KOS (ontologies) used. Ideally, the use and further expansion of this collaborative system will help to surface issues associated with the underlying quality of annotation and could lead to a systematic means for accessing integrated data resources
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