5,225 research outputs found
Deer in the headlights: Towards an understanding of how journalism students engage with complex academic research methods modules
Journalism is at a crossroad. The rise of populist governments with accusations of fake news against what has always been considered to be Fourth Estate journalism means journalists face significant challenges to produce compelling, truthful, and accurate news at a time when reality is altered by those who do not agree with what journalists say. The current journalistic climate means journalists must move beyond the lexical meanings of what it means to be a journalist to a more critical one where they have to verify and analyse the news for the audience. One of the key ways in which journalists can respond to significant challenges to practice is by becoming more critically aware practitioners. A significant step in that direction occurs in journalism programmes at the university level where students are required to produce a critically researched dissertation as part of their conditions of earning a degree. However, with journalism being a traditionally vocational programme, challenges arise because students have difficulties drawing correlations between academic research and journalism practice. Our research aims to understand how students engage with academic research method modules. Based on our findings, we argue that students can use interactive learning methods and online resources to help engage with more complex and unfamiliar content
Male-biased operational sex ratios and the Viking phenomenon : an evolutionary anthropological perspective on Late Iron Age Scandinavian raiding
Acknowledgements We would like to thank Laura Whitehouse, John Carman, Oliver Grimm, Julie Lund, BjĆørnar Olsen, two anonymous reviewers, and the editor for their comments and suggestions on earlier versions of this paper. We also thank Alex Woolf for providing us with a copy of his forthcoming article on the Vikings in Ireland. Lastly, we are grateful to Luke Glowacki, Shane McFarlane, and Ryan Schacht for their insights about raiding and OSRs. Needless to say, all remaining errors are our own. Funding BR and MC are supported by the Social Sciences and Humanities Research Council of Canada through a Partnership Grant (895-2011-1009) awarded to the Cultural Evolution of Religion Research Consortium (www.ubc/hecc/cerc). MC is also supported by the Canada Research Chairs Program, the Canada Foundation for Innovation, the British Columbia Knowledge Development Fund, and Simon Fraser University. NP is supported by a Swedish Research Council grant for "The Viking Phenomenon" project (2015-00466).Peer reviewedPublisher PD
Opportunities for greater Lincolnshire's supply chains: summary report
A study of the key sector supply chains across Lincolnshire and the barriers and opportunities for growth
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A Generalized Method for Predictive Simulation-Based Lower Limb Prosthesis Design
Lower limb prostheses are designed to replace the functions and form of the missing biological anatomy. These functions are hypothesized to improve user outcome measures which are negatively affected by receiving an amputation ā such as metabolic cost of transport, preferred walking speed, and perceived discomfort during walking. However, the effect of these design functions on the targeted outcome measures is highly variable, suggesting that these relationships are not fully understood. Biomechanics simulation and modeling tools are increasingly capable of analyzing the effects of a design on the resulting user gait. In this work, prothesis-aided gait is optimized in simulation to reduce both muscle effort and peak loads on the residual limb using a generalized prosthesis model. Compared to a traditional revolute powered ankle joint model, a two degree-of freedom generalized model reduced muscle activations by 50% and peak loads by 15%. Simulated prosthesis behaviors corresponding to the optimal gait patterns were translated into a two degree-of-freedom ankle-foot prosthesis design with powered bidirectional linear translation and plantarflexion. The prototype is capable of delivering up to 171 N-m of plantarflexion torque and 499 N of translation force, with 15Ā° dorsi-/35Ā° plantarflexion and 10 cm translation range of motion. The mass and height of the ankle-foot are 2.29 kg and 19.5 cm, respectively. The mass of the entire system including the wearable offboard system is 8.58 kg. This platform is designed to emulate the behavior of the simulated prosthesis, as well as be configurable to emulate alternate behaviors obtained from simulations with different optimization objectives. The prototype is controlled to replicate simulated walking patterns using a high level finite state controller, mid-level stiffness controller, and low level load controller. Closed loop load control has bandwidth of 15 Hz in translation and 7.2 Hz in flexion. Load tracking during walking with a single able-bodied human subject ranges from 93 to 159 N in translation and 4.6 to 21.3 N-m in flexion. The contribution of this work is to provide a framework for predictive simulation-based prosthesis design, evidence of its practical implementation, and the experimental tools to validate future predictive simulation studies
Some challenges and extensions to Wardās framework for future synaesthesia research
In his position paper on the future of synaesthesia research, Wardās (2021) central argument is that the tendency to develop synaesthesia is just one consequence of a more general neurodevelopmental profile. He argues that the profile underlies many of the ways in which synaesthetes perform differently from controls in various mental tasks, even if there are still a few performance differences that are caused directly by synaesthesia. The profile impacts ālifestyle choicesā such as careers. It is associated with an elevated tendency for autism and anxiety. Ward summarizes empirical evidence which suggests that this profile is shared by non-synaesthete near-relatives and appears strongest in those synaesthetes who experience many synaesthetic variants. These claims bring together much of the recent empirical work on synaesthesia and set out a useful scientific agenda.
Wardās introduction emphasizes three points: (1) Synaesthesia is dichotomous ā i.e., the presence versus absence of synaesthesia in any individual is bimodally distributed. You have it or you donāt, and there is no gradation. (2) Synaesthesia arises in a manner that is āprobabilistic rather than deterministicā. (3) Research should be less concerned with synaesthesia itself, and more focused on the underlying neurodevelopmental profile. Here I present some challenges or extensions to these points (Italicized text in quotes is verbatim text from Wardās paper.)publishedVersio
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A Haptic Surface Robot Interface for Large-Format Touchscreen Displays
This thesis presents the design for a novel haptic interface for large-format touchscreens. Techniques such as electrovibration, ultrasonic vibration, and external braked devices have been developed by other researchers to deliver haptic feedback to touchscreen users. However, these methods do not address the need for spatial constraints that only restrict user motion in the direction of the constraint. This technology gap contributes to the lack of haptic technology available for touchscreen-based upper-limb rehabilitation, despite the prevalent use of haptics in other forms of robotic rehabilitation. The goal of this thesis is to display kinesthetic haptic constraints to the touchscreen user in the form of boundaries and paths, which assist or challenge the user in interacting with the touchscreen. The presented prototype accomplishes this by steering a single wheel in contact with the display while remaining driven by the user. It employs a novel embedded force sensor, which it uses to measure the interaction force between the user and the touchscreen. The haptic response of the device is controlled using this force data to characterize user intent. The prototype can operate in a simulated free mode as well as simulate rigid and compliant obstacles and path constraints. A data architecture has been created to allow the prototype to be used as a peripheral add-on device which reacts to haptic environments created and modified on the touchscreen. The long-term goal of this work is to create a haptic system that enables a touchscreen-based rehabilitation platform for people with upper limb impairments
Identification by Raman spectroscopy of MgāFe content of olivine samples after impact at 6kms?1 onto aluminium foil and aerogel: In the laboratory and in Wild-2 cometary samples
AbstractOlivine, (Mg, Fe)2[SiO4], is a common mineral in extraterrestrial materials, whose MgāFe content varies from the end-members Forsterite (Mg2SiO4: denoted āFoā) to Fayalite (Fe2SiO4: denoted āFaā), together with minor quantities of Ca, Cr, Mn and Ni. Olivine is readily identified by Raman spectroscopy, and the MgāFe content can be obtained by precise measurements of the position of the two strongest Raman peaks. Here we show that this is not only true for pristine and highly crystalline olivine, but also for grains which have undergone high pressure shock processing during hypervelocity impact. We demonstrate that there are subtle changes to the Raman spectra in grains impacted at 6.1kmsā1 onto aluminium foil and into low density aerogel. We quantify these changes, and also show that if no correction is made for the impact effects, the Fe:Mg molar ratio of the olivine can be significantly misinterpreted. This study was stimulated by NASAās Stardust mission to comet 81P/Wild-2, since freshly ejected cometary dust particles were collected (via impact) onto aluminium foil and into aerogel cells at 6.1kmsā1 and these samples are being investigated with Raman spectroscopy. We identify the residue in one Stardust impact crater on aluminium foil as arising from an olivine with a composition of Fo97ā100
System hazards in managing laboratory test requests and results in primary care: medical protection database analysis and conceptual model
Objectives To analyse a medical protection organisation's database to identify hazards related to general practice systems for ordering laboratory tests, managing test results and communicating test result outcomes to patients. To integrate these data with other published evidence sources to inform design of a systems-based conceptual model of related hazards.
Design A retrospective database analysis.
Setting General practices in the UK and Ireland.
Participants 778 UK and Ireland general practices participating in a medical protection organisation's clinical risk self-assessment (CRSA) programme from January 2008 to December 2014.
Main outcome measures Proportion of practices with system risks; categorisation of identified hazards; most frequently occurring hazards; development of a conceptual model of hazards; and potential impacts on health, well-being and organisational performance.
Results CRSA visits were undertaken to 778 UK and Ireland general practices of which a range of systems hazards were recorded across the laboratory test ordering and results management systems in 647 practices (83.2%). A total of 45 discrete hazard categories were identified with a mean of 3.6 per practice (SD=1.94). The most frequently occurring hazard was the inadequate process for matching test requests and results received (n=350, 54.1%). Of the 1604 instances where hazards were recorded, the most frequent was at the āpostanalytical test stageā (n=702, 43.8%), followed closely by ācommunication outcomes issuesā (n=628, 39.1%).
Conclusions Based on arguably the largest data set currently available on the subject matter, our study findings shed new light on the scale and nature of hazards related to test results handling systems, which can inform future efforts to research and improve the design and reliability of these systems
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