79 research outputs found

    SUPER: Towards the Use of Social Sensors for Security Assessments and Proactive Management of Emergencies

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    Social media statistics during recent disasters (e.g. the 20 million tweets relating to 'Sandy' storm and the sharing of related photos in Instagram at a rate of 10/sec) suggest that the understanding and management of real-world events by civil protection and law enforcement agencies could benefit from the effective blending of social media information into their resilience processes. In this paper, we argue that despite the widespread use of social media in various domains (e.g. marketing/branding/finance), there is still no easy, standardized and effective way to leverage different social media streams -- also referred to as social sensors -- in security/emergency management applications. We also describe the EU FP7 project SUPER (Social sensors for secUrity assessments and Proactive EmeRgencies management), started in 2014, which aims to tackle this technology gap

    Preliminary studies on the biting flies (Nematocera-brachycera) attacking cattle in Newfoundland

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    The seasonal occurrence and abundance, host-seeking activity, and blood-feeding behaviour of the species of biting flies attacking cattle in Newfoundland was investigated using a newly designed cattle-baited trap. A Trueman-McIver Segregating CO₂ trap was also employed to provide additional information during times when the cattle-baited trap was not in operation. -- A total of 19,682 female biting flies (26 species) were collected in the cattle-baited (11,407) and CO₂ (8, 275) traps, from May 25 to September 16, 1982. Simuliids were the most abundant family collected (cattle-baited trap = 10,747; CO₂ trap = 7773) comprising 94.1% of the total season’s catch. The remaining families of biting flies, mosquitoes, tabanids and sand flies, contributed little to the population, comprising only 5.9% of the total season’s catch. Sequentially mosquitoes (Family: Culicidae) and black flies (Family: Simuliidae) were the first to appear followed by the sand flies (Family: Ceratopogonidae) and finally the tabanids (Family: Tabanidae). -- Prosimulium mixtum, most common in June and S. venustum/verecundum complex, most numerous in July, were the two most abundant black flies collected and the only two biting flies taken in numbers sufficient to adequately study host-seeking activity and blood-feeding behaviour; limited information remaining species was obtained. The host-seeking activity of P. mixtum was usually restricted to the morning and afternoon, whereas S. venustum/verecundum complex was most active in the morning and evening. Preliminary results suggest that although the host-seeking activity of P. mixtum and S. venustum/verecundum complex was greatly suppressed by wind speeds, temperatures, saturation deficiences and light intensities outside of certain ranges, such factors do not account for most of the variation observed in the number of these simuliids collected in the cattle-baited trap. -- Mean temperature over the previous 24 hours appeared to greatly influence the blood-feeding behaviour of both groups, with changes in temperature showing a strong positive relation with changes in the proportion of blood-feds taken in the cattle-baited trap. The present temperature, mean temperature over the previous 24 to 48 hours, and light intensity might have had some influence on blood-feeding, but saturation deficit and wind speed appeared to have none. -- The cattle-baited trap designed for this study is an effective method for the study of host-seeking activity and blood feeding behaviour of at least simuliids under field conditions

    The SAVE Concept: Sustainability Assessment & Enhancement Through Novel Visualisation

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    The SAVE framework promotes an integrated and iterative approach to inclusive decision making for Sustainable Development, involving three inter-related components; Assessment, Visualisation and Enhancement. The assessment and enhancement components are highly interrelated and must commence together at the visioning stages of projects. This enhancement component requires the development of a full understanding of the ways in which decisions are made on a project in order that the information needs of stakeholder are understood. The enhancement component then ensures that due consideration is given by decision makers to potential impacts on the direction of the assessment indicators at key decisions points throughout the project development stages. At the heart of the framework is a simulation and visualisation tool that has been developed to enable all stakeholders, regardless of background or experience, to understand, interact with and influence decisions made on the sustainability of urban and rural design. This tool takes the unique approach of combining 3D interactive and immersive technologies with computer modelling to present stakeholders with an interactive virtual development. This paper describes a number of case studies where the SAVE Framework has already been applied and outlines its further development and future application

    In situ studies of algal biomass in relation to physicochemical characteristics of the Salt Plains National Wildlife Refuge, Oklahoma, USA

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    This is the first in a series of experiments designed to characterize the Salt Plains National Wildlife Refuge (SPNWR) ecosystem in northwestern Oklahoma and to catalogue its microbial inhabitants. The SPNWR is the remnant of an ancient ocean, encompassing ~65 km(2 )of variably hypersaline flat land, fed by tributaries of the Arkansas River. Relative algal biomass (i.e., chlorophyll concentrations attributed to Chlorophyll-a-containing oxygenic phototrophs) and physical and chemical parameters were monitored at three permanent stations for a one-year period (July 2000 to July 2001) using a nested block design. Salient features of the flats include annual air temperatures that ranged from -10 to 40°C, and similar to other arid/semi-arid environments, 15–20-degree daily swings were common. Shade is absent from the flats system; intense irradiance and high temperatures (air and sediment surface) resulted in low water availability across the SPNWR, with levels of only ca. 15 % at the sediment surface. Moreover, moderate daily winds were constant (ca. 8–12 km h(-1)), sometimes achieving maximum speeds of up to 137 km h(-1). Typical of freshwater systems, orthophosphate (PO(4)(3-)) concentrations were low, ranging from 0.04 to <1 μM; dissolved inorganic nitrogen levels were high, but spatially variable, ranging from ca. 250–600 μM (NO(3)(- )+ NO(2)(-)) and 4–166 μM (NH(4)(+)). Phototroph abundance was likely tied to nutrient availability, with high-nutrient sites exhibiting high Chl-a levels (ca. 1.46 mg m(-2)). Despite these harsh conditions, the phototrophic microbial community was unexpectedly diverse. Preliminary attempts to isolate and identify oxygenic phototrophs from SPNWR water and soil samples yielded 47 species from 20 taxa and 3 divisions. Our data indicate that highly variable, extreme environments might support phototrophic microbial communities characterized by higher species diversity than previously assumed

    SUPER: Towards the use of Social Sensors for Security Assessments and Proactive Management of Emergencies

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    ABSTRACT Social media statistics during recent disasters (e.g. the 20 million tweets relating to &apos;Sandy&apos; storm and the sharing of related photos in Instagram at a rate of 10/sec) suggest that the understanding and management of real-world events by civil protection and law enforcement agencies could benefit from the effective blending of social media information into their resilience processes. In this paper, we argue that despite the widespread use of social media in various domains (e.g. marketing/branding/finance), there is still no easy, standardized and effective way to leverage different social media streams -also referred to as social sensors -in security/emergency management applications. We also describe the EU FP7 project SUPER (Social sensors for secUrity assessments and Proactive EmeRgencies management), started in 2014, which aims to tackle this technology gap

    Radiation pressure-driven plasma surface dynamics in ultra-intense laser pulse interactions with ultra-thin foils

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    The dynamics of the plasma critical density surface in an ultra-thin foil target irradiated by an ultra-intense ( ∼ 6 × 1020 Wcm−2 ) laser pulse is investigated experimentally and via 2D particle-in- cell simulations. Changes to the surface motion are diagnosed as a function of foil thickness. The experimental and numerical results are compared with hole-boring and light-sail models of radi- ation pressure acceleration, to identify the foil thickness range for which each model accounts for the measured surface motion. Both the experimental and numerical results show that the onset of relativistic self-induced transparency, in the thinnest targets investigated, limits the velocity of the critical surface, and thus the e ff ectiveness of radiation pressure acceleration

    Influence of laser polarization on collective electron dynamics in ultraintense laser-foil interactions

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    The collective response of electrons in an ultrathin foil target irradiated by an ultraintense laser pulse is investigated experimentally and via 3D particle-in-cell simulations. It is shown that if the target is sufficiently thin that the laser induces significant radiation pressure, but not thin enough to become relativistically transparent to the laser light, the resulting relativistic electron beam is elliptical, with the major axis of the ellipse directed along the laser polarization axis. When the target thickness is decreased such that it becomes relativistically transparent early in the interaction with the laser pulse, diffraction of the transmitted laser light occurs through a so called 'relativistic plasma aperture', inducing structure in the spatial-intensity profile of the beam of energetic electrons. It is shown that the electron beam profile can be modified by variation of the target thickness and degree of ellipticity in the laser polarization

    Exercise therapy in adults with serious mental illness: a systematic review and meta-analysis

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    Background: Individuals with serious mental illness are at a higher risk of physical ill health. Mortality rates are at least twice those of the general population with higher levels of cardiovascular disease, metabolic disease, diabetes, and respiratory illness. Although genetics may have a role in the physical health problems of these patients, lifestyle and environmental factors such as levels of smoking, obesity, poor diet, and low levels of physical activity also play a prominent part.&lt;p&gt;&lt;/p&gt; Objective: To conduct a systematic review and meta-analysis of randomised controlled trials comparing the effect of exercise interventions on individuals with serious mental illness.&lt;p&gt;&lt;/p&gt; Methods: Searches were made in Ovid MEDLINE, Embase, CINAHL, PsycINFO, Biological Abstracts on Ovid, and The Cochrane Library (January 2009, repeated January 2013) through to February 2013.&lt;p&gt;&lt;/p&gt; Results: Eight RCTs were identified in the systematic search. Six compared exercise versus usual care. One study assessed the effect of a cycling programme versus muscle strengthening and toning exercises. The final study compared the effect of adding specific exercise advice and motivational skills to a simple walking programme. Exercise programmes were noted by their heterogeneity in terms of the type of exercise intervention, setting, and outcome measures. The review found that exercise improved levels of exercise activity (n=13, standard mean difference [SMD] 1.81, CI 0.44 to 3.18, p = 0.01). No beneficial effect was found on negative (n = 84, SMD = -0.54, CI -1.79 to 0.71, p = 0.40) or positive symptoms of schizophrenia (n = 84, SMD = -1.66, CI -3.78 to 0.45, p = 0.12). No change was found on body mass index compared with usual care (n= 151, SMD = -0.24, CI -0.56 to 0.08, p = 0.14), or body weight (n = 77, SMD = 0.13, CI -0.32 to 0.58, p = 0.57). No beneficial effect was found on anxiety and depressive symptoms (n = 94, SMD = -0.26, CI -0.91 to 0.39, p = 0.43), or quality of life in respect of physical and mental domains. One RCT measured the effect of exercise on exercise intensity, attendance, and persistence at a programme. No significant effect was found on these measures.&lt;p&gt;&lt;/p&gt; Conclusions: This systematic review showed that exercise therapies can lead to a modest increase in levels of exercise activity but overall there was no noticeable change for symptoms of mental health, body mass index, and body weight.&lt;p&gt;&lt;/p&gt

    Towards optical polarization control of laser-driven proton acceleration in foils undergoing relativistic transparency

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    Control of the collective response of plasma particles to intense laser light is intrinsic to relativistic optics, the development of compact laser-driven particle and radiation sources, as well as investigations of some laboratory astrophysics phenomena. We recently demonstrated that a relativistic plasma aperture produced in an ultra-thin foil at the focus of intense laser radiation can induce diffraction, enabling polarization-based control of the collective motion of plasma electrons. Here we show that under these conditions the electron dynamics are mapped into the beam of protons accelerated via strong charge-separation-induced electrostatic fields. It is demonstrated experimentally and numerically via 3D particle-in-cell simulations that the degree of ellipticity of the laser polarization strongly influences the spatial-intensity distribution of the beam of multi-MeV protons. The influence on both sheath accelerated and radiation pressure accelerated protons is investigated. This approach opens up new routes to control laser-driven ion sources
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