609 research outputs found
An Examination of Wearable Sensors and Video Data Capture for Human Exercise Classification
Wearable sensors such as Inertial Measurement Units (IMUs) are often used to
assess the performance of human exercise. Common approaches use handcrafted
features based on domain expertise or automatically extracted features using
time series analysis. Multiple sensors are required to achieve high
classification accuracy, which is not very practical. These sensors require
calibration and synchronization and may lead to discomfort over longer time
periods. Recent work utilizing computer vision techniques has shown similar
performance using video, without the need for manual feature engineering, and
avoiding some pitfalls such as sensor calibration and placement on the body. In
this paper, we compare the performance of IMUs to a video-based approach for
human exercise classification on two real-world datasets consisting of Military
Press and Rowing exercises. We compare the performance using a single camera
that captures video in the frontal view versus using 5 IMUs placed on different
parts of the body. We observe that an approach based on a single camera can
outperform a single IMU by 10 percentage points on average. Additionally, a
minimum of 3 IMUs are required to outperform a single camera. We observe that
working with the raw data using multivariate time series classifiers
outperforms traditional approaches based on handcrafted or automatically
extracted features. Finally, we show that an ensemble model combining the data
from a single camera with a single IMU outperforms either data modality. Our
work opens up new and more realistic avenues for this application, where a
video captured using a readily available smartphone camera, combined with a
single sensor, can be used for effective human exercise classification
The structure of low Froude number lee waves over an isolated obstacle
AbstractWe present new insight into the classical problem of a uniform flow, linearly stratified in density, past an isolated three-dimensional obstacle. We demonstrate how, for a low-Froude-number obstacle, simple linear theory with a linearized boundary condition is capable of providing excellent quantitative agreement with laboratory measurements of the perturbation to the density field. It has long been known that such a flow may be divided into two regions, an essentially horizontal flow around the base of the obstacle and a wave-generating flow over the top of the obstacle, but until now the experimental diagnostics have not been available to test quantitatively the predicted features. We show that recognition of a small slope that develops across the obstacle in the surface separating these two regions is vital to rationalize experimental measurements with theoretical predictions. Utilizing the principle of stationary phase and causality arguments to modify the relationship between wavenumbers in the lee waves, linearized theory provides a detailed match in both the wave amplitude and structure to our experimental observations. Our results demonstrate that the structure of the lee waves is extremely sensitive to departures from horizontal flow, a detail that is likely to be important for a broad range of geophysical manifestations of these waves.</jats:p
Mid-Upper Arm Circumference based Nutrition Programming: evidence for a new approach in regions with high burden of Acute Malnutrition
In therapeutic feeding programs (TFP), mid-upper arm circumference (MUAC) shows advantages over weight-for-height Z score (WHZ) and is recommended by the World Health Organization (WHO) as an independent criterion for screening children 6-59 months old. Here we report outcomes and treatment response from a TFP using MUAC ≤118 mm or oedema as sole admission criteria for severe acute malnutrition (SAM)
Heat Conduction in -(BEDT-TTF)Cu(NCS)
The first study of thermal conductivity, , in a quasi-two-dimensional
organic superconductor of the -(BEDT-TTF)X family reveals features
analogous to those already observed in the cuprates. The onset of
superconductivity is associated with a sudden increase in which can be
suppressed by the application of a moderate magnetic field. At low
temperatures, a finite linear term - due to a residual electronic contribution-
was resolved. The magnitude of this term is close to what is predicted by the
theory of transport in unconventional superconductors.Comment: 5 pages, 4 figures include
Superfluid density of high-Tc cuprate systems: implication on condensation mechanisms, heterogeneity and phase diagram
Extensive muon spin relaxation measurements have been performed to determine
the magnetic field penetration depth in high-Tc cuprate superconductors with
simple hole doping, Zn-doping, overdoping, and formation of static SDW nano
islands. System dependence of (superconducting carrier density /
effective mass) reveals universal correlations between Tc and in
all these cases with / without perturbation. Evidence for spontaneous and
microscopic phase separation was obtained in the cases with strong
perturbation, i.e., Zn-doping. overdoping and SDW nano-islands. The length
scale of this heterogeneity is shown to be comparable to the in-plance
coherence length. We discuss implications of these results on condensation
mechanisms of HTSC systems, resorting to an analogy with He films, on regular
and porous media, reminding essential features of Bose-Einstein, BCS and
Kosterlitz-Thouless condensation/transition in 2-d and 3-d systems, and
comparing models of BE-BCS crossover and phase fluctuations. We propose a new
phase diagram for HTSC systems based on distinction between pair formation and
superconducting phase fluctuations in the pseudogap region and spontaneous
phase separation in the overdoped region. We also remind anomaly in BEDT and
A3C60 systems similar to that in overdoped cuprates, seen in the evolution from
superconducting to metallic ground state.Comment: 21 pages, 18 figures, invited papter presented at the HTSC Workshop,
Williamsburg, Virginia, June 7-8, 2002, to appear in Solid State
Communications (Special Issue edited by A.J. Millis, S. Uchida, Y.J. Uemura):
contact [email protected]
The associations of parity and maternal age with small-for-gestational-age, preterm, and neonatal and infant mortality: a meta-analysis
Background: Previous studies have reported on adverse neonatal outcomes associated with parity and maternal age. Many of these studies have relied on cross-sectional data, from which drawing causal inference is complex. We explore the associations between parity/maternal age and adverse neonatal outcomes using data from cohort studies conducted in low- and middle-income countries (LMIC). / Methods: Data from 14 cohort studies were included. Parity (nulliparous, parity 1-2, parity ≥3) and maternal age (<18 years, 18-<35 years, ≥35 years) categories were matched with each other to create exposure categories, with those who are parity 1-2 and age 18-<35 years as the reference. Outcomes included small-for-gestational-age (SGA), preterm, neonatal and infant mortality. Adjusted odds ratios (aOR) were calculated per study and meta-analyzed. / Results: Nulliparous, age <18 year women, compared with women who were parity 1-2 and age 18-<35 years had the highest odds of SGA (pooled adjusted OR: 1.80), preterm (pooled aOR: 1.52), neonatal mortality (pooled aOR: 2.07), and infant mortality (pooled aOR: 1.49). Increased odds were also noted for SGA and neonatal mortality for nulliparous/age 18-<35 years, preterm, neonatal, and infant mortality for parity ≥3/age 18-<35 years, and preterm and neonatal mortality for parity ≥3/≥35 years. / Conclusions: Nulliparous women <18 years of age have the highest odds of adverse neonatal outcomes. Family planning has traditionally been the least successful in addressing young age as a risk factor; a renewed focus must be placed on finding effective interventions that delay age at first birth. Higher odds of adverse outcomes are also seen among parity ≥3 / age ≥35 mothers, suggesting that reproductive health interventions need to address the entirety of a woman’s reproductive period. / Funding: Funding was provided by the Bill & Melinda Gates Foundation (810-2054) by a grant to the US Fund for UNICEF to support the activities of the Child Health Epidemiology Reference Group
The M3 muscarinic receptor Is required for optimal adaptive immunity to Helminth and bacterial infection
Innate immunity is regulated by cholinergic signalling through nicotinic acetylcholine receptors. We show here that signalling through the M3 muscarinic acetylcholine receptor (M3R) plays an important role in adaptive immunity to both Nippostrongylus brasiliensis and Salmonella enterica serovar Typhimurium, as M3R-/- mice were impaired in their ability to resolve infection with either pathogen. CD4 T cell activation and cytokine production were reduced in M3R-/- mice. Immunity to secondary infection with N. brasiliensis was severely impaired, with reduced cytokine responses in M3R-/- mice accompanied by lower numbers of mucus-producing goblet cells and alternatively activated macrophages in the lungs. Ex vivo lymphocyte stimulation of cells from intact BALB/c mice infected with N. brasiliensis and S. typhimurium with muscarinic agonists resulted in enhanced production of IL-13 and IFN-γ respectively, which was blocked by an M3R-selective antagonist. Our data therefore indicate that cholinergic signalling via the M3R is essential for optimal Th1 and Th2 adaptive immunity to infection
Zinc intake, status and indices of cognitive function in adults and children: a systematic review and meta-analysis
In developing countries, deficiencies of micronutrients are thought to have a major impact on child development; however, a consensus on the specific relationship between dietary zinc intake and cognitive function remains elusive. The aim of this systematic review was to examine the relationship between zinc intake, status and indices of cognitive function in children and adults. A systematic literature search was conducted using EMBASE, MEDLINE and Cochrane Library databases from inception to March 2014. Included studies were those that supplied zinc as supplements or measured dietary zinc intake. A meta-analysis of the extracted data was performed where sufficient data were available. Of all of the potentially relevant papers, 18 studies met the inclusion criteria, 12 of which were randomised controlled trials (RCTs; 11 in children and 1 in adults) and 6 were observational studies (2 in children and 4 in adults). Nine of the 18 studies reported a positive association between zinc intake or status with one or more measure of cognitive function. Meta-analysis of data from the adult’s studies was not possible because of limited number of studies. A meta-analysis of data from the six RCTs conducted in children revealed that there was no significant overall effect of zinc intake on any indices of cognitive function: intelligence, standard mean difference of <0.001 (95% confidence interval (CI) –0.12, 0.13) P=0.95; executive function, standard mean difference of 0.08 (95% CI, –0.06, 022) P=0.26; and motor skills standard mean difference of 0.11 (95% CI –0.17, 0.39) P=0.43. Heterogeneity in the study designs was a major limitation, hence only a small number (n=6) of studies could be included in the meta-analyses. Meta-analysis failed to show a significant effect of zinc supplementation on cognitive functioning in children though, taken as a whole, there were some small indicators of improvement on aspects of executive function and motor development following supplementation but high-quality RCTs are necessary to investigate this further
Small-q phonon-mediated superconductivity in organic \kappa-BEDT-TTF compounds
We propose a mew picture for superconductivity in
salts arguing that small-{\bf q} electron-phonon scattering dominates the
pairing. We reproduce the distinct X-shaped d-wave gap reported recently by
magnetooptic measurements and we argue that the softness of the momentum
structure of the gap and the near degeneracy of s- and d-wave gap states may be
at the origin of the experimental controversy about the gap symmetry. We show
that a magnetic field applied parallel to the planes may induce extended
gapless-regions on the FS accounting for the experimental signatures of a
Fulde-Ferrel-Larkin-Ovchinikov state and it may induce gap symmetry transitions
as well.Comment: 4 pages and 7 figure
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