11,676 research outputs found
Measurements and analysis of multistatic and multimodal micro-Doppler signatures for automatic target classification
The purpose of this paper is to present an experimental trial carried out at the Defence Academy of the United Kingdom to measure simultaneous multistatic and multimodal micro-Doppler signatures of various targets, including humans and flying UAVs.
ewline Signatures were gathered using a network of sensors consisting of a CW monostatic radar operating at 10 GHz (X-band) and an ultrasound radar with a monostatic and a bistatic channel operating at 45 kHz and 35 kHz, respectively. A preliminary analysis of automatic target classification performance and a comparison with the radar monostatic case is also presented
Standard Model False Vacuum Inflation: Correlating the Tensor-to-Scalar Ratio to the Top Quark and Higgs Boson masses
For a narrow band of values of the top quark and Higgs boson masses, the
Standard Model Higgs potential develops a false minimum at energies of about
GeV, where primordial Inflation could have started in a cold
metastable state. A graceful exit to a radiation-dominated era is provided,
e.g., by scalar-tensor gravity models. We pointed out that if Inflation
happened in this false minimum, the Higgs boson mass has to be in the range
GeV, where ATLAS and CMS subsequently reported excesses of
events. Here we show that for these values of the Higgs boson mass, the
inflationary gravitational wave background has be discovered with a
tensor-to-scalar ratio at hand of future experiments. We suggest that combining
cosmological observations with measurements of the top quark and Higgs boson
masses represents a further test of the hypothesis that the Standard Model
false minimum was the source of Inflation in the Universe.Comment: v1: 4 pages, 2 figures; v2: 5 pages, 2 figures, improvements in the
text; v3: 5 pages, 2 figures, minor improvements in the text, matches PRL
versio
IL-1 regulates the IL-23 response to wheat gliadin, the etiologic agent of Celiac Disease
Celiac disease (CD) is an autoimmune disease prevalent in ~1% of the general population. CD is unique because both the major genetic (Human Leukocyte Antigen-DQ2/DQ8 alleles) and etiologic factors (dietary glutens) for susceptibility are known. While these alleles are responsible for the inappropriate T cell response that characterizes CD, they are not sufficient since most HLA-DQ2+/DQ8+ individuals exposed to glutens never develop disease. The reasons for this have not been explained; however our novel findings strongly advocate a role for interleukin-23 (IL-23) in the immunopathogenesis of CD. We demonstrate that wheat gliadin stimulates monocytes to produce significantly higher amounts of inflammatory cytokines IL-1b, IL-23, and tumor necrosis factor-a (TNFa) in CD patients compared to HLA-DQ2+ healthy individuals. Furthermore, we determine that IL-1 signalling is obligatory for production of IL-23, since IL-1b triggers IL-23 secretion in a dose-dependent manner and IL-1 receptor antagonist (IL-1ra) blocks IL-23 responses to gliadin. Our results suggest that gliadin activation of monocytes and the subsequent robust secretion of IL-1b and IL-23 initiate the immune response cascade that is manifest as CD, and reveal for the first time that the IL-1 system regulates production of IL-23. The discovery of IL-23 has highlighted the critical role of the innate immune response in autoimmunity and other inflammatory conditions. We anticipate that our novel findings will lead to the discovery of therapeutic targets for this disease and other inflammatory diseases mediated by IL-23
The continuum limit of a 4-dimensional causal set scalar d'Alembertian
The continuum limit of a 4-dimensional, discrete d'Alembertian operator for
scalar fields on causal sets is studied. The continuum limit of the mean of
this operator in the Poisson point process in 4-dimensional Minkowski spacetime
is shown to be the usual continuum scalar d'Alembertian . It is shown
that the mean is close to the limit when there exists a frame in which the
scalar field is slowly varying on a scale set by the density of the Poisson
process. The continuum limit of the mean of the causal set d'Alembertian in
4-dimensional curved spacetime is shown to equal , where
is the Ricci scalar, under certain conditions on the spacetime and the
scalar field.Comment: 31 pages, 2 figures. Slightly revised version, accepted for
publication in Classical and Quantum Gravit
Baseband version of the bat-inspired spectrogram correlation and transformation receiver
Echolocating bats have evolved an excellent ability to detect and discriminate targets in highly challenging environments. They have had more than 50 million years of evolution to optimise their echolocation system with respect to their surrounding environment. Behavioural experiments have shown their exceptional ability to detect and classify targets even in highly cluttered surroundings. The way bats process signals is not exactly the same as in radar and hence it can be useful to investigate the differences. The Spectrogram Correlation And Transformation receiver (SCAT) is an existing model of the bat auditory system that takes into account the physiology and underlying neural organisation in bats which emit chirped signals. In this paper, we propose a baseband receiver equivalent to the SCAT. This will allow biologically inspired signal processing to be applied to radar baseband signals. It will also enable further theoretical analysis of the key concepts, advantages and limitations of the "bat signal processing" for the purpose of target detection, localisation and resolution. The equivalence is demonstrated by comparing the output of the original SCAT to that of our proposed baseband version using both simulated and experimental target echoes. Results show that the baseband receiver provides compatible frequency interference pattern for two closely located scatterers
Numerical study on active and passive trailing edge morphing applied to a multi-MW wind turbine section
A progressive increasing in turbine dimension has characterized the technological development in offshore wind energy utilization. This aspect reflects on the growing in blade length and weight. For very large turbines, the standard control systems may not be optimal to give the best performance and the best vibratory load damping, keeping the condition of maximum energy production. For this reason, some new solutions have been proposed in research. One of these is the possibility of morphs the blade surface in an active way (increasing the performance in low wind region) or passive (load reduction) way.
In this work, we present a numerical study on the active and passive trailing edge morphing, applied to large wind turbines. In particular, the study focuses on the aerodynamic response of a midspan blade section, in terms of fluid structure interaction (FSI) and driven surface deformation.
We test the active system in a simple start-up procedure and the passive system in a power production with turbulent wind conditions, that is, two situations in which we expect these systems could improve the performance.
All the computations are carried out with a FSI code, which couples a 2D-CFD solver, a moving mesh solver (both implemented in OpenFOAM library) and a FEM solver.
We evaluate all the boundary conditions to apply in the section problem by simulating the 5MW NREL wind turbine with the NREL CAE-tools developed for wind turbine simulation
Chain metallicity and antiferro-paramagnetism competition in underdoped YBaCuO: a first principles description
We describe from advanced first principles calculations the energetics of
oxygen doping and its relation to insulator-metal transitions in underdoped
YBaCuO. We find a strong tendency of doping oxygens to order
into non-magnetic CuO chains at any . Ordering produces
one-dimensional metallic bands, while configurations with non-aligned oxygens
are insulating. The CuO planes remain insulating and
antiferromagnetic up to a threshold between =0.25 and 0.5, above which a
paramagnetic normal-metal state prevails. The in-plane antiferro-paramagnetic
competition depends on , but only weakly on the ordering state of the
chains.Comment: 4 pages, 6 figures, 2 table
Experimental analysis of multistatic multiband radar signatures of wind turbines
This study presents the analysis of recent experimental data acquired using two radar systems at S-band and X-band to measure simultaneous monostatic and bistatic signatures of operational wind turbines near Shrivenham, UK. Bistatic and multistatic radars are a potential approach to mitigate the adverse effects of wind farm clutter on the performance of radar systems, which is a well-known problem for air traffic control and air defence radar. This analysis compares the simultaneous monostatic and bistatic micro-Doppler signatures of two operational turbines and investigates the key differences at bistatic angles up to 23°. The variations of the signature with different polarisations, namely vertical transmitted and vertical received and horizontal transmitted and horizontal received, are also discussed
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