Understanding contextual interactions to design navigational context-aware applications

Context-aware technology has stimulated rigorous research into novel ways to support people in a wide range of tasks and situations. However, the effectiveness of these technologies will ultimately be dependent on the extent to which contextual interactions are understood and accounted for in their design. This study involved an investigation of contextual interactions required for route navigation. The purpose was to illustrate the heterogeneous nature of humans in interaction with their environmental context. Participants were interviewed to determine how each interacts with or use objects/information in the environment in which to navigate/orientate. Results revealed that people vary individually and collectively. Usability implications for the design of navigational context-aware applications are identified and discussed

Avalanche analysis from multi-electrode ensemble recordings in cat, monkey and human cerebral cortex during wakefulness and sleep

Self-organized critical states are found in many natural systems, from earthquakes to forest fires, they have also been observed in neural systems, particularly, in neuronal cultures. However, the presence of critical states in the awake brain remains controversial. Here, we compared avalanche analyses performed on different in vivo preparations during wakefulness, slow-wave sleep and REM sleep, using high-density electrode arrays in cat motor cortex (96 electrodes), monkey motor cortex and premotor cortex and human temporal cortex (96 electrodes) in epileptic patients. In neuronal avalanches defined from units (up to 160 single units), the size of avalanches never clearly scaled as power-law, but rather scaled exponentially or displayed intermediate scaling. We also analyzed the dynamics of local field potentials (LFPs) and in particular LFP negative peaks (nLFPs) among the different electrodes (up to 96 sites in temporal cortex or up to 128 sites in adjacent motor and pre-motor cortices). In this case, the avalanches defined from nLFPs displayed power-law scaling in double log representations, as reported previously in monkey. However, avalanche defined as positive LFP (pLFP) peaks, which are less directly related to neuronal firing, also displayed apparent power-law scaling. Closer examination of this scaling using more reliable cumulative distribution functions (CDF) and other rigorous statistical measures, did not confirm power-law scaling. The same pattern was seen for cats, monkey and human, as well as for different brain states of wakefulness and sleep. We also tested other alternative distributions. Multiple exponential fitting yielded optimal fits of the avalanche dynamics with bi-exponential distributions. Collectively, these results show no clear evidence for power-law scaling or self-organized critical states in the awake and sleeping brain of mammals, from cat to man.Comment: In press in: Frontiers in Physiology, 2012, special issue "Critical Brain Dynamics" (Edited by He BY, Daffertshofer A, Boonstra TW); 33 pages, 13 figures. 3 table

Results from EDGES High-Band: II. Constraints on Parameters of Early Galaxies

We use the sky-average spectrum measured by EDGES High-Band ($90-190$ MHz) to constrain parameters of early galaxies independent of the absorption feature at $78$~MHz reported by Bowman et al. (2018). These parameters represent traditional models of cosmic dawn and the epoch of reionization produced with the 21cmFAST simulation code (Mesinger & Furlanetto 2007, Mesinger et al. 2011). The parameters considered are: (1) the UV ionizing efficiency ($\zeta$), (2) minimum halo virial temperature hosting efficient star-forming galaxies ($T^{\rm min}_{\rm vir}$), (3) integrated soft-band X-ray luminosity ($L_{\rm X\,<\,2\,keV}/{\rm SFR}$), and (4) minimum X-ray energy escaping the first galaxies ($E_{0}$), corresponding to a typical H${\rm \scriptstyle I}$ column density for attenuation through the interstellar medium. The High-Band spectrum disfavors high values of $T^{\rm min}_{\rm vir}$ and $\zeta$, which correspond to signals with late absorption troughs and sharp reionization transitions. It also disfavors intermediate values of $L_{\rm X\,<\,2\,keV}/{\rm SFR}$, which produce relatively deep and narrow troughs within the band. Specifically, we rule out $39.4<\log_{10}\left(L_{\rm X\,<\,2\,keV}/{\rm SFR}\right)<39.8$ ($95\%$ C.L.). We then combine the EDGES High-Band data with constraints on the electron scattering optical depth from Planck and the hydrogen neutral fraction from high-$z$ quasars. This produces a lower degeneracy between $\zeta$ and $T^{\rm min}_{\rm vir}$ than that reported in Greig & Mesinger (2017a) using the Planck and quasar constraints alone. Our main result in this combined analysis is the estimate $4.5$~$\leq \log_{10}\left(T^{\rm min}_{\rm vir}/\rm K\right)\leq$~$5.7$ ($95\%$ C.L.). We leave for future work the evaluation of $21$~cm models using simultaneously data from EDGES Low- and High-Band.Comment: Accepted in Ap

Regional cerebral metabolic patterns demonstrate the role of anterior forebrain mesocircuit dysfunction in the severely injured brain

peer reviewedAlthough disorders of consciousness (DOCs) demonstrate widely varying clinical presentations and patterns of structural injury, global down-regulation and bilateral reductions in metabolism of the thalamus and frontoparietal network are consistent findings. We test the hypothesis that global reductions of background synaptic activity in DOCs will associate with changes in the pattern of metabolic activity in the central thalamus and globus pallidus. We compared 32 [18F]fluorodeoxyglucose PETs obtained from severely brain-injured patients (BIs) and 10 normal volunteers (NVs). We defined components of the anterior forebrain mesocircuit on high-resolution T1-MRI (ventral, associative, and sensorimotor striatum; globus pallidus; central thalamus and noncentral thalamus). Metabolic profiles for BI and NV demonstrated distinct changes in the pattern of uptake: ventral and association striatum (but not sensorimotor) were significantly reduced relative to global mean uptake after BI; a relative increase in globus pallidus metabolism was evident in BI subjects who also showed a relative reduction of metabolism in the central thalamus. The reversal of globus pallidus and central thalamus profiles across BIs and NVs supports the mesocircuit hypothesis that broad functional (or anatomic) deafferentation may combine to reduce central thalamus activity and release globus pallidus activity in DOCs. In addition, BI subjects showed broad frontoparietal metabolic down-regulation consistent with prior studies supporting the link between central thalamic/pallidal metabolism and down-regulation of the frontoparietal network. Recovery of left hemisphere frontoparietal metabolic activity was further associated with command following

Broadening Traditional Aviation Meteorology Education to Support Spaceflight Operations

The purpose of this paper is to examine the expansion of traditional aviation meteorology education necessary to support the growing commercial space-operations industry. While spaceflight meteorological considerations do overlap with those of traditional aviation operations, there are notable differences schools must address for appropriate education and training of both meteorologists and operators. These include knowledge of increased weather sensitivities, space-weather impacts, triggered lightning, triboelectrification, and high-resolution vertical wind-profile analyses. An added challenge in the educational process is the more limited amount of publicly available weather and space-weather products necessary to support spaceflight education. Furthermore, in comparison with traditional aviation meteorology, real-world experiential learning opportunities for students to support actual space-launch and on-orbit operations are limited. However, flight simulations employing historical meteorological and space-weather data may help provide the basic educational tools necessary to overcome these limitations and better prepare students pursuing careers in spaceflight, either as operators or as meteorologists

Radionuclide method for evaluating the performance of hemodialysis in vivo

Radionuclide method for evaluating the performance of hemodialysis in vivo.BackgroundSpecifications of dialyzer performance are generally based on in vitro measurements. There is, however, a shortage of data on dialyzer performance in vivo. The aim of this study was to use continuous measurement of technetium-99m-diethyltriaminepentaacetic acid (Tc-99m-DTPA) blood concentration as a means of continuously monitoring dialyzer function in vivo in patients undergoing routine hemodialysis.MethodsThe study population comprised 15 patients (45 to 80 years old; 13 males). Tc-99m-DTPA was administered intravenously 90 minutes before obtaining a blood sample and starting dialysis. Blood Tc-99m-DTPA activity was continuously monitored by passing the line carrying blood from the patient to the dialyzer close to a scintillation probe mounted in a shielded housing. At the end of hemodialysis, lasting 180 to 300 minutes, chromium-51-ethylenediaminetetraacetic acid (Cr-51-EDTA) was given intravenously and a blood sample taken 90 minutes later. Baseline dialyzer blood flow (Qb) and dialysate flow (Qd) were 250 to 350mL/min and 500mL/min, respectively. The rate constant, α, of the decrease in blood Tc-99m-DTPA activity was used as the measure of moment-to-moment dialyzer function. Pre- and postdialysis extracellular fluid volumes were calculated from the blood Tc-99m-DTPA and Cr-51-EDTA concentrations (VDTPA and VEDTA) before and after dialysis. Tc-99m-DTPA clearance was measured as the product of α and VDTPA. Dialyzer urea clearance was calculated from pre- and postdialysis urea nitrogen concentrations and the time of dialysis. The effects of brief changes in Qb and Qd on dialyzer function were assessed from the associated changes in α.ResultsThe Tc-99m-DTPA clearance profile was biexponential, becoming monoexponential about 1 hour after starting hemodialysis, with α remaining constant for as long as dialysis continued in five patients in whom Qb and Qd were left unaltered. Mean (SEM) plasma Tc-99m-DTPA clearance averaged over the entire period of dialysis in all 15 patients was 110 (3.1)mL/min. It correlated with urea clearance (r = 0.71) (P < 0.01) which was 225 (9.5)mL/min based on a total body water of 2.5 that of VDTPA and 212 (13)mL/min scaled to 40 L/1.73m2. Extracellular fluid volume decreased by 1.73 (0.74) l over dialysis, which was comparable to the change in weight [1.48 (0.57) kg]. The extraction fraction of Tc-99m-DTPA across the artificial kidney, directly measured from afferent and efferent blood samples under baseline Qb and Qd, was 0.5 (0.013). Average extraction fraction indirectly estimated from Tc-99m-DTPA blood clearance and Qb was 0.54 (0.019). These two measurements of extraction fraction correlated with each other under conditions of varying Qb and Qd (r = 0.74) (N = 27) (P < 0.001). Changes in α resulting from changes in Qb and Qd were similar to changes predicted from computerized modeling. The ratio of mass transfer coefficients of urea and Tc-99m-DTPA with respect to the dialyzer, calculated as if they were permeability-surface area products, was 3.3, similar to the ratio, obtained from the literature, in continuous capillary endothelium.ConclusionTc-99m-DTPA is a useful agent for continuously monitoring dialyzer function in vivo and provides a platform for the use of other radio-pharmaceuticals of different molecular sizes that could be used in an analogous fashion

Di-μ-chlorido-bis­[dichlorido(N,N-diethyl­acetamidinato)(N,N-diethyl­acetamidine)titanium(IV)] acetonitrile disolvate

In the centrosymmetric title compound [Ti2Cl6(C6H13N2)2(C6H14N2)2]·2C2H3N, an inversion center relates the two Ti atoms which display a distorted octa­hedral coordination geometry. There are two uncoordinated acetonitrile solvent mol­ecules per mol­ecule of title compound in the crystal structure