14,615 research outputs found
Crowding effects in vehicular traffic
While the impact of crowding on the diffusive transport of molecules within a
cell is widely studied in biology, it has thus far been neglected in traffic
systems where bulk behavior is the main concern. Here, we study the effects of
crowding due to car density and driving fluctuations on the transport of
vehicles. Using a microscopic model for traffic, we found that crowding can
push car movement from a superballistic down to a subdiffusive state. The
transition is also associated with a change in the shape of the probability
distribution of positions from negatively-skewed normal to an exponential
distribution. Moreover, crowding broadens the distribution of cars' trap times
and cluster sizes. At steady state, the subdiffusive state persists only when
there is a large variability in car speeds. We further relate our work to prior
findings from random walk models of transport in cellular systems.Comment: 23 pages, 11 figures, accepted for publication in PLoS ON
Cyber Buddy is Better than No Buddy: A Test of the Köhler Motivation Effect in Exergames.
Objective: Although exergames are popular, few people take advantage of the potential of group dynamics to
motivate play (and achieve associated health bene?ts). One motivation gain phenomenon has shown promise for
motivating greater effort in partnered exergames: The Koehler effect (working at a task with a more capable partner
where one’s performance is indispensable to the group). This article examines whether a Koehler effect can be
demonstrated in an exergame by exercising with a moderately superior humanoid, software-generated partner.
Materials and Methods: Male and female (n = 120; mean age, 19.41 years) college students completed a series
of plank exercises using ‘‘CyBuddy Exercise,’’ a program developed speci?cally for this study. In a lab in an
academic building, participants completed the exercises individually and, after a rest, were randomly assigned
to complete the same exercises again, but with a ‘‘live’’ human partner (HP) presented virtually, a nearlyhuman-like,
humanoid partner (NHP), a hardly human-like, software-generated partner (HHP), or a no-partner
control condition (IC), with equal numbers in each group (i.e., n = 30). Exercise persistence, perceived exertion,
self-ef?cacy beliefs, enjoyment, and intentions to exercise were recorded and analyzed.
Results: A 4X2 analysis of variance on the (Block 2 – Block 1) difference scores showed that a signi?cant
Koehler motivation gain was observed in all partner conditions (compared with IC), but persistence was signi?cantly
greater with HPs than with either NHP or HHP humanoid partners (P < 0.05). By the conclusion of the
study, there were no signi?cant differences among the partnered conditions in perceived exertion, self-ef?cacy,
enjoyment, or future intentions to exercise.
Conclusions: These results suggest that a software-generated partner can elicit the Koehler motivation gain in
exergames, but not as strongly as a partner who is thought to be human
Characterization of Collective Gaussian Attacks and Security of Coherent-State Quantum Cryptography
We provide a simple description of the most general collective Gaussian
attack in continuous-variable quantum cryptography. In the scenario of such
general attacks, we analyze the asymptotic secret-key rates which are
achievable with coherent states, joint measurements of the quadratures and
one-way classical communication.Comment: 4 pages, 1 figure + 1 Table, REVteX. More descriptive titl
Better Late than Never: Information Retrieval from Black Holes
We show that, in order to preserve the equivalence principle until late times
in unitarily evaporating black holes, the thermodynamic entropy of a black hole
must be primarily entropy of entanglement across the event horizon. For such
black holes, we show that the information entering a black hole becomes encoded
in correlations within a tripartite quantum state, the quantum analogue of a
one-time pad, and is only decoded into the outgoing radiation very late in the
evaporation. This behavior generically describes the unitary evaporation of
highly entangled black holes and requires no specially designed evolution. Our
work suggests the existence of a matter-field sum rule for any fundamental
theory.Comment: Change of title to reflect information return. The physics of
"energetic curtains" remains unchange
Executive function in first-episode schizophrenia
BACKGROUND: We tested the hypothesis that schizophrenia is primarily a frontostriatal disorder by examining executive function in first-episode patients. Previous studies have shown either equal decrements in many cognitive domains or specific deficits in memory. Such studies have grouped test results or have used few executive measures, thus, possibly losing information. We, therefore, measured a range of executive ability with tests known to be sensitive to frontal lobe function.
METHODS: Thirty first-episode schizophrenic patients and 30 normal volunteers, matched for age and NART IQ, were tested on computerized test of planning, spatial working memory and attentional set shifting from the Cambridge Automated Neuropsychological Test Battery. Computerized and traditional tests of memory were also administered for comparison. RESULTS: Patients were worse on all tests but the profile was non-uniform. A componential analysis indicated that the patients were characterized by a poor ability to think ahead and organize responses but an intact ability to switch attention and inhibit prepotent responses. Patients also demonstrated poor memory, especially for free recall of a story and associate learning of unrelated word pairs.
CONCLUSIONS: In contradistinction to previous studies, schizophrenic patients do have profound executive impairments at the beginning of the illness. However, these concern planning and strategy use rather than attentional set shifting, which is generally unimpaired. Previous findings in more chronic patients, of severe attentional set shifting impairment, suggest that executive cognitive deficits are progressive during the course of schizophrenia. The finding of severe mnemonic impairment at first episode suggests that cognitive deficits are not restricted to one cognitive domain
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Architecture of the Short External Rotator Muscles of the Hip.
BackgroundMuscle architecture, or the arrangement of sarcomeres and fibers within muscles, defines functional capacity. There are limited data that provide an understanding of hip short external rotator muscle architecture. The purpose of this study was thus to characterize the architecture of these small hip muscles.MethodsEight muscles from 10 independent human cadaver hips were used in this study (n = 80 muscles). Architectural measurements were made on pectineus, piriformis, gemelli, obturators, quadratus femoris, and gluteus minimus. Muscle mass, fiber length, sarcomere length, and pennation angle were used to calculate the normalized muscle fiber length, which defines excursion, and physiological cross-sectional area (PCSA), which defines force-producing capacity.ResultsGluteus minimus had the largest PCSA (8.29 cm2) followed by obturator externus (4.54 cm2), whereas superior gemellus had the smallest PCSA (0.68 cm2). Fiber lengths clustered into long (pectineus - 10.38 cm and gluteus minimus - 10.30 cm), moderate (obturator internus - 8.77 cm and externus - 8.04 cm), or short (inferior gemellus - 5.64 and superior gemellus - 4.85). There were no significant differences among muscles in pennation angle which were all nearly zero. When the gemelli and obturators were considered as a single functional unit, their collective PCSA (10.00 cm2) exceeded that of gluteus minimus as a substantial force-producing group.ConclusionsThe key findings are that these muscles have relatively small individual PCSAs, short fiber lengths, and low pennation angles. The large collective PCSA and short fiber lengths of the gemelli and obturators suggest that they primarily play a stabilizing role rather than a joint rotating role
Activation of the Listeria monocytogenes Virulence Program by a Reducing Environment.
Upon entry into the host cell cytosol, the facultative intracellular pathogen Listeria monocytogenes coordinates the expression of numerous essential virulence factors by allosteric binding of glutathione (GSH) to the Crp-Fnr family transcriptional regulator PrfA. Here, we report that robust virulence gene expression can be recapitulated by growing bacteria in a synthetic medium containing GSH or other chemical reducing agents. Bacteria grown under these conditions were 45-fold more virulent in an acute murine infection model and conferred greater immunity to a subsequent lethal challenge than bacteria grown in conventional media. During cultivation in vitro, PrfA activation was completely dependent on the intracellular levels of GSH, as a glutathione synthase mutant (ΔgshF) was activated by exogenous GSH but not reducing agents. PrfA activation was repressed in a synthetic medium supplemented with oligopeptides, but the repression was relieved by stimulation of the stringent response. These data suggest that cytosolic L. monocytogenes interprets a combination of metabolic and redox cues as a signal to initiate robust virulence gene expression in vivoIMPORTANCE Intracellular pathogens are responsible for much of the worldwide morbidity and mortality from infectious diseases. These pathogens have evolved various strategies to proliferate within individual cells of the host and avoid the host immune response. Through cellular invasion or the use of specialized secretion machinery, all intracellular pathogens must access the host cell cytosol to establish their replicative niches. Determining how these pathogens sense and respond to the intracellular compartment to establish a successful infection is critical to our basic understanding of the pathogenesis of each organism and for the rational design of therapeutic interventions. Listeria monocytogenes is a model intracellular pathogen with robust in vitro and in vivo infection models. Studies of the host-sensing and downstream signaling mechanisms evolved by L. monocytogenes often describe themes of pathogenesis that are broadly applicable to less tractable pathogens. Here, we describe how bacteria use external redox states as a cue to activate virulence
Piezomorphic materials
The development of stress-induced morphing materials which are described as piezomorphic materials is reported. The development of a piezomorphic material is achieved by introducing spatial dependency into the compliance matrix describing the elastic response of a material capable of undergoing large strain deformation. In other words, it is necessary to produce an elastically gradient material. This is achieved through modification of the microstructure of the compliant material to display gradient topology. Examples of polymeric (polyurethane) foam and microporous polymer (expanded polytetrafluoroethylene) piezomorphic materials are presented here. These materials open up new morphing applications where dramatic shape changes can be triggered by mechanical stress
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