4,196 research outputs found
Statistical Methodology for Optimal Sensor Locations for Damage Detection in Structures
A Bayesian statistical methodology
is presented for optimally locating the sensors
in a structure for the purpose of extracting the most
information about the model parameters which can
be used in model updating and in damage detection
and localization. This statistical approach properly
handles the unavoidable uncertainties in the measured
data as well as the uncertainties in the mathematical
model used to represent the structural behavior.
The optimality criterion for the sensor locations
is based on information entropy which is a
measure of the uncertainty in the model parameters.
The uncertainty in these parameters is computed
by the Bayesian statistical methodology and
then the entropy measure is minimized over the set
of possible sensor configurations using a genetic algorithm.
Results presented illustrate how both the
minimum entropy of the parameters and the optimal
sensor configuration depend on the location of
sensors, number of sensors, number and type of contributing
modes and the structural parameterization
(substructuring) scheme used
Zero Lattice Sound
We study the N_f-flavor Gross-Neveu model in 2+1 dimensions with a baryon
chemical potential mu, using both analytical and numerical methods. In
particular, we study the self-consistent Boltzmann equation in the Fermi liquid
framework using the quasiparticle interaction calculated to O(1/N_f), and find
solutions for zero sound propagation for almost all mu > mu_c, the critical
chemical potential for chiral symmetry restoration. Next we present results of
a numerical lattice simulation, examining temporal correlation functions of
mesons defined using a point-split interpolating operator, and finding evidence
for phonon-like behaviour characterised by a linear dispersion relation in the
long wavelength limit. We argue that our results provide the first evidence for
a collective excitation in a lattice simulation.Comment: 18 pages, 6 figure
Quantifying the Drivers of Star Formation on Galactic Scales. I. The Small Magellanic Cloud
We use the star formation history of the Small Magellanic Cloud (SMC) to
place quantitative limits on the effect of tidal interactions and gas infall on
the star formation and chemical enrichment history of the SMC. The coincident
timing of two recent (< 4 Gyr) increases in the star formation rate and
SMC/Milky Way(MW) pericenter passages suggests that global star formation in
the SMC is driven at least in part by tidal forces due to the MW. The Large
Magellanic Cloud (LMC) is the other potential driver of star formation, but is
only near the SMC during the most recent burst. The poorly constrained LMC-SMC
orbit is our principal uncertainty. To explore the correspondence between
bursts and MW pericenter passages further, we model star formation in the SMC
using a combination of continuous and tidally-triggered star formation. The
behavior of the tidally-triggered mode is a strong inverse function of the
SMC-MW separation (preferred behavior ~ r^-5, resulting in a factor of ~100
difference in the rate of tidally-triggered star formation at pericenter and
apocenter). Despite the success of these closed-box evolutionary models in
reproducing the recent SMC star formation history and current chemical
abundance, they have some systematic shortcomings that are remedied by
postulating that a sizable infall event (~ 50% of the total gas mass) occured
about 4 Gyr ago. Regardless of whether this infall event is included, the
fraction of stars in the SMC that formed via a tidally triggered mode is > 10%
and could be as large as 70%.Comment: Accepted for publication in Ap
Is your EPL attractive? Classification of publications through download statistics
Here we consider the download statistics of EPL publications. We find that
papers in the journal are characterised by fast accumulations of downloads
during the first couple of months after publication, followed by slower rates
thereafter, behaviour which can be represented by a model with predictive
power. We also find that individual papers can be classified in various ways,
allowing us to compare categories for open-access and non-open-access papers.
For example, for the latter publications, which comprise the bulk of EPL
papers, a small proportion (2%) display intense bursts of download activity,
possibly following an extended period of less remarkable behaviour. About 18%
have an especially high degree of attractiveness over and above what is typical
for the journal. One can also classify the ageing of attractiveness by
examining download half-lives. Approximately 18% have strong interest
initially, waning in time. A further 20% exhibit "delayed recognition" with
relatively late spurs in download activity. Although open-access papers enjoy
more downloads on average, the proportions falling into each category are
similar.Comment: 6 pages, 8 figures, accepted for publication in EP
Recommended from our members
Working time regimes: A panel discussion on continuing problems
This article records a panel discussion at the Organizational Working Time Regimes conference on 31 March 2017 at the University of Graz, Austria. The discussion was moderated by Sara Louise Muhr and the panelists were Jana Costas, Susanne Ekman, Laura Empson and Dan Kärreman. The discussion both departed from yet centred on the concept of time itself: how we understand time as academics, employees and managers, and how the notion of time guides and controls all of us in various ways. Through the different perspectives that the panelists have on time and work regimes, it became evident that time – and discussions of time – is complex and context-dependent and needs to be researched as such. The discussion passionately weaved in and out of key questions on work intensification, inequality regimes and resistance to working time regimes that are deeply entwined with dynamic dialectics such as personal/professional, past/future, individual/organizational, worker/leader, good/bad. The panel in this way takes the reader through difficult discussions about what is ‘extreme’, for whom is it extreme and what interventions (if any) can be made by academics. Doing so, the panelists sensitively drew attention to our own line of work, academia, and the work regimes controlling academics
Education Policy and Intergenerational Transfers in Equilibrium
This paper compares partial and general equilibrium effects of alternative financial aid policies intended to promote college participation. We build an overlapping generations life-cycle, heterogeneous-agent, incomplete-markets model with education, labor supply, and consumption/saving decisions. Altruistic parents make inter vivos transfers to their children. Labor supply during college, government grants and loans, as well as private loans, complement parental transfers as sources of funding for college education. We find that the current financial aid system in the U.S. improves welfare, and removing it would reduce GDP by two percentage points in the long-run. Any further relaxation of government-sponsored loan limits would have no salient effects. The short-run partial equilibrium effects of expanding tuition grants (especially their need-based component) are sizeable. However, long-run general equilibrium effects are 3-4 times smaller. Every additional dollar of government grants crowds out 20-30 cents of parental transfers
Failure of Mean Field Theory at Large N
We study strongly coupled lattice QCD with colors of staggered fermions
in 3+1 dimensions. While mean field theory describes the low temperature
behavior of this theory at large , it fails in the scaling region close to
the finite temperature second order chiral phase transition. The universal
critical region close to the phase transition belongs to the 3d XY universality
class even when becomes large. This is in contrast to Gross-Neveu models
where the critical region shrinks as (the number of flavors) increases and
mean field theory is expected to describe the phase transition exactly in the
limit of infinite . Our work demonstrates that close to second order phase
transitions infrared fluctuations can sometimes be important even when is
strictly infinite.Comment: 4 pages, 3 figure
Education Policy and Intergenerational Transfers in Equilibrium
This paper examines the equilibrium effects of alternative financial aid policies intended to promote college participation. We build an overlapping generations life cycle model with education, labor supply, and consumption/saving decisions. Cognitive and non-cognitive skills of children depend on the cognitive skills and education of parents, and affect education choice and labor market outcomes. Driven by both altruism and paternalism, parents make transfers to their children which can be used to fund education, supplementing grants, loans and the labor supply of the children themselves during college. The crowding out of parental transfers by government programs is sizable and thus cannot be ignored when designing policy. The current system of federal aid is valuable: removing either grants or loans would each reduce output by 2% and welfare by 3% in the long-run. An expansion of aid towards ability-tested grants would be markedly superior to either an expansion of student loans or a labor tax cut. This result is, in part, due to the complementarity between parental education and ability in the production of skills of future generations
Education Policy and Intergenerational Transfers in Equilibrium
This paper examines the equilibrium effects of alternative financial aid policies intended to promote college participation. We build an overlapping generations life-cycle, heterogeneous-agent, incomplete-markets model with education, labor supply, and consumption/saving decisions. Driven by both altruism and paternalism, parents make inter vivos transfers to their children. Both cognitive and non-cognitive skills determine the non-pecuniary cost of schooling. Labor supply during college, government grants and loans, as well as private loans, complement parental resources as means of funding college education. We find that the current financial aid system in the U.S. improves welfare, and removing it would reduce GDP by 4-5 percentage points in the long-run. Further expansions of government-sponsored loan limits or grants would have no salient aggregate effects because of substantial crowding-out: every additional dollar of government grants crowds out 30 cents of parental transfers plus an equivalent amount through a reduction in student’s labor supply. However, a small group of high-ability children from poor families, especially girls, would greatly benefit from more generous federal aid
- …