5,792 research outputs found
Feedback can be superior to observational training for both rule-based and information-integration category structures
The effects of two different types of training on rule-based and information-integration category learning were investigated in two experiments. In observational training, a category label is presented, followed by an example of that category and the participant's response. In feedback training, the stimulus is presented, the participant assigns it to a category and then receives feedback about the accuracy of that decision. Ashby, Maddox, and Bohil (2002) reported that feedback training was superior to observational training when learning information-integration category structures, but that training type had little effect on the acquisition of rule-based category structures. These results were argued to support the COVIS dual-process account of category learning. However, a number of non-essential differences between their rule-based and information-integration conditions complicate interpretation of these findings. Experiment 1 controlled, between category structures, for participant error rates, category separation, and the number of stimulus dimensions relevant to the categorization. Under these more controlled conditions, rule-based and information-integration category structures both benefitted from feedback training to a similar degree. Experiment 2 maintained this difference in training type when learning a rule-based category that had otherwise been matched, in terms of category overlap and overall performance, with the rule-based categories used in Ashby et al. These results indicate that differences in dimensionality between the category structures in Ashby et al. is a more likely explanation for the interaction between training type and category structure than the dual-system explanation they offered
Front propagation in an exclusion one-dimensional reactive dynamics
We consider an exclusion process representing a reactive dynamics of a pulled
front on the integer lattice, describing the dynamics of first class
particles moving as a simple symmetric exclusion process, and static second
class particles. When an particle jumps to a site with a particle,
their position is intechanged and the particle becomes an one.
Initially, there is an arbitrary configuration of particles at sites , and particles only at sites , with a product Bernoulli law
of parameter . We prove a law of large numbers and a central
limit theorem for the front defined by the right-most visited site of the
particles at time . These results corroborate Monte-Carlo simulations
performed in a similar context. We also prove that the law of the particles
as seen from the front converges to a unique invariant measure. The proofs use
regeneration times: we present a direct way to define them within this context.Comment: 19 page
Use of satellite images for broad-scale modelling of conservation areas for wolves in the Carpathian Mountains, central Europe
This study analysed the spatial structure of the Carpathian Mountains, in Central Europe, considering it a unit that extends across national boundaries, and assessing the suitability of areas were wolves could be conserved. Physical characteristics of the area were extracted from NOAA-AVHRR NDVI. A set of 9 images from different periods of the year was used to parameterise the phenological variability of the area. Digital maps of road networks, human settlements and a DEM were integrated in a GIS. Locations of wolf presence
were used to extract “optimal” environmental characteristics that served as reference for estimating the degree of suitability over the whole area. Results show that most of the Carpathian Mountains are highly suitable for the wolf and that highly suitable areas are actually inhabited by the present population of wolf. These are also the area most phenologically stable
Remark on the perturbative component of inclusive -decay
In the context of the inclusive -decay, we analyze various forms of
perturbative expansions which have appeared as modifications of the original
perturbative series. We argue that analytic perturbation theory, which combines
renormalization-group invariance and -analyticity, has significant merits
favoring its use to describe the perturbative component of -decay.Comment: 5 pages, ReVTEX, 2 eps figures. Revised paper includes clarifying
remarks and corrected references. To be published in Phys. Rev.
Tunable quantum dots in bilayer graphene
We demonstrate theoretically that quantum dots in bilayers of graphene can be
realized. A position-dependent doping breaks the equivalence between the upper
and lower layer and lifts the degeneracy of the positive and negative momentum
states of the dot. Numerical results show the simultaneous presence of electron
and hole confined states for certain doping profiles and a remarkable angular
momentum dependence of the quantum dot spectrum which is in sharp contrast with
that for conventional semiconductor quantum dots. We predict that the optical
spectrum will consist of a series of non-equidistant peaks.Comment: 5 pages, to appear in Nano Letter
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