The Role of Imitation, Primitives, and Spatial Referent Coordinates in Motor Control: Implications for Writing and Reading.

We review a body of literature related to the drawing and recognition of geometrical two-dimensional linear drawings including letters. Handwritten letters are viewed not as two-dimensional geometrical objects but as one-dimensional trajectories of the tip of the implement. Handwritten letters are viewed as composed of a small set of kinematic primitives.

Shifts in the eye-centered frame of reference may underlie saccades, visual perception, and eye-hand coordination.

Conventional, computational theories limit the understanding of how action and perception are controlled. In an alternative scheme, the nervous system controls the values of physical and neurophysiological parameters that predetermine the choice of the spatial frames of reference (FRs) for action and perception. For example, all possible eye positions, Q, can be considered as comprising a spatial FR in which extraocular muscles (EOMs) stabilize gaze directions.

Gestalt Theory Rearranged: Back to Wertheimer.

Wertheimer's seminal paper of 1923 was of gerat influence in psychology and other sciences. Wertheimer also emphasized the weaknesses of the newborn Gestalt theory: too many basic laws, and the ambiguity of definitions. At the same time, the paper contained potential solutions to these problems, in the form of a number of very important ideas, some of which were presented implicitly: perception through imitation, communicative nature of linear drawings and writings, transfer from the visual domain to motor domain, linguistic interpretation of the Gestalt.

The vibrational dependence of dissociative recombination: rate constants for N2 (+).

Dissociative recombination rate constants are reported with electron temperature dependent uncertainties for the lowest 5 vibrational levels of the N2 (+) ground state. The rate constants are determined from ab initio calculations of potential curves, electronic widths, quantum defects, and cross sections. At 100 K electron temperature, the rate constants overlap with the exception of the third vibrational level.

Synchronization among neuronal pools without common inputs: in vivo study.

Periodic synchronization of activity among neuronal pools has been related to substantial neural processes and information throughput in the neocortical network. However, the mechanisms of generating such periodic synchronization among distributed pools of neurons remain unclear. We hypothesize that to a large extent there is interplay between the topology of the neocortical networks and their reverberating modes of activity.

A computational paradigm for dynamic logic-gates in neuronal activity.

In 1943 McCulloch and Pitts suggested that the brain is composed of reliable logic-gates similar to the logic at the core of today's computers. This framework had a limited impact on neuroscience, since neurons exhibit far richer dynamics. Here we propose a new experimentally corroborated paradigm in which the truth tables of the brain's logic-gates are time dependent, i.

Coupled lasers: phase versus chaos synchronization.

The synchronization of chaotic lasers and the optical phase synchronization of light originating in multiple coupled lasers have both been extensively studied. However, the interplay between these two phenomena, especially at the network level, is unexplored. Here, we experimentally compare these phenomena by controlling the heterogeneity of the coupling delay times of two lasers.

Sudden synchrony leaps accompanied by frequency multiplications in neuronal activity.

A classical view of neural coding relies on temporal firing synchrony among functional groups of neurons, however, the underlying mechanism remains an enigma. Here we experimentally demonstrate a mechanism where time-lags among neuronal spiking leap from several tens of milliseconds to nearly zero-lag synchrony. It also allows sudden leaps out of synchrony, hence forming short epochs of synchrony.

The vibrational dependence of dissociative recombination: cross sections for N2+.

Theoretical ab initio calculations are reported of the cross sections for dissociative recombination of the lowest four excited vibrational levels of N2(+) at electron energies from 0.001 to 1.0 eV.

Potential curves for the dissociative recombination of CO+.

Large scale ab initio calculations are reported for the diabatic (3)Π, (1)Π, (1)Σ(+), (1)Δ, (3)Σ(+), and (3)Δ valence states of CO that provide routes for the dissociative recombination of the ground electronic and vibrational state of CO(+). The most important routes are 2(3)Π, 3(3)Π, 2(1)Π, and D'(1)Σ(+). For electron energies below 0.

Spectroscopy above the ionization threshold: dissociative recombination of the ground vibrational level of N2+.

Comprehensive theoretical calculations are reported for the dissociative recombination of the lowest vibrational level of the N(2)(+) ground state. Fourteen dissociative channels, 21 electron capture channels, and 48 Rydberg series including Rydberg states having the first excited state of the ion as core are described for electron energies up to 1.0 eV.

Calcium polyuronate dressing supplemented with zinc and manganese (trionic®) in necrotizing dermohypodermitis of the extremities: a randomized multicentre study.

Background. For the burn surgeon, the treatment of necrotizing soft tissue infections is one of the most demanding surgical emergencies, requiring "radical excisions" of the infected tissue and reconstruction. During the infection period, the excised sites are treated with application of gauzes soaked in saline solution.

Role of excited core Rydberg states in dissociative recombination.

Intermediate states formed during the dissociative recombination of molecular ions with electrons can play significant roles in determining the magnitude of the total rate coefficient. These resonances are Rydberg states of two types, that is, they can have the ground or excited states of the ion as a core. Those with the excited cores have a fundamentally different excitation mechanism than those with the ground state core.

Product angular distributions in dissociative recombination.

The dependence of the dissociative recombination cross section upon the angle between the incoming electron beam and the ion internuclear axis is determined for diatomic molecules. Product angular distributions are derived for the component partial waves of the Coulomb wave function. In agreement with earlier results for dissociative attachment, it is shown that in the slow rotation approximation, if electron capture is dominated by a single partial wave, the product angular distribution is given by the square of the absolute value of the partial wave spherical harmonic describing the incoming electron.

[Prognosis of the outcome of macrofocal myocardial infarct with the aid of the recognition program].

Methods used in solving the problem of prognosing favourable or unfavourable outcomes of a transmural (or macrofocal) myocardial infarction, based on the data covering the first 3 days of the hospital stay for patients admitted to it not later than 2 days after the onset of myocardial infarction and who did not develop during this period extremely serious complications, are described. The prognosis covered the entire period of the institutional treatment of the patients. The data underwent computer processing.