121 research outputs found
High Current Diffusion Type Diodes at Cryogenic Temperatures for the LHC Superconducting Magnet Protection
High-current by-pass diodes are required for the protection of the superconducting magnets for the Large Hadron Collider LHC at CERN . These diodes are at liquid helium tem-perature and will be exposed to irradiation. With the re-location of the by-pass diodes for the main dipoles underneath the iron yoke and of those for the quadrupoles at the bottom of the cryostat the new estimations for the irradiation dose amounts to about 30 Gy and a neutron fluence of about 1.5 x 1011 n/cm2 for the dipole di-odes and about 100 Gy and5 x 1011 n/cm2 for the quadrupole diodes during 10 years. These relatively low doses may allow the use of diffusion type diodes in-stead of epitaxial diodes. The electrical characteristics of several diodes were measured at temperatures in the range between 1.8K and 300K. Diffu-sion type diodes from three manufacturers were submitted to high current endurance tests in liquid helium. Electrical characteristics and temperatures were measured versus time and showed acceptable results. First irradiation tests show that modified diffusion diodes can be used at least for the dipole by-pass
Emergence of Biofuel Production Chain in Mali and Madagascar: Governance and Risk Management
La biomasse a suscité, ces dernières années, un intérêt renouvelé pour la
production d’énergie. L’attention s’est focalisée, entre autres, sur les
agrocarburants et sur les pays du Sud pour la production de biomasse. En
Afrique, la majorité des filières agrocarburants sont à l’heure actuelle dans
une phase d’émergence. Au Mali et à Madagascar, ces dernières visent
principalement la valorisation des graines de jatropha, pour l’électrification
rurale ou le transport (biodiesel pour le marché national, ou huile végétale
pure pour l’export).
Dans la littérature en économie des filières, la plupart des analyses
s’intéressent au mode de gouvernance et aux stratégies de gestion du risque
dans des filières d’ores et déjà établies. L’exemple des agro carburants
produits à partir du Jatropha offre l’opportunité de s’interroger sur les
processus de construction des filières. Il permet d’analyser les stratégies de
gestion de risque dans un contexte de nombreuses incertitudes, liées non
seulement à la nécessaire coordination d’activités de production agricoles
et de distribution d’énergie, mais aussi au caractère méconnu de la culture,
à la mise au point de procédés de conversion énergétique adaptés aux
contextes africains et à l’adoption de nouvelles pratiques par les distributeurs
d’énergie ou les consommateurs finaux.
Sur la base de l’analyse des dynamiques en cours au Mali et à Madagascar,
l’objectif de l’article est double. Il vise tout d’abord à identifier les
opérateurs qui jouent un rôle moteur dans le développement des filières
Jatropha et à analyser leurs outils de gouvernance. Il étudie ensuite la façon
dont ces opérateurs « moteurs » mobilisent ces outils de gouvernance
pour gérer les risques de production, de transformation et de mise en
marché
Direction of Movement Is Encoded in the Human Primary Motor Cortex
The present study investigated how direction of hand movement, which is a well-described parameter in cerebral organization of motor control, is incorporated in the somatotopic representation of the manual effector system in the human primary motor cortex (M1). Using functional magnetic resonance imaging (fMRI) and a manual step-tracking task we found that activation patterns related to movement in different directions were spatially disjoint within the representation area of the hand on M1. Foci of activation related to specific movement directions were segregated within the M1 hand area; activation related to direction 0° (right) was located most laterally/superficially, whereas directions 180° (left) and 270° (down) elicited activation more medially within the hand area. Activation related to direction 90° was located between the other directions. Moreover, by investigating differences between activations related to movement along the horizontal (0°+180°) and vertical (90°+270°) axis, we found that activation related to the horizontal axis was located more anterolaterally/dorsally in M1 than for the vertical axis, supporting that activations related to individual movement directions are direction- and not muscle related. Our results of spatially segregated direction-related activations in M1 are in accordance with findings of recent fMRI studies on neural encoding of direction in human M1. Our results thus provide further evidence for a direct link between direction as an organizational principle in sensorimotor transformation and movement execution coded by effector representations in M1
Spatial Learning and Action Planning in a Prefrontal Cortical Network Model
The interplay between hippocampus and prefrontal cortex (PFC) is fundamental to
spatial cognition. Complementing hippocampal place coding, prefrontal
representations provide more abstract and hierarchically organized memories
suitable for decision making. We model a prefrontal network mediating
distributed information processing for spatial learning and action planning.
Specific connectivity and synaptic adaptation principles shape the recurrent
dynamics of the network arranged in cortical minicolumns. We show how the PFC
columnar organization is suitable for learning sparse topological-metrical
representations from redundant hippocampal inputs. The recurrent nature of the
network supports multilevel spatial processing, allowing structural features of
the environment to be encoded. An activation diffusion mechanism spreads the
neural activity through the column population leading to trajectory planning.
The model provides a functional framework for interpreting the activity of PFC
neurons recorded during navigation tasks. We illustrate the link from single
unit activity to behavioral responses. The results suggest plausible neural
mechanisms subserving the cognitive “insight” capability originally
attributed to rodents by Tolman & Honzik. Our time course analysis of neural
responses shows how the interaction between hippocampus and PFC can yield the
encoding of manifold information pertinent to spatial planning, including
prospective coding and distance-to-goal correlates
Towards Comprehensive Foundations of Computational Intelligence
Abstract. Although computational intelligence (CI) covers a vast variety of different methods it still lacks an integrative theory. Several proposals for CI foundations are discussed: computing and cognition as compression, meta-learning as search in the space of data models, (dis)similarity based methods providing a framework for such meta-learning, and a more general approach based on chains of transformations. Many useful transformations that extract information from features are discussed. Heterogeneous adaptive systems are presented as particular example of transformation-based systems, and the goal of learning is redefined to facilitate creation of simpler data models. The need to understand data structures leads to techniques for logical and prototype-based rule extraction, and to generation of multiple alternative models, while the need to increase predictive power of adaptive models leads to committees of competent models. Learning from partial observations is a natural extension towards reasoning based on perceptions, and an approach to intuitive solving of such problems is presented. Throughout the paper neurocognitive inspirations are frequently used and are especially important in modeling of the higher cognitive functions. Promising directions such as liquid and laminar computing are identified and many open problems presented.
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