The critical role of locomotion mechanics in decoding sensory systems.
about
Feedback control as a framework for understanding tradeoffs in biologyCoding movement direction by burst firing in electrosensory neurons.Subthreshold membrane conductances enhance directional selectivity in vertebrate sensory neurons.Differences in the time course of short-term depression across receptive fields are correlated with directional selectivity in electrosensory neurons.Parallel sparse and dense information coding streams in the electrosensory midbrain.Motor patterns during active electrosensory acquisition.Bursts and isolated spikes code for opposite movement directions in midbrain electrosensory neurons.Optimal movement in the prey strikes of weakly electric fish: a case study of the interplay of body plan and movement capabilityWithin-wingbeat damping: dynamics of continuous free-flight yaw turns in Manduca sexta.Mutually opposing forces during locomotion can eliminate the tradeoff between maneuverability and stability.Dynamic modulation of visual and electrosensory gains for locomotor controlSynaptic plasticity can produce and enhance direction selectivitySensory processing and corollary discharge effects in posterior caudal lobe Purkinje cells in a weakly electric mormyrid fish.Discriminating external and internal causes for heading changes in freely flying Drosophila.A single muscle's multifunctional control potential of body dynamics for postural control and running.Spikes alone do not behavior make: why neuroscience needs biomechanicsDelay-Dependent Response in Weakly Electric Fish under Closed-Loop Pulse Stimulation.Walking dynamics are symmetric (enough).Optimal motor control may mask sensory dynamics.Efficient computation via sparse coding in electrosensory neural networksSensory feedback in cockroach locomotion: current knowledge and open questions.Motion processing across multiple topographic maps in the electrosensory systemEntrainment Ranges for Chains of Forced Neural and Phase Oscillators.Wing-pitch modulation in maneuvering fruit flies is explained by an interplay between aerodynamics and a torsional spring.Using computational and mechanical models to study animal locomotion.Haptic feedback enhances rhythmic motor control by reducing variability, not improving convergence rate.Serotonin Selectively Increases Detectability of Motion Stimuli in the Electrosensory System.
P2860
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P2860
The critical role of locomotion mechanics in decoding sensory systems.
description
2007 nî lūn-bûn
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2007年の論文
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2007年学术文章
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2007年学术文章
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2007年学术文章
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2007年学术文章
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name
The critical role of locomotion mechanics in decoding sensory systems.
@en
The critical role of locomotion mechanics in decoding sensory systems.
@nl
type
label
The critical role of locomotion mechanics in decoding sensory systems.
@en
The critical role of locomotion mechanics in decoding sensory systems.
@nl
prefLabel
The critical role of locomotion mechanics in decoding sensory systems.
@en
The critical role of locomotion mechanics in decoding sensory systems.
@nl
P1476
The critical role of locomotion mechanics in decoding sensory systems
@en
P2093
Noah J Cowan
P304
P356
10.1523/JNEUROSCI.4198-06.2007
P407
P577
2007-01-01T00:00:00Z