Sten Grillner


Ontology type: schema:Person     


Person Info

NAME

Sten

SURNAME

Grillner

Publications in SciGraph latest 50 shown

  • 2016-09 Worldwide initiatives to advance brain research in NATURE NEUROSCIENCE
  • 2016-01-08 Ciliated neurons lining the central canal sense both fluid movement and pH through ASIC3 in NATURE COMMUNICATIONS
  • 2013-10 Foreword for the special issue on Lamprey and Salamander Robots and the Central Nervous System in BIOLOGICAL CYBERNETICS
  • 2013-10 A bioinspired autonomous swimming robot as a tool for studying goal-directed locomotion in BIOLOGICAL CYBERNETICS
  • 2013-10 A computational model of visually guided locomotion in lamprey in BIOLOGICAL CYBERNETICS
  • 2011-05 Neuroscience in recession? in NATURE REVIEWS NEUROSCIENCE
  • 2010-04 Guest editorial: special issue on control of locomotion—from animals to robots in AUTONOMOUS ROBOTS
  • 2009 The Molecular and Cellular Design of Networks in Motion in SYSTEMS BIOLOGY
  • 2008-12 The Kavli prize winners in NATURE REVIEWS NEUROSCIENCE
  • 2008-12 Switching gears in the spinal cord in NATURE NEUROSCIENCE
  • 2007-02 A hemicord locomotor network of excitatory interneurons: a simulation study in BIOLOGICAL CYBERNETICS
  • 2003-07 The motor infrastructure: from ion channels to neuronal networks in NATURE REVIEWS NEUROSCIENCE
  • 2003-06 Neuroscience data and tool sharing in NEUROINFORMATICS
  • 2003-02 From swimming to walking: a single basic network for two different behaviors in BIOLOGICAL CYBERNETICS
  • 2002-01 Mechanisms for lateral turns in lamprey in response to descending unilateral commands: a modeling study in BIOLOGICAL CYBERNETICS
  • 2001-09 Modeling of Substance P and 5-HT Induced Synaptic Plasticity in the Lamprey Spinal CPG: Consequences for Network Pattern Generation in JOURNAL OF COMPUTATIONAL NEUROSCIENCE
  • 2001-04 Modeling postural control in the lamprey in BIOLOGICAL CYBERNETICS
  • 2000-09 Crossed reciprocal inhibition evoked by electrical stimulation of the lamprey spinal cord in EXPERIMENTAL BRAIN RESEARCH
  • 1999-10 Neural mechanisms potentially contributing to the intersegmental phase lag in lamprey in BIOLOGICAL CYBERNETICS
  • 1999-10 Neural mechanisms potentially contributing to the intersegmental phase lag in lamprey in BIOLOGICAL CYBERNETICS
  • 1998-08 Activity-dependent modulation of adaptation produces a constant burst proportion in a model of the lamprey spinal locomotor generator in BIOLOGICAL CYBERNETICS
  • 1998-05 Modulation of Burst Frequency by Calcium-Dependent Potassium Channels in the Lamprey Locomotor System: Dependence of the Activity Level in JOURNAL OF COMPUTATIONAL NEUROSCIENCE
  • 1998 Significance of Modulated Adaptation for Rhythm Generation and Inter-Segmental Co-Ordination in Lamprey in COMPUTATIONAL NEUROSCIENCE
  • 1998 Local Spinal Modulation of the KCA Channel Underlying Slow Adaptation in a Model of The Lamprey CPG in COMPUTATIONAL NEUROSCIENCE
  • 1998 Activity Dependent Modulation of the Burst Rate by Calcium-Dependent Potassium Channels in Lamprey in COMPUTATIONAL NEUROSCIENCE
  • 1998 Modulation of Oscillatory Properties, Burst Rates, Intersegmental Coordination By Gabab- Receptor Activation in the Lamprey in COMPUTATIONAL NEUROSCIENCE
  • 1998 Production of Phase Lag in Chains of Neural Networks Oscillating Through an Escape Mechanism in COMPUTATIONAL NEUROSCIENCE
  • 1997 A Computational and Experimental Study of Rebound Firing and Modulatory Effects on the Lamprey Spinal Network in COMPUTATIONAL NEUROSCIENCE
  • 1997-01 Intersegmental coordination in the lamprey: simulations using a network model without segmental boundaries in BIOLOGICAL CYBERNETICS
  • 1997 Modulating the Calcium Dependent Potassium Conductance in a Model of the Lamprey CPG in COMPUTATIONAL NEUROSCIENCE
  • 1996-01 Neural networks for vertebrate locomotion. in SCIENTIFIC AMERICAN
  • 1995-03 Control of lamprey locomotor neurons by colocalized monoamine transmitters in NATURE
  • 1995 Simulations of Intersegmental Coordination during Swimming in the Lamprey using a Continuous Network Model in THE NEUROBIOLOGY OF COMPUTATION
  • 1994-06 European brain research in NATURE
  • 1994-02 A functional role for nitric oxide in locus coeruleus: immunohistochemical and electrophysiological studies in EXPERIMENTAL BRAIN RESEARCH
  • 1993-08 Visual input affects the response to roll in reticulospinal neurons of the lamprey in EXPERIMENTAL BRAIN RESEARCH
  • 1993 Entrainment of the Spinal Neuronal Network Generating Locomotion in NEUROSCIENCE: FROM NEURAL NETWORKS TO ARTIFICIAL INTELLIGENCE
  • 1993 Undulatory Locomotion — Simulations with Realistic Segmental Oscillator in COMPUTATION AND NEURAL SYSTEMS
  • 1993-01 Effects of serotonin on fictive locomotion coordinated by a neural network deprived of NMDA receptor-mediated cellular properties in EXPERIMENTAL BRAIN RESEARCH
  • 1992-11 Computer simulation of the segmental neural network generating locomotion in lamprey by using populations of network interneurons in BIOLOGICAL CYBERNETICS
  • 1992-09 Vestibular control of swimming in lamprey in EXPERIMENTAL BRAIN RESEARCH
  • 1992-09 Vestibular control of swimming in lamprey in EXPERIMENTAL BRAIN RESEARCH
  • 1992-06 Synaptic potentials and transfer functions of lamprey spinal neurons in BIOLOGICAL CYBERNETICS
  • 1991-06 A computer based model for realistic simulations of neural networks in BIOLOGICAL CYBERNETICS
  • 1990 Serotonin and Coexisting Peptides in Cat and Lamprey Spinal Cord in SEROTONIN
  • 1988-11 Three-dimensional reconstruction of transmitter-identified central neurons by “en bloc” immunofluorescence histochemistry and confocal scanning microscopy in EXPERIMENTAL BRAIN RESEARCH
  • 1986 Interaction between Sensory Signals and the Central Networks Controlling Locomotion in Lamprey, Dogfish and Cat in NEUROBIOLOGY OF VERTEBRATE LOCOMOTION
  • 1986 On the Spinal Network Generating Locomotion in the Lamprey: Transmitters, Membrane Properties and Circuitry in NEUROBIOLOGY OF VERTEBRATE LOCOMOTION
  • 1986 The Effect of L-DOPA on the Spinal Cord — Relation to Locomotion and the Half Center Hypothesis in NEUROBIOLOGY OF VERTEBRATE LOCOMOTION
  • 1985 The Central Nervous System Utilizes a Simple Control Strategy to Generate the Synergy Used to Control Locomotion in COMPLEX SYSTEMS — OPERATIONAL APPROACHES IN NEUROBIOLOGY, PHYSICS, AND COMPUTERS
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