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This is a listing of people with an interest in neuroinformatics.

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Result: 76 - Electrophysiology

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Last name First name Affiliation Country
Le Franc Yann University of Antwerp Belgium
Yann Le Franc
Email:
Research Area(s): General neuroinformatics, Computational neuroscience, Electrophysiology, Infrastructural and portal services
Research focus: My current research focuses on the development of an ontology of the neural network modeling field.
Profile updated 2010-02-10 View profile page
Kötter Rolf Donders Inst. of Brain, Cognition and Behaviour Netherlands
Rolf Kötter
Email: Phone:
+31243614244 (Secretariat)
Research Area(s): Digital atlasing, Neuroimaging, Large scale modeling, Electrophysiology
Research focus: Connectivity of the primate brain
Profile updated 2012-06-15 View profile page
Krieger Patrik Karolinska Institutet Sweden
Email:
Research Area(s): General neuroinformatics, Digital atlasing, Large scale modeling, Electrophysiology
Research focus: "What is it and where is it?" Using the rodent whisker system as a model we study in my group how the nervous system resolves this problem.
Profile updated 2010-05-01 View profile page
Kock Christiaan VU University Amsterdam Netherlands
Christiaan d Kock
Email:
Research Area(s): Digital atlasing, Electrophysiology
Research focus: My goal is to examine how cortical neurons encode sensory stimuli and how stimulus representation is affected by behavior. using in vivo electrophysiology and 3D reconstruction of recorded neurons.
Profile updated 2013-02-28 View profile page
Knocikova Juliana Department of Physics, University of Zilina and Department of Medical Physics, Biophysics, Comenius University Slovakia
Email:
Research Area(s): General neuroinformatics, Computational neuroscience, Electrophysiology, Clinical neuroscience
Research focus: Respiratory neurophysics; mathematical modeling of respiratory pattern via time- frequency energy distribution and manner of nonlinearity related to different respiratory outputs; respir. regulation
Profile updated 2010-08-24 View profile page
Klaus Andreas Karolinska Institute Sweden
Andreas Klaus
Email:
Research Area(s): Computational neuroscience, Large scale modeling, Electrophysiology
Research focus: The aim of my research is to gain a better understanding of the striatal gating mechanisms by means of detailed computational modeling and experimental measurements in organotypic triple cultures (cortex, striatum, and substantia nigra). The striatum is the main input stage of the basal ganglia system, which makes it interesting to study.
Profile updated 2009-06-06 View profile page
Kiriazov Petko Bulgarian Academy of Sciences Bulgaria
Email:
Research Area(s): Computational neuroscience, Neuromorphic engineering, Brain machine interface, Electrophysiology, Clinical neuroscience
Research focus: Principles and algorithms for optimal movement learning to develop strategies for efficient neurorehabilitation. BCI, EMG, FES, and robotic systems can be used.
Profile updated 2009-06-06 View profile page
Katz Paul Georgia State University United States
Paul Katz
Email: Phone:
404-413-5398 (Office)
Research Area(s): General neuroinformatics, Electrophysiology
Research focus: Study of neural circuits in gastropod molluscs, with an emphasis on neuromodulation and evolution involving identified neurons.
INCF activities: Ontologies of Neural Structures | Representation and Deployment Task Force
Profile updated 2010-12-05 View profile page
Kaiser Marcus Institute of Neuroscience United Kingdom
Marcus Kaiser
Email:
Research Area(s): Computational neuroscience, Neuroimaging, Large scale modeling, Electrophysiology, Clinical neuroscience
Research focus: I work on organization, development, dynamics, and robustness of cortical and neuronal networks. I am initiator and deputy director of the Wellcome Trust 4-year PhD programme Systems Neuroscience: From Networks to Behaviour and of the EPSRC funded network mathematical Neuroscience . I am also member of the editorial board of the journal Frontiers in Neuroinformatics and PLoS ONE . I work on (a) simulating the spreading of activity in hierarchical clustered networks to understand the spreading of epileptic seizures, (b) discovering constraints for spatial and topological organization of neural systems, (c) simulating the development of neural networks in order to understand developmental diseases, and (d) studying mechanisms of recovery after failure in neuronal and artificial information processing networks. For more information see the personal website www.biological-networks.org .
Profile updated 2009-06-30 View profile page
Jung Ranu Center for Adaptive Neural Systems, Ira A. Fulton School of Engineering, Arizona State University (ASU) United States
Ranu Jung
Email:
Research Area(s): Computational neuroscience, Neuromorphic engineering, Electrophysiology
Research focus: My interests lie in a comprehensive understanding of neuromotor organization, developing living-hardware systems for motor control and strategies for neuromotor therapy.
Profile updated 2010-06-28 View profile page
Islam Md Dept. of Electrical & Computer Engineering, National University of Singapore Singapore
Email: Phone:
6598615062 (Mobile)
Research Area(s): Computational neuroscience, Brain machine interface, Electrophysiology
Research focus: Neural Signal Processing
Profile updated 2012-06-19 View profile page
Ingram Colin Institute of Neuroscience, Newcastle United Kingdom
Colin Ingram
Email: Phone:
+44 191 222 8210 (Office)
+44 191 222 7167 (Secretariat)
Research Area(s): Electrophysiology, Infrastructural and portal services
Research focus: I am coordinating the CARMEN project to develop an e-science platform for the sharing and analysis of time-series data (electrophysiology).
Profile updated 2009-12-18 View profile page
Ichinohe Noritaka Hirosaki University Japan
Email:
Research Area(s): General neuroinformatics, Genomics and genetics, Large scale modeling, Brain machine interface, Electrophysiology, Infrastructural and portal services
Research focus: I am interesed in cortical organization and function.
Profile updated 2009-06-10 View profile page
Hirata Yutaka Dept. Computer Science, Chubu University College of Engineering Japan
Yutaka Hirata
Email: Phone:
+81-568-51-9476 (Office)
Research Area(s): Computational neuroscience, Large scale modeling, Brain machine interface, Electrophysiology
Research focus: To understand the mechanism of the robust adaptive motor control in biological systems, we employ electro-physiology and animal behavioral study in combination with engineering tools.
Profile updated 2009-10-12 View profile page
Hill Sean INCF Sweden
Sean Hill
Email:
Research Area(s): General neuroinformatics, Computational neuroscience, Digital atlasing, Large scale modeling, Electrophysiology, Infrastructural and portal services
Research focus: Biologically-realistic models to study the role of emergent phenomena in information processing, network connectivity and synaptic plasticity in wakefulness and sleep.
Profile updated 2012-01-01 View profile page
Herz Andreas Ludwig-Maximilians Universität München Germany
Andreas Herz
Email: Phone:
+49-89-2180-74801 (Office)
+49-89-2180-74304 (Fax)
Research Area(s): Computational neuroscience, Electrophysiology
Research focus: We use methods from the theory of dynamical systems and probability theory to analyze and model electrophysiological data and to compare them with theoretical predictions. We are also developing novel techniques to integrate real-time data analysis methods into neurobiological experiments.
Profile updated 2010-05-19 View profile page
Halliday David Department of Electronics, University of York United Kingdom
Email: Phone:
+44 1904 322345 (Office)
Research Area(s): Computational neuroscience, Electrophysiology
Research focus: Studying brain function through the design, implementation, dissemination and application of statistical signal processing tools for analysis of Electrophysiological and Neuroimaging data.
Profile updated 2011-01-20 View profile page
Hagen Espen Dept. Mathematichal Sciences and Technology, UMB Norway
Email:
Research Area(s): Computational neuroscience, Large scale modeling, Electrophysiology
Research focus: Modeling and analysis of Local Field Potentials
Profile updated 2011-12-01 View profile page
Grossberg Stephen Dept. of Cognitive & Neural Systems, Center for Adaptive Systems, Boston University United States
Stephen Grossberg
Email: Phone:
617-353-7858/7 (Office)
Research Area(s): Computational neuroscience, Large scale modeling, Neuromorphic engineering, Brain machine interface, Electrophysiology, Clinical neuroscience
Research focus: My work develops models of how a brain gives rise to a mind, notably how brains adapt in real time to unpredictable environments, and transfers these new design insights and mechanisms to technology
Profile updated 2009-08-25 View profile page
Grillner Sten Karolinska Institutet Sweden
Sten Grillner
Email: Phone:
+46 8 524 869 00 (Office)
+46 8 34 95 44 (Fax)
Research Area(s): Electrophysiology
Research focus: Our main aim is to understand the cellular bases of motor behaviour with a focus on the mechanisms underlying selection of behaviour and the neural bases of in particular locomotion, posture, orienting and eye movements. This in turn requires a detailed knowledge of which nerve cells take part, how they talk to each other through synaptic interaction and an understanding of the intrinsic function of these networks. The properties of the nerve cells within the network can vary greatly and are determined by the palette of ion channels expressed and also other gene products. Essentially our research extends from ion channels and synapses to network mechanisms and behaviour utilizing a multitude of techniques from patch clamp and cellular imaging to modelling and studies of behaviour. We utilize preferentially the lamprey as model organism but also mammalian models for the studies of posture and selection mechanisms.   We have been able, based on detailed cellular knowledge, to successfully model the networks responsible for the command and pattern generating systems for locomotion including steering and posture. Our work continues with several foci including the role of the basal ganglia for selection of different patterns of motor behaviour, tectum for steering and eye motor coordination, the physiological role of different modulator systems acting through the spinal networks, and different ion channel subtypes contributing to neuronal function.
Profile updated 2008-11-17 View profile page
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