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  • Aapo Hyvarinen Zapisz - Involved in developing independent component analysis (ICA). Page supplies papers and code for reproducing experiments. Addresses generative model based vision and statistics of natural scenes.
  • Ad Aertsen Zapisz - This lab studies theoretical neuroscience, spiking neural networks, temporal processing and dynamic coding.
  • Allison Doupe Zapisz - Lab analyzes how the nervous system mediates behavior, especially complex behaviors that must be learned, studying the neural basis of vocal learning in songbirds.
  • Andreas Bartels Zapisz - Using imaging methods to understand information processing in the human brain.
  • Andreas Engel Zapisz - Work at the 40Hz Lab is focused on the dynamics of neural processing, from single cells to perception and behavior.
  • Ann Graybiel Zapisz - Research at the Graybiel Lab at the McGovern Institute for Brain Research, is focused on trying to understand how activity states of the forebrain are controlled and modulated during motor activity, procedural learning and cognition.
  • Bjorn Brembs Zapisz - Features a wealth of background knowledge about learning and memory (with an emphasis on associative learning) together with published and unpublished original research on the fruitfly Drosophila and the sea-slug Aplysia.
  • Breedlove Jordan Lab Zapisz - This lab at Michigan State University is researching the hormonal modulation of the developing and adult nervous system that leads to changes in behavior.
  • Bruno Olshausen Zapisz - Research at the lab concentrates on trying to understand how we organize sensory information in order to build meaningful representations of objects, sounds and surface textures in the environment.
  • Christoph Kayser Zapisz - Work combines behavioral and electrophysiological studies with functional imaging in order to understand how the brain combines the input from the different sensory systems into a coherent whole.
  • Claudia Schmauss Zapisz - The Laboratory at Columbia University performs neurobiology research on dopamine receptors.
  • Cynthia F. Moss Zapisz - Advancing our understanding of how sensory information is processed, organized, and integrated with motor programs, with a focus on bat auditory processing.
  • Cynthia L. Jordan Zapisz - The Jordan lab works on cellular and molecular mechanims underlying steroid-regulated behaviors.
  • Cyril Pernet Zapisz - Studies statistics, human neurophysiology and neuroimaging. Provides a user guide for fMRI analysis using SPM2.
  • Dale Purves Zapisz - The Purves laboratory is studying visual perception and its neurobiological underpinnings. Shows a lot of interactive demos of psychophysical effects and optical illusions.
  • Dario Floreano Zapisz - Goal is to develop methods for evolving embedded intelligent systems, such as Autonomous Robots, capable of adaptation to physical environments. Interested in artificial sensory-motor systems that display life-like properties and are based upon bio-inspired mechanisms (genetics, cellular biology, neural networks, bio-morphic engineering).
  • David Attwell Zapisz - The Attwell lab at UCL studies neuron-glial interactions and the energy supply to the brain.
  • David Cox Zapisz - The Visual Neuroscience Group at Harvard studies the neurophysiology of natural visual systems in an effort to build better artificial ones
  • David Mumford Zapisz - Research is on similarity metrics, statistics of natural scenes and pattern theory.
  • David Tam Zapisz - A physiologist studying computational and experimental neuroscience problems.
  • David Tolhurst Zapisz - My research interests are in the area of the neurophysiology and psychophysics of vision.
  • Dittmar, Michael Zapisz - Research on stroke, anesthesiology, and out-of-hospital emergency medicine.
  • Donald Sakaguchi Zapisz - Researches development and plasticity in vertebrate visual systems
  • Douglas A. Baxter Zapisz - The Baxter lab is investigating how neural circuits are organized, what principles underlie their function, and the consequences of sensory inputs and of modulatory influences.
  • Dwight Bergles Zapisz - The Laboratory at Johns Hopkins studies synaptic physiology, with an emphasis on glutamate transporters and glial involvement in neuronal signaling.
  • EBRI: European Brain Research Institute Zapisz - Research at EBRI is focused on the functional organization of the brain, and translating basic brain science into ways to possibly cure the diseases affecting the nervous system.
  • Ed Adelson Zapisz - Ed Adelson focuses on topics in human and machine vision, including mid-level vision, lightness perception, motion analysis, perceptual organization, and image data compression.
  • Ed Boyden Zapisz - Analysis and engineering of neural circuit function.
  • Eduardo Candelario-Jalil Zapisz - The lab is using neurochemical approaches to study phenomena such as brain injury and regeneration.
  • Eero Simoncelli Zapisz - The laboratory addresses a variety of basic issues in the analysis and representation of visual imagery. 1) construction of mathematical theories for the representation of visual information, 2) development of functional models for biological visual processing, and 3) creation of novel algorithms for image processing and computer vision applications.
  • Elba Serrano Zapisz - Focuses on the development of the nervous system, with an emphasis on the sensory systems responsible for hearing and balance.
  • Elie Bienenstock Zapisz - Elie Bienenstock is interested in temporal coding by individual action potentials.
  • Eunice Yuen Zapisz - Research focuses on the regulation of neurotransmitter receptors, and the implications of abnormal receptor activity in neurological diseases.
  • Francesco Ventriglia Zapisz - Working at the Institute of Cybernetics of CNR. Working on projects related to parallel computer simulation of neurotransmitter difusion and neural network.
  • Fred Gage Zapisz - The Gage lab works on adult neural stem cells.
  • Gary Holt Zapisz - Our goal is to devise learning rules that can develop a feature-detector hierarchy similar to that proposed by Fukushima et al. (1983) in order to recognize objects independent of location, scale, or orientation.
  • Gaute Einevoll Zapisz - Research activity is in computational neuroscience, in particular various problems related to the function of nerve cells and networks of nerve cells.
  • Geoffrey Boynton Zapisz - Researching the neural correlates of human visual perception using the relatively new technique for measuring brain responses in humans called functional magnetic resonance imaging.
  • Georg Schulze Zapisz - Motivational psychology from an engineering perspective with biological constraints. Behavioral modeling. Resonance Raman spectroscopy of neurotransmitters. Artificial neural networks.
  • Heather Bradshaw Zapisz - Research at the Kinsey Institute is centered on the relationship of endogenous cannabinoids and uterine and vaginal neurophysiology.
  • Huda Zoghbi Zapisz - The Zoghbi lab works on neural development and neurodegeneration.
  • Idan Segev Zapisz - This lab at the Department of Neurobiology, Hebrew University, Israel is studying nerve cells and the specific networks they form.
  • Jürgen Schmidhuber Zapisz - Has done important work on regularization of neural networks. Also addresses processing long short term memory and optimal learning.
  • Jack Gallant Zapisz - The Gallant lab studies the neural basis of vision and visual perception, with particular emphasis on object vision, and visual selective attention.
  • Jennifer Raymond Zapisz - The Raymond lab does research on the mechanisms of motor learning in a simple cerebellar task.
  • Jerzy Achimowicz Zapisz - Digital signal processing (DSP) is applied to the analysis of electro-physiological signals (such as EEG), with emphasis on human brain electrical activity. From the State Committee for Scientific Research; Warsaw, Poland.
  • Jianguo Gu Zapisz - Studies on spinal cord sensory transmission using patch-clamp, immunocytochmistry and molecular biology approaches.
  • Jim Trimmer Zapisz - Research laboratory studying molecular organization of neuronal signaling proteins.
  • John Taylor Zapisz - Mathematical modelling in neurobiology, Neural computation and neural bases of behaviour, High energy physics and superstrings, quantum field theory and quantum gravity.
  • John W. Moore Zapisz - This lab studies a simple form of associative learning - classical eyeblink conditioning in rabbits - using a variety of approaches: behavioral, computational, and neurophysiological. Recent work has focused on neuronal activity of the cerebellum during complex training procedures.
  • Jonas Frisen Zapisz - The Frisen Lab at the Karolinska Institute in Sweden is studying the development of the nervous system and the continued neurogenesis from neural stem cells in the adult.
  • Josh Tenenbaum Zapisz - Studies how people use statistical methods when solving cognitive problems.
  • Juanita Anders Zapisz - Research on low power laser irradiation, spinal cord injury research and diabetes. Uniformed Services University of the Health Sciences, Department of Anatomy, Physiology and Genetics.
  • Julie Grezes Zapisz - Dr. Grezes studies neural bases of social phenomena such as action perception, emotions, and theory of mind.
  • Jörg Conradt Zapisz - Does robotics research at institute of neuroinformatics. He is interested in novel types of robots, pattern generation, control and navigation.
  • Karl Deisseroth Zapisz - Studies hippocampal neurogenesis.
  • Kaushik Ghose Zapisz - Behavioural experiments on flying bats. Beam patterns. Neural models.
  • Klaus Obermayer Zapisz - The NI group focuses on computational models of neuronal systems, on the mathematical analysis of neural networks, and on the development of ANN algorithms, in particular for image processing applications.
  • Klaus-Armin Nave Zapisz - Prof. Dr. Nave uses transgenic mouse and molecular/cellular techniques to study neural development and the neurodegenerative pathogenesis.
  • Konrad Körding Zapisz - Neuroscientist doing both experiments and theory at the Institute of Neurology, London. Specializes in Bayesian Statistics and Statistics of Natural scenes. Applications to Visual, Somatosensory, Auditory and Motor problems.
  • Laurent Itti Zapisz - Focus in visual neuroscience, approached using computational modeling, human psychophysics and functional neuroimaging. In particular, studies on visual attention in primates.
  • Lilian Yuan Zapisz - Research at the Department of Neuroscience at the University of Minnesota is focused on understanding the dendritic mechanisms underlying synaptic and intrinsic plasticity, and how malfunction of these mechanisms contributes to human neurological diseases.
  • Lisa Topolnik Zapisz - The Neural Imaging Lab uses cellular imaging techniques in combination with electrophysiology and genetic approaches to study local biochemical signalling at excitatory synapses of different type of central neurons.
  • Loesch, Dr Andrzej Zapisz - Relationship between the autonomic nervous system and the vascular system, mechanisms underlying disease in human arteries, cerebral and coronary arteries. Relevant to clinical medicine. Saphenous vein for CABG, and neurodegenerative diseases. University College London.
  • Luis R. Cruz Cruz Zapisz - Studies Alzheimers disease at the Center for Polymer Studies at Boston University.
  • Luke Remage-Healey Zapisz - At the Brain Research Institute at the University of California. List of publications.
  • Lydia Danglot Zapisz - Researching the mechanisms of formation of neuronal synapses and vesicular trafficking. Also provides details of publications and courses taught.
  • Maneesh Sahani Zapisz - Focuses on the statistical analysis of neural data and the design of experiments in neuroscience.
  • Mark Dubin Zapisz - Applies virtual reality to neural rehabilitation.
  • Mato, German Zapisz - Researcher at Bariloche Nuclear Center. Includes activity on neural networks, neural modelling and related subjects. List of publications.
  • Matt Phillips Zapisz - Postdoct in Dr. Michael E. Goldberg's Primate Electrophysiology lab in Columbia University. Research interests include neurobiology, psychophysics, visual search and saccadic eye movement.
  • Matt Wilson Zapisz - What are the mechanisms of learning and memory? How are actions and experiences encoded in the activity patterns of neurons in the brain? In the Wilson Lab we are addressing these questions through multineuron recording from the hippocampus and other brain areas of rats and mice during active behavior.
  • Matthew Larkum Zapisz - My research interests focus on the roll of dendritic processing in networks of cortical neurons.
  • Maurizio Grimaldi Zapisz - Information includes curriculum vitae, publications, research interest description, address, and links.
  • Michael Hausser Zapisz - Works on how neuronal dendrites perform computations.
  • Michale Fee Zapisz - Understanding how the brain learns and generates complex sequential behaviors, with a focus on the songbird as a model system.
  • Mikko Juusola Zapisz - Studies processing in visual neurons of Drosophila as well as effects of molecular components on neural computations and sensory adaptation. Influence of rearing and environment on signalling is studied and signalling during natural stimulation is analyzed and modeled.
  • Nathan Intrator Zapisz - Neural computation, high dimensional statistics and pattern recognition, computer vision, visual cortex plasticity and time series prediction.
  • Nordeen, Ernest J. Zapisz - Hormonal regulation of neural plasticity and learning, with a focus on the songbird system.
  • Nordeen, Kathy W. Zapisz - Studies neural plasticity, learning, memory, with a focus on vocal learning in songbirds.
  • Pam Reinagel Zapisz - Pam Reinagel studies how patterns of activity in populations of visual neurons encode information about visual scenes, especially naturalistic ones.
  • Patrick Hoyer Zapisz - Patrick Hoyer works on ICA (independent component analysis) and nonlinear variants thereof.
  • Paul De Koninck Zapisz - The lab investigates the cellular and molecular mechanisms used by neurons to decode synaptic and electrical activities that propagate through neural circuits.
  • Paul Glimcher Zapisz - The Glimcher lab studies the neural mechanisms underlying choice behavior using a combination of electrophysiological, behavioral, and neuroimaging techniques.
  • Paul Harrison Zapisz - His group is studying gene expression in psychiatric disorders in the University of Oxford Department of Psychiatry.
  • Peter Dayan Zapisz - Builds mathematical and computational models of neural processing, with a particular emphasis on representation and learning. The main focus is on reinforcement learning and unsupervised learning, covering the ways that animals come to choose appropriate actions in the face of rewards and punishments, and the ways and goals of the process by which they come to form neural representations of the world. The models are informed and constrained by neurobiological, psychological and ethological data.
  • Peter Lansbury Zapisz - From the Center for Neurologic Diseases and Laboratory for Drug Discovery in Neurodegeneration at Brigham and Women's Hospital, Harvard Medical School.
  • Peter Latham Zapisz - Computational neuroscience and neural coding.
  • Pouget, Alexandre Zapisz - The Pouget lab works on the computational neuroscience of spatial representation, visual perception, and neural coding.
  • Quentin Huys Zapisz - He is interested in the mechanisms that have led to neural tissue being able to control complex organisms. Photography is another artistic way of slicing the timeline and recombining it for analysis.
  • Rajesh Rao Zapisz - The primary goal of my research is to discover the computational principles underlying the brain's remarkable ability to learn, process and store information, and to apply this knowledge to the task of building adaptive robotic systems and artificially intelligent agents.
  • Randall O'Reilly Zapisz - He develops computational and formal models of the biological bases of cognition , focusing on specialization of function in and interactions between hippocampus, prefrontal cortex, and posterior neocortex in learning, memory, attention, and controlled processing.
  • Reza Shadmehr Zapisz - The Shadmehr lab works on motor control and learning, robotics, brain imaging, and neurophysiology.
  • Richard Hahnloser Zapisz - Richard Hahnloser is doing theory on recurrent systems and songbird physiology.
  • Rodney Douglas Zapisz - Rodney Douglas addresses information processing in the neocortex. He is the head of the institute of neuroinformatics in Zurich.
  • Ruth Herbst Zapisz - Research is focused on the molecular mechanisms that regulate the formation and maintenance of the neuromuscular synapse.
  • Sam Roweis Zapisz - Machine learning, nonlinear manifolds, signal processing, DNA computing.
  • Sami Ikonen Zapisz - The role of the septohippocampal cholinergic system in cognitive functions - a doctoral thesis.
  • Sander Bohte Zapisz - Neuroscientist in Amsterdam related to coding by action potentials as well as pattern recognition.
  • Shawn Mikula Zapisz - Does experiments to study coincidence detection as well as connectivity. He uses simulation methods as well as fMRI.
  • Stephen Grossberg Zapisz - Vision, audition, language, learning and memory, reward and motivation, cognition, development, sensory-motor control, mental disorders, applications.
  • Stephen Maren Zapisz - Fear, conditioned learning behavior, and the neurophysiology of the amygdala. Research summaries, related links. Rat behavior animation.
  • Sue Becker Zapisz - Computational neuroscience, neural network models of perceptual and cognitive processes including cortical and hippocampal memory systems, spatial memory, semantic memory organization, frontal executive control of memory.
  • Theo Geisel Zapisz - Nonlinear dynamics, chaotic systems, neural networks
  • Thomas J. Anastasio Zapisz - Our goal is to gain deeper insight into multisensory integration and motor learning using computational neuroscience methodology.
  • Thorsten Naserke Zapisz - Curriculum vitae, lists of skills, publications, participations at conferences and a description of research into the development of the midbrain and hindbrain.
  • Tobi Delbruck Zapisz - Research at the Institute for Neuroinformatics in Zurich, Switzerland centers on using neuromorphic design principles to make practical vision sensors.
  • Tony Zador Zapisz - At a cocktail party we can selectively attend to a single voice, effortlessly filtering out all the others that make up the banter that surrounds us; yet this task remains far beyond the capabilities of our most sophisticated computers. How do the neurons in our brains conspire to form such powerful computational engines?
  • Veeramani Maharhajan Zapisz - Working at the Institute of Cybernetic of CNR. Included current working projects mainly related to the himmunohystochemistry of hippocampal piramidal cells; the effect of maternal drug abuse on neonatal rodents.
  • Vito Di Maio Zapisz - The projects carried out at the Institute of Cybernetics are mainly related to neurocomputation and visual perception of geometrical figures.
  • William H. Calvin Zapisz - A theoretical neurophysiologist and author of The Cerebral Code, How the Brain Thinks.
  • Wiskott, Laurenz Zapisz - Face recognition, Invariances in learning and vision.
  • Women in Neuroscience Biographies Zapisz - Women who are contributing to our knowledge of neuroscience today including Ellen Kuwana, Frances Mary Ashcroft, Leslie P. Tolbert, Rae Nishi, Christine H. Block and Rosamund Langston.
  • Yang Dan Zapisz - Goal is to understand the structure, function and plasticity of the mammalian visual system. Uses a combination of electrophysiological, psychophysical, and computational techniques to analyze how visual information is coded in the spiking activity of neurons in the visual cortex.
  • Yasir el Sherif Zapisz - Information on ATP, melatonin, 8-OH-DPA, and magnetic fields in the nervous system.
  • Zhongmin Lu Zapisz - Laboratory (P.I. - Dr. John Lu) that focuses on mechanisms of hearing in fish, including directional and ultrasonic hearing, and neurotoxin effects on hearing.