| Aapo Hyvarinen | | 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. |
| Abdelkader Ennaceur | | This lab studies the role of cortical and sub-cortical structures in learning, memory and attention. |
| Ad Aertsen | | This lab studies theoretical neuroscience, spiking neural networks, temporal processing and dynamic coding. |
| Allison Doupe | | Lab analyzes how the nervous system mediates behavior, especially complex behaviors that must be learned. Birdsong is the model system used for these studies. |
| Andreas Bartels | | Neuroscientist using imaging methods to understand information processing in the human brain. |
| Andreas Engel | | known for the "binding by synchrony" hypothesis. Interested in temporal processing in particular at 40Hz. This lab does electrophysiology driven by computational ideas. |
| Andreas Herz | | Addresses Signal Processing and Coding in the Brain. Functional Role of Neural Oscillations and Rapid Synchronization , Model Systems with Spiking Neurons: Dynamics and Computation |
| Ann Graybiel | | Works on the basal ganglia, including systems-level, molecular, and clinically relevant studies. |
| Björn Brembs | | 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background knowledge about learning and memory (with an emphasis on associative learning) together with published and unpublished original research on the fruitfly Drosophila and (soon) the sea-slug Aplysia. |
| Bruno Olshausen | | The lab relates the function of the nervous system to the statistics of natural scenes. On his page he supplies scientific papers and software relating sparse coding. |
| Christoph Kayser | | The lab studies the statistical regularities of natural scenes, how they relate to the response properties of cortical cells and quantifies the impact of global stimulus structure on visual cortical activity. |
| Christopher Walsh | | Researching the development and function of the cerebral cortex and the genes involved in this process. From the Harvard Institutes of Medicine. |
| Claudia Schmauss | | The Laboratory at Columbia University performs neurobiology research on dopamine receptors. |
| Cynthia F. Moss | | 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 | | The Jordan lab works on cellular and molecular mechanims underlying steroid-regulated behaviors. |
| Cyril Pernet | | studies statistics, human neurophysiology and neuroimaging. The webpage provides a user guide for fMRI analysis using SPM2. |
| Dale Purves | | the Purves laboratory is studying visual perception and its neurobiological underpinnings. Shows a lot of interactive demos of psychophysical effects and optical illusions. |
| Dan Madison | | The Madison lab works on neural plasticity, LTP and LTD, in the hippocampus. |
| Dario Floreano | | 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 Fitzpatrick | | The Laboratory at Duke University Medical Center is focused on understanding the functional organization of circuits in primary visual cortex, an important component in processing visual information. |
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