Neuroscience increasingly requires the integration of sophisticated experimental and quantitative approaches. The development of increasingly sophisticated models and the analysis of massive sources of data routinely push neuroscientists to the limits of their quantitative and analytical abilities. In this way, computational neuroscience has become an element of the mainstream of neuroscience research. However, few training programs have adapted to this increase in the importance of quantitative approaches in neuroscience, leaving many students under prepared to exploit future opportunities in the field. Here we propose training programs involving faculty from more than ten departments at Carnegie Mellon University and the University of Pittsburgh that seek to move computational neuroscience into the mainstream of the field. Specifically, we seek to: 1) expose hundreds of undergraduate students in biomedical fields and hundreds of students in quantitative disciplines to computational neuroscience each year. 2) develop a comprehensive research and education program that provide excellent in depth training in computational neuroscience to 10-15 undergraduates from a variety of disciplines each year 3) develop and extend the training of our graduate students to include substantial additional education in computational neuroscience and 4) expose a group of a dozen talented students primarily from other institutions to training and research in computational neuroscience. This last group of students will consist mostly of students from groups underrepresented in the field of computational neuroscience. The training will be broad and interdisciplinary including biological and psychological approaches on the experimental side and statistical, computational and mathematical on the quantitative side. ? ? ?
Lipski, Witold J; Alhourani, Ahmad; Pirnia, Tara et al. (2018) Subthalamic Nucleus Neurons Differentially Encode Early and Late Aspects of Speech Production. J Neurosci 38:5620-5631 |
Hurst, Katrina; Badgley, Corinne; Ellsworth, Tanner et al. (2017) A putative lysophosphatidylinositol receptor GPR55 modulates hippocampal synaptic plasticity. Hippocampus 27:985-998 |
Bittner, Sean R; Williamson, Ryan C; Snyder, Adam C et al. (2017) Population activity structure of excitatory and inhibitory neurons. PLoS One 12:e0181773 |
Leeds, Daniel D; Tarr, Michael J (2016) A method for real-time visual stimulus selection in the study of cortical object perception. Neuroimage 133:529-548 |
Williamson, Ryan C; Cowley, Benjamin R; Litwin-Kumar, Ashok et al. (2016) Scaling Properties of Dimensionality Reduction for Neural Populations and Network Models. PLoS Comput Biol 12:e1005141 |
Tripathy, Shreejoy J; Burton, Shawn D; Geramita, Matthew et al. (2015) Brain-wide analysis of electrophysiological diversity yields novel categorization of mammalian neuron types. J Neurophysiol 113:3474-89 |
Aminoff, Elissa M; Toneva, Mariya; Shrivastava, Abhinav et al. (2015) Applying artificial vision models to human scene understanding. Front Comput Neurosci 9:8 |
Ghuman, Avniel Singh; Brunet, Nicolas M; Li, Yuanning et al. (2014) Dynamic encoding of face information in the human fusiform gyrus. Nat Commun 5:5672 |
Bishop, William; Chestek, Cynthia C; Gilja, Vikash et al. (2014) Self-recalibrating classifiers for intracortical brain-computer interfaces. J Neural Eng 11:026001 |
Rager, Danielle M; Alvares, Darren; Birznieks, Ingvars et al. (2013) Generating tactile afferent stimulation patterns for slip and touch feedback in neural prosthetics. Conf Proc IEEE Eng Med Biol Soc 2013:5922-5 |
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