2016 — 2020 |
Vickery, Timothy Medina, Jared Johnson, Matthew Snow, Jacqueline (co-PI) [⬀] Berryhill, Marian |
N/AActivity Code Description: No activity code was retrieved: click on the grant title for more information |
Rii Track-2 Fec: Neural Networks Underlying the Integration of Knowledge and Perception
Non-Technical Description This Research Infrastructure Improvement Track-2 Focused EPSCoR Collaboration (RII Track-2 FEC) proposal is a collaboration between three institutions in Delaware, Nevada, and Nebraska, namely the University of Delaware, the University of Nevada, Reno, and the University of Nebraska, Lincoln. The project will focus on better understanding the complex relationship between existing knowledge and information obtained through sensory perception, a central question in cognitive neuroscience. To help coordinate the research and provide training for participants, the project will set up three distributed ?methods cores?. Members of each methods core will be available for day-to-day consultations on their respective methodologies, and also conduct training workshops to achieve transfer of expertise across institutions and thus develop human infrastructure in each jurisdiction. These cores will provide support and establish standards in the implementation, analysis, and interpretation of all experiments. Another goal of the project is to promote the entry of undergraduates into graduate programs in neuroscience. To this end, the project will host summer ?brain camps? in cognitive neuroscience. Special efforts will be made to attract undergraduate and graduate students from groups traditionally under-represented in neuroscience by providing full financial support to such students and recruiting at a variety of appropriate venues.
Technical Description The research efforts will address the interplay between knowledge and perception in a complementary manner. The first research module will investigate the formation of new knowledge via Statistical Learning, the learning of associations among sensory stimuli that tend to co-occur in temporal or spatial patterns. The second module will investigate the interactions between spatial representations of perceived objects, prior knowledge of object use, and body position, as well as the effects of these inputs into perception. The third module will examine the impact of knowledge on attention and working memory. Orthogonal to the organization of the research modules, the project will set up three ?methods cores?, focused on Neuroimaging, Neuropsychology, and Neurostimulation, that will provide support, training, and advice to members of all research modules:. The cores will host three week-long, intensive summer workshops, open to faculty and trainees from all three sites. The resources of the methods cores will also be available to new faculty at each institution, as part of planned recruitment of neuroscience faculty.
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2022 — 2027 |
Vickery, Timothy Medina, Jared |
N/AActivity Code Description: No activity code was retrieved: click on the grant title for more information |
Rii-Bec: Training Diverse Scholars in Data Science to Understand the Brain and Behavior
This award is funded in whole or in part under the American Rescue Plan Act of 2021 (Public Law 117-2).<br/><br/> This project aims to serve the national interest by developing scholars skilled in data science and statistics to understand behavior. Advances in behavioral and neuroscientific research over the last decade have led to the production of large datasets ranging in scale from activity in single neurons to social behavior in large groups. Processing and distilling this data – to understand the mind and brain, and to develop ways to address questions of societal importance – is of national importance and requires individuals with interdisciplinary training in data science, statistics, and psychology/neuroscience. The COVID-19 pandemic led to a decrease in research opportunities that has disproportionately affected individuals from underrepresented groups, making it more difficult for them to pursue STEM careers in understanding behavior and the mind. To this effect, this project aims to create a new, two-year post-baccalaureate program in data science and psychology, designed to provide intensive training for careers in academia and/or industry. This project intends to develop the next generation of interdisciplinary researchers with skills in both data science and psychology/neuroscience, specifically targeting those from underrepresented groups. The significance of this project is the production of a highly skilled and diverse workforce in an increasingly important domain that spans basic science and industry.<br/><br/>The goal of this project is to develop a bridge program that provides individuals from underrepresented groups with two years of training to prepare them for STEM careers in academia and/or industry. The training scope will be in three domains. First, participants will engage in active research mentored by a faculty member with expertise in behavior and/or neuroscience. This research will culminate in multiple deliverables, including a thesis-level peer-reviewed publication that will bolster both doctoral and industrial career opportunities. Second, participants will enroll in curriculum specific to this program, with courses focused on developing skills in data science that can be applied to understanding behavior and the brain. Third, participants will engage in professional development via a group seminar along with clearly defined, accessible pathways to ensure progress towards their chosen career. The outcome of this training will be a set of tangible skills and experiences for the student, which will increase their competitiveness in the workplace and provide economically important skills to the academic and industrial marketplace.<br/><br/>This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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