by Alex Hunt
October 1, 2020
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Dr. Hunt is part of a large team that has been awarded an NSF NeuroNex grant titled: Communication, Coordination, and Control in Neuromechanical Systems (C3NS) with a brief summary below:
Animals move to seek food, mates, and shelter. In the phyla Arthropoda, Mollusca, and Chordata, the nervous system cephalized towards a higher-level brain and lower-level sensorimotor network. The brain would not exist without a body, and yet little is understood about how the nervous system controls and coordinates distributed body parts. Many fundamental questions remain unanswered: How is neural information encoded and communicated? How does the system correct for environmental perturbations? How do passive biomechanics affect the neuronal control of behavior? This leads to the foundational question: How do nervous systems control and execute interactions with the environment? This international Network of interdisciplinary research groups consists of modelers, engineers, and experimentalists to explore the Communication, Coordination, and Control of Neuromechanical Systems (C3NS). This NeuroNex Network investigates a foundational question in model genera from three phyla: adult Drosophila from Arthropoda, Aplysia from Mollusca, and small mammals from Chordata. Each interdisciplinary research group studies the control of a behavior in which the body interacts with the environment. Investigators explore how higher-level command centers (HLCCs) generate descending commands to lower-level motor centers (LLMCs), how LLMCs control the body to produce desired behavior, and how LLMCs generate ascending signals back to HLCCs. The animal models of C3NS allow the investigation of these questions across degrees of nervous system complexity and ranges of dynamic scale (i.e., size and speed) using the same conceptual modeling framework. This effort will create a bottom-up theory for how nervous systems control movement during environmental interactions. This project is co-funded by Emerging Frontiers in the Directorate for Biological Sciences and Robust Intelligence in the Directorate for Computer and Information Science and Engineering.
Dr. Hunt's role on the project is in testing theories of neural organization and neural control of locomotion and balance on the Muscle Mutt robot.
https://www.nsf.gov/awardsearch/showAward?AWD_ID=2015317
https://neuronex.org/projects/23
https://case.edu/neuronex/