Healthcare and Human Performance Experts
352-273-9332
mding@bme.ufl.edu
Neural mechanisms of perception and motor behavior (using both experimental and modeling approaches), neuronal oscillations and attentional control, information processing in the brain, development of advanced signal processing methods for the analysis of nonstationary, multivariate neurobiological data, mathematical analysis of oscillatory neural networks, behavior and brain analysis of sensorimotor coordination, first passage time problems in stochastic processes, theory of nonlinear dynamical systems
352-294-1898
koweiss@ufl.edu
Signals and Systems, Computational and Systems Neuroscience, Neural Engineering
Research Interests: Computational neuroscience, Sensorimotor control, Control theory, Data science, Machine learning
Projects
Artificial neural networks meet biological neural networks: designing personalized stimulation for the data-driven control of neural dynamics
Shreya SaxenaA Transfer Learning Framework for Creating Subject-Specific Musculoskeletal Models of the Hand
Jennifer NicholsForecasting trajectories of HIV transmission networks with a novel phylodynamic and deep learning framework
III: Small: Modeling Multi-Level Connectivity of Brain Dynamics
Ruogu FangDual Lead Thalamic DBR-DBS Interface for Closed Loop Control of Sever Essential Tremor
Karim OweissAutonomous Pain Recognition in Non-Verbal and Critically Ill Patients
Parisa RashidiDeveloping Computational Methods for Surveillance of Antimicrobial Resistant Agents
Christina BoucherCognition and Neuroergonomics Collaborative Technology Alliance – PY 9 & PY 10
Daniel FerrisMechanisms of Attentional Control: Structure and Dynamics from Simultaneous EEG-fMRI and Machine Learning
Mingzhou Ding & George R. MangunCAREER: Fundamental Intelligent Building Blocks of the Intensive Care Unit (ICU) of the Future
Parisa RashidiStimulating Theta Oscillations to Enhance Working Memory
Mingzhou DingEmotional Engagement Driven by Complex Visual Stimuli: Neural Dynamics Revealed by Multimodal Imaging
Mingzhou DingIII: Small: Collaborative Research: A Scalable and Efficient Optical Map Assembler
Christina BoucherClosing the Loop on Tremor: A Responsive Deep Brain Stimulator for the Treatment of Essential Tremor
Aysegul GunduzPECASE: Stimulation on Demand: Responsive Deep Brain Stimulation for the Treatment of Tourette Syndrome
Aysegul GunduzOptimizing Microstimulation to Restore Lost Somatosensation
Karim OweissSubstrate Rigidity and Gene Expression: Role of Nuclear Tension
Tanmay Lele