- 👋 Hi, I'm Joseph Moyalan. I am a Postdoctoral researcher at the Mechanical Engineering Department of the University of California, Merced, focusing on Dynamics and Control systems.
- 👀 I'm interested in optimization and optimal control of nonlinear systems.
- 🌱 My current projects involve data-driven control of nonlinear systems for safety and convergence. This involves using the density function from measure theory to provide a convex formulation for optimal control problems in the function space. My other projects involve the safe navigation of complex nonlinear systems using control density functions.
- 👯 I’m looking to collaborate on machine learning implementation for control of real-world examples like robotics, vehicle dynamics, and navigation.
- 🔭 To look at my recent publications, please visit my Google Scholar page here.
- 📫 How to reach me: josephraphelm@gmail.com
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Clemson University
- Clemson, SC, USA
- https://orcid.org/0000-0002-0847-365X
- in/joseph-moyalan-452458120
- https://scholar.google.com/citations?user=smwttLYAAAAJ&hl=en
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Koopman_based_data_driven_control
Koopman_based_data_driven_control PublicThis approach is used to solve data-driven optimal control problems by providing a Koopman operator based convex formulation
MATLAB 4
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Koopman_based_path_optimization
Koopman_based_path_optimization PublicThis approach is used to solve path optimization for off-road terrain by providing a Koopman operator based convex formulation
MATLAB 1
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Safe_navigation_using_control_density_function
Safe_navigation_using_control_density_function PublicThis approach is used to solve robust safe navigation using control density function.
MATLAB 1
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Control_density_function-dynamic_environment
Control_density_function-dynamic_environment PublicForked from sriram-2502/time_varying_density
This repo is used to develop code for time-varying density functions
MATLAB
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Data-Science-Projects
Data-Science-Projects PublicThis repository contains all the projects pertaining to the IBM Data Science course available on Coursera website
Jupyter Notebook
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Generative-Terrain-Reconstruction
Generative-Terrain-Reconstruction PublicForked from SarangSutavani/Generative-Terrain-Reconstruction
Using GAN to generate Terrain from LiDAR data
Jupyter Notebook
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