Skip to content
View NeuralMech's full-sized avatar
🎯
Focusing
🎯
Focusing
1 follower · 2 following

Block or report NeuralMech

Block user

Prevent this user from interacting with your repositories and sending you notifications. Learn more about blocking users.

You must be logged in to block users.

Maximum 250 characters. Please don’t include any personal information such as legal names or email addresses. Markdown is supported. This note will only be visible to you.
Report abuse

Contact GitHub support about this user’s behavior. Learn more about reporting abuse.

Report abuse
NeuralMech/README.md

LEE HOJUN

Mechanical Engineering undergraduate interested in physics-informed and data-driven modeling for mechanical systems.

I use GitHub to organize undergraduate projects and self-study work before graduate research. My current focus is on applying machine learning, simulation, and physical modeling to mechanical system analysis, diagnosis, and control.

Research Interests

  • Physics-Informed Machine Learning
  • Mechanical System Modeling and Vibration
  • Data-driven Fault Diagnosis and PHM
  • Simulation-based Analysis and Control

Selected Projects

Project Role in My Research Direction Description
PINN Physics-informed modeling Modified and studied a PINN example for a damped mass-spring system from a mechanical engineering perspective.
NASA-Airfoil-Self-Noise Noise and signal/data analysis Exploratory analysis and regression modeling on NASA airfoil self-noise data.
manufacturing-quality-dnn Process data and fault classification DNN-based quality classification on KAMP precision machining process data.
mechanical-design-projects Physics-based simulation Undergraduate mechanical design projects using ANSYS, MATLAB, FEA, and design optimization.
2025-CARSA Simulation-based control study Steering-control study using MATLAB/Simulink and IPG CarMaker, with simulation-based training data expansion.
public-safety-first-response Safety-aware system prototype Prototype workflow linking risk recognition with safety-aware drone response.

Current Direction

I am especially interested in combining physical laws, simulation data, and sensor/process data for mechanical system modeling, fault diagnosis, and control.

Pinned Loading

  1. PINN PINN Public

    Study notes and modified PINN example for damped mass-spring systems from a mechanical engineering perspective.

    Jupyter Notebook

  2. NASA-Airfoil-Self-Noise NASA-Airfoil-Self-Noise Public

    Exploratory analysis and regression modeling on NASA airfoil self-noise data.

    Jupyter Notebook

  3. mechanical-design-projects mechanical-design-projects Public

    Undergraduate mechanical design projects using FEA, MATLAB, and design optimization.

  4. manufacturing-quality-dnn manufacturing-quality-dnn Public

    DNN-based quality classification on KAMP precision machining process data.

    Jupyter Notebook

  5. 2025-CARSA 2025-CARSA Public

    Autonomous driving steering-control study using MATLAB/Simulink and IPG CarMaker.

  6. public-safety-first-response public-safety-first-response Public

    Prototype public-safety workflow linking CCTV risk recognition with safety-aware drone response.

    Python