Skip to content
View jiveeka's full-sized avatar

Block or report jiveeka

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
jiveeka/README.md

Hi, I'm Jiveeka Negi 👋

🎓 Mechanical Engineering Undergraduate 💡 Curious about how mathematics, physics, and computation come together to solve real engineering problems 🧠 Interested in simulation-driven design, numerical modeling, and computational mechanics

I enjoy exploring engineering systems through mathematical modeling, coding, and simulation, and I am continuously working toward building strong foundations for future research in mechanical engineering.

🌐 Connect With Me

🔗 LinkedIn: https://www.linkedin.com/in/jiveeka-negi-357333242/

🔬 Research & Technical Interests

  • Computational Mechanics (FEM) — Simulation-driven structural analysis using ANSYS Mechanical
  • Multiphysics & Structural Dynamics — Vibrations, thermo-structural and CFD–FEM coupling
  • Thermal Sciences & CFD — Heat transfer and cooling system optimization
  • Biomechanics & Intelligent Systems — ML (scikit-learn) with embedded prototyping for health-tech applications

🚧 Projects (Under Development)

🤖 Self-Optimizing Robotic Arm

Developing a 3-DOF robotic arm with integrated structural (FEM) and airflow/thermal (CFD) analysis using ANSYS Mechanical. Building ML models in Python using scikit-learn to predict stress–temperature behavior and enable design optimization. Prototyping an Arduino-based system for experimental validation of thermo-structural performance.

🦿 Smart Prosthetic Knee Joint

Designing a biomechanical prosthetic knee with coupled FEM-based stress analysis and CFD-driven thermal comfort evaluation in ANSYS Mechanical. Developing ML models using scikit-learn for stress prediction and gait-informed optimization. Building a servo-actuated prototype with sensor integration for real-time motion and thermal analysis.

🌡️ Thermal-Aware Cooling Robot

Engineering a robotic system with CFD-based internal airflow optimization and thermal analysis using ANSYS Mechanical. Training ML models in Python with scikit-learn to predict temperature distribution and optimize cooling strategies. Developing an Arduino-based prototype with real-time sensing and adaptive cooling control.

🎓 Core Coursework

  • Strength of Materials
  • Engineering Mechanics
  • Fluid Mechanics
  • Thermodynamics
  • Material Science
  • Engineering Mathematics
  • Theory of Machines

🎯 Academic Goals

  • Build strong expertise in computational and simulation-based mechanical engineering

  • Explore structurally and thermally coupled engineering problems

  • Contribute to research-oriented engineering projects

  • Prepare for advanced studies in computational mechanics

🧠 Philosophy

"The only failure is not to try"

✨ Always open to collaboration & learning

Popular repositories Loading

  1. 1D-axial-hollow-femur-fea 1D-axial-hollow-femur-fea Public

    Finite Element Analysis (FEA) of hollow human femur using Python and ANSYS. Includes numerical validation and deformation validation

    Jupyter Notebook

  2. jiveeka jiveeka Public