About Me

A Decade of Expertise in Automotive CAE Analysis & Python Programming

With over ten years of dedicated experience in the automotive industry, I am a seasoned CAE analyst specializing in noise, vibration, and static analysis. My career has been focused on leveraging advanced simulation techniques to solve complex, real-world engineering challenges, ensuring the performance and reliability of automotive components.

My core expertise lies in developing and executing comprehensive CAE workflows to address critical structural and dynamic issues. I have a proven track record of using Altair HyperWorks and Beta CAE Ansa to pre-process complex models and perform in-depth analysis. My passion for problem-solving is complemented by my proficiency in programming, as I use Python to automate tasks and streamline analytical processes, enhancing efficiency and accuracy.

I have extensive experience working with industry-standard solvers, including Nastran, OptiStruct, and Abaqus, to simulate a wide range of physical phenomena. This technical fluency, combined with a deep understanding of engineering principles, allows me to transform analytical data into actionable insights and robust solutions.

I am driven by a commitment to continuous improvement and a desire to merge traditional engineering with modern computational methods to innovate within the automotive CAE domain.

Key Skills & Software Proficiency

• CAE Analysis: Noise, Vibration, Static, Structural, Dynamic
• Programming Languages: Python, Bash scripting
• Software & Solvers:
  • Altair HyperWorks - Hypermesh, Hyperview, Hypergraph, Optistruct
  • Beta CAE - Ansa & Metapost
  • Hexagon - MSC Nastran, Actran, Adams View
  • Abaqus

I'm passionate about automating everyday tasks to make work life smoother and more efficient. I’ve been diving deep into Python and Bash scripting, and I love how they empower me to simplify repetitive processes and build smart solutions. Whether it's organizing files, scheduling tasks, or creating tools to speed up workflows, I find real joy in making things run seamlessly with just a few lines of code.

What excites me even more is using Python to explore scientific and engineering concepts—especially in physics, vibration, and acoustics. I often experiment with different libraries to simulate wave behavior, analyze dynamic systems, and visualize complex phenomena. It’s amazing how code can bring abstract ideas to life and help me understand the mechanics behind the world around us.