My academic journey began in 2007 at Jahangirnagar University in Bangladesh, where I pursued a Bachelor’s degree in Mathematics. This foundational experience not only sharpened my analytical abilities but also ignited a lifelong passion for learning. I further built upon this strong base by completing both a Bachelor’s and a Master’s degree in Mathematics before expanding my horizons with an MBA in 2012, during which I specialized in Finance and Banking with a keen focus on predicting share market volatility.

Eager to bridge theory and practice, I soon embarked on a career as a research assistant in engineering while simultaneously pursuing a Master of Philosophy in fluid mechanics applied to blood flow modeling. This dual path immersed me in the world of complex simulations and modeling, laying the groundwork for my future endeavors in research and development.

In 2017, a new chapter unfolded when I moved to Japan to begin my Ph.D. at Iwate University. Alongside my doctoral studies, I contributed as a research assistant, performing fluid dynamics simulations to better understand blood flow. After earning my Ph.D. in 2020, I continued my research as a postdoctoral scholar, focusing on computational simulations to predict flutter in rocket engine turbine blades—a challenging project undertaken with JAXA that pushed my skills in advanced engineering analysis to new heights.

My professional journey took an exhilarating turn when I joined Innovative System Solutions, a cutting-edge research and development company in the same city. Under the guidance of a visionary mentor, I boldly ventured into new territory by applying mathematical modeling to image processing, computer vision, and camera technology. Embracing this challenge has allowed me to continuously expand my expertise and explore ever-evolving technological landscapes.

Every phase of my journey has been marked by the courage to tackle new challenges and a relentless pursuit of diverse fields of knowledge. I believe my greatest strength lies in this versatility and an unwavering passion for learning—even when the path is initially steep. This adaptability not only defines my career but also stands as the hallmark of my specialty.

Every day, I embrace a new challenge as I navigate the dynamic realm of systems development. I see my work in factory automation not just as a job, but as an art form, where cutting-edge computer vision, sophisticated image processing, and the marvels of artificial intelligence blend seamlessly. With each project, I draw upon a rich tapestry of mathematical insights, statistical methodologies, camera geometry, and physics, all eloquently expressed through the languages of C++ and Python.

Within just two years, I have forged an innovation that redefines quality control. I developed a groundbreaking method—and its accompanying software—to automatically monitor the integrity of car side glass. This creation, now a vital part of the production process at Krishna-Penstone Company in India, masterfully verifies the delicate curvature of spherical mirrors in mass production. Furthermore, I crafted advanced camera calibration software that has fine-tuned nearly two thousand fisheye, monocular, and stereo cameras. Today, I am delving into the next frontier: designing an elegant calibration method and software that deliver a pristine top-down and omnidirectional view, paving the way for the next generation of excavators.

I welcome the opportunity to discuss how such interdisciplinary experiences can drive innovation and shape future career paths, enriching our collective understanding in the process.