A curious developer and researcher exploring the fundamental principles of operational systems. My work sits at the intersection of Artificial Intelligence, Operations Research, and Systems Engineering, driven by a central question:

Can we discover a more organic, integrated logic for how warehouses and supply chains function?

I develop computational prototypes and hybrid intelligent frameworks as experimental tools to probe these questions, moving beyond siloed optimizations towards a holistic understanding of spatial and logistical interdependence.

The best way to understand my research is to see it. Below are interactive visualizations I've built to explore and validate concepts in spatial configuration and warehouse optimization.

My work is an exploration to bridge theoretical concepts with practical applications. I build software to test hypotheses about system design.

I am fascinated by questions like:

• What does a truly integrated design paradigm look like, where layout, allocation, and operational logic co-evolve from the outset?
• How can we create adaptive, "living" systems that reorganize based on real-time flow and demand?
• Can we define a unifying theoretical framework that captures the complex trade-offs between space, time, and resilience in logistics?

My projects in generative layout algorithms and intelligent storage are practical sandboxes for exploring these deeper philosophical questions about operations.

I am actively seeking a PhD position to deepen this inquiry under expert guidance. I am looking for a collaborative partnership with mentors who are excited by fundamental challenges in optimization and systems design.

For Researchers & Professors: The demos above are a conceptual preview. The full details of my methods, algorithmic innovations, and results are available for discussion. I would be thrilled to share more about my work and how it could align with your research group.

I welcome discussions regarding PhD opportunities and research collaborations.

This work extends the foundation presented in:

“Automated Warehouse Layout Design: A Software Application”

• Research Protection: The core methodologies, algorithms, and novel findings are protected as part of my ongoing research and future publication plans.
• Demos: The interactive demos are for conceptual demonstration only and do not reveal proprietary algorithms or unpublished results.
• Collaboration: I am happy to discuss the full details of my work in a confidential academic setting.