I’m a Network & Cybersecurity Engineer focused on building secure and scalable connectivity for distributed and industrial environments, particularly where reliability, performance, and strong security guarantees are critical.
My background combines network engineering, industrial cybersecurity, and secure infrastructure design across enterprise and OT environments, including Industrial Internet, Industry 4.0, and ICS/SCADA systems.
I work extensively with secure overlay networking and VPN architectures, including IPsec-based Layer 2/Layer 3 VPNs (VPLS), Zero Trust communication models, secure tunnel orchestration, and software-defined networking (SDN). My work includes protocol-level development on Linux, secure key exchange mechanisms, network segmentation, and scalable communication frameworks for untrusted and geographically distributed environments.
Over the years, I have designed and validated secure networking solutions using large-scale simulations, containerized network testbeds, and practical infrastructure environments built with technologies such as Open vSwitch, Docker, Mininet, Linux networking, and Python-based automation.
I am particularly interested in solving problems related to:
- Industrial and OT cybersecurity
- Secure network architectures
- Network scalability and resilience
- Secure overlay and VPN systems
- Zero Trust networking
- Threat exposure reduction and infrastructure hardening
- Secure communication across distributed systems
My experience also includes vulnerability and exposure analysis using tools such as Shodan and Nmap to identify risks in industrial protocols and improve the security posture of Internet-connected systems.
I enjoy working in environments where engineering quality, measurable outcomes, and secure-by-design thinking are valued — whether in industrial cybersecurity, telecom infrastructure, secure networking, or large-scale distributed systems.