About
Six years building IoT systems that had to work in the real world
Six years in embedded-to-cloud IoT: from writing C++ for STM32 microcontrollers and power budgets for off-grid sensors, to architecting government-scale platforms. Hardware constraints shape every decision I make at the system level.
At Tatweer I lead a five-person engineering team delivering platforms for UAE federal agencies — 10,000+ connected devices, 300,000+ AI-assisted assessments, zero tolerance for data loss. That accountability is the difference between design on paper and design for production.
I am targeting senior architecture and applied R&D roles in Germany — Munich, Nuremberg, Stuttgart, Karlsruhe. The German industrial IoT and Industry 4.0 ecosystem is the right fit for this profile.
How I Think About IoT Architecture
- Edge logic should fail gracefully offline; cloud dependency is a field reliability risk.
- Every sensor deployment is also a power-budget problem.
- Protocols should be chosen by topology, not familiarity.
- A device that needs a field technician to recover is a device that was not designed for production.
- The audit trail is part of the system design, not an afterthought.
Education
B.Eng. Information & Communication Technology Engineering
Certifications & Training
- ITIL 4 Foundation 2024
- CCNA Training 2017 — National Education Network
- CompTIA A+ Training 2017 — National Education Network
- AWS Solutions Architect Associate In progress · target Q3 2026
Career
- 2018–2022 Independent IoT / Embedded contractor — industrial metering, biometric systems, embedded automation
- 2019–2022 AgriSensors (Italy, Remote) — agricultural IoT hardware & multi-tenant SaaS platform (concurrent)
- 2021 MK Illumination — IoT power metering hardware R&D (within freelance period)
- 2022–Now Tatweer (Abu Dhabi) — IoT Architect & Project Lead, government-scale fleet, assessment & impound platforms