Selected Projects
A snapshot of some real-time embedded, IoT, medical, safety, sensing, smart-device,
and smart-city projects — from 5G and WiGig communication systems and
ultra-low-power wearables to gas-leak networks and smart-home/city features
such as adaptive lighting and real-time parking-occupancy sensing.
In many of these projects I led real-time firmware and system integration,
calibration tools, and hands-on debugging across electronics, mechanics,
and PC applications.
5G radio unit (RU) firmware — large-scale,
production-grade firmware for a commercial 5G sub-6 GHz radio unit
used in millions of devices, including Q6-based real-time control,
RF calibration flows, TX/RX timing logic, and debugging of
analog/digital chains.
WiGig modem (60 GHz) — real-time MAC/PHY
flows and high-speed shared-memory interfaces between upper and lower
MAC cores, with performance debugging for multi-gigabit 60 GHz
wireless links.
CleverPark smart-parking system —
ultra-low-power parking-occupancy sensors that report in real time via
RF to a hub and via GSM to the cloud, with server-to-sensor remote
configuration. Deployed in pilots in malls and municipal areas as part
of a broader smart-city vision. Article:
https://www.globes.co.il/news/article.aspx?did=1001124514
Smart lighting / power-saving prototype —
presence-based controller for homes, designed with a later scale-up
path for smart-city streets. It steers light to where people move
while gently dimming surrounding areas so illumination feels uniform
and comfortable.
Vibrant digestion-therapy capsule — early-stage
development of an ultra-low-power ingestible capsule that delivers
vibration patterns for constipation therapy. Included pill firmware,
a USB-connected activation cradle, and a PC application that configures
vibration profiles and delayed start via a near-field electromagnetic
protocol.
Colibri spindle-RPM sensing system —
battery-powered RPM sensors with unique IDs paired to dedicated monitor
panels, plus factory calibration tools (LabVIEW graphs) and later
BLE-enabled versions with an Android tablet GUI. Firmware also enabled
safety actions such as shutting down a machine on bad behaviour;
thousands of sensors and panels were produced.
RoboTraffic intersection controller — my first
real-time embedded system (final-degree project): an autonomous
traffic-light and model-intersection controller using sensors, motors,
and state machines. This project convinced me to build a long-term
career in embedded systems. Video:
https://www.youtube.com/watch?v=HOwgN4vudm0&t=16s
AI / LLM training and evaluation — freelance
work on large-language-model datasets, including prompt-engineering,
reviewing and refining generated C/C++ code, and RLHF-style evaluation
tasks for AI systems.
IGS dental microbot — CT-guided microbot that
tracks drill tip and orientation in real time, keeping the dentist’s
hand inside a PC-planned “safe cylinder” drawn to avoid nerves.
Wisemed bruxism sensor — tooth-mounted,
ultra-low-power wearable that detects grinding events, vibrates gently,
and logs data for PC review.
NLeak / Triple+ gas-leak system — smart RF
sensor network that detects gas and CO leaks, triggers alerts, and
automatically closes valves in homes and restaurants.
Blind-navigation wearable — assistive belt with
obstacle-detection sensors and vibration patterns on the body that
encode direction and distance.
Dentaray medical laser — stabilised real-time
control, calibration flows, and field-testing support for an advanced
dental laser developed in a medical incubator.
Cardio diagnostic prototype — embedded unit
reading electrode signals for rhythm checks, with improved sampling
flows and robust PC communication.
PCB testers (Lumenis, Syneron, Gamidor) —
firmware for production testers: pump control, timing and calibration
logic, logging, and operator feedback.