Founder & Systems Architect
An engineer with over 7 years of experience designing high-load and fault-tolerant systems. Professional background includes Lead Engineer roles, commercial micromobility fleet management, and the creation of hardware-software complexes for industrial equipment with an offline-first architecture. The current focus is on DeepTech solutions within Nordix Labs, bridging hardware design and sovereign IoT infrastructure.
Operating Principles
Hardware is the Root of Trust
Software solutions are vulnerable. Critical safety must always be ensured at the physical circuit level.
No Black Boxes
Complete rejection of closed systems. Telemetry data belongs to the fleet, not a third-party cloud provider.
Asynchronous by Default
Any distributed communication system in the field must be designed expecting network loss.
Core Competencies
Fleet Management & IoT
Technical management of distributed device fleets, telemetry integration (Teltonika-level IoT trackers), deployment of sovereign data streams (MQTT, Prometheus, Grafana) for continuous equipment monitoring.
Hardware & Micromobility
PCBA design, microcontrollers (ESP32, STM32), algorithmic signal processing, BLE. Deep understanding of the architecture of electric transport power controllers and hardware safety systems.
Software Architecture
Building fault-tolerant offline-first systems, designing lightweight communication protocols (gRPC / Protobuf, minimizing network latency < 300 ms), native development (Kotlin) of mobile and Edge interfaces for direct IoT peripheral management.
Industrial Experience (Selected)
Micromobility Fleet Management
Technical leadership in the deployment and operation of a commercial electric scooter fleet (600+ units). Integration of IoT telemetry systems, analysis of hardware limitations in factory controllers, and ensuring uninterrupted real-time metric collection.
Hardware Integration (WMS)
Development of native solutions for data collection terminals and industrial peripherals (Zebra, Honeywell). Implementation of an offline-first architecture, reducing device fleet deployment time from days to hours.
System Optimization (POS)
Migration of high-load commercial platforms to batch data transmission (Protobuf). Result: 95% reduction in system initialization time and increased node stability up to 94%.