Eleven independent systems brought into one operational layer. Lighting, HVAC, security, solar, backup power, pool systems, and energy monitoring had all been installed at different times by different contractors, speaking different protocols.

The integration layer runs across LEAP, MQTT, Modbus RTU, Zigbee, and TCP/IP simultaneously — translating between systems without any of them needing to be replaced.

A second four-floor residence with a similar brief but a different infrastructure baseline.

The integration approach focused specifically on energy-awareness: solar generation, consumption monitoring, and backup power coordination are visible as one continuous energy picture rather than three separate dashboards.

A 94-room beachside hotel across four floors.

The integration layer unified Zigbee-based lighting across guest rooms and shared spaces, Modbus-connected energy monitoring and pump controls, and the existing security infrastructure.

A 15MW intelligent power environment built around 22 MTU generator systems, multiple HFO engine systems, national grid integration, and transformer infrastructure.

The integration layer unified generator synchronization, source prioritization logic, grid interaction management, transformer monitoring, and load coordination across the full infrastructure.