G.U.C.S. is a modular onboard computing system and the cornerstone of the technology ecosystem built by Sokoly Systems.
It is designed to provide a unified computing platform that supports everything from simple human-in-the-loop operations to complex fully autonomous missions.
General Purpose UxS Combat System
Key Idea: An AI-powered, modular, open-architecture flight computer
delivering fully autonomous kinetic effects in contested (DDIL) environments across a wide range of low-cost Unmanned Systems (UxS).
Approach: A single, universal avionics core, powered by an NVIDIA
Jetson and an STM32, that is integrated into diverse, low-cost airframes (quadcopters, fixed-wings, parafoils) to meet specific mission profiles.
Tech Promise: Enables affordable mass-production of high-performance autonomous systems. Delivers advanced capabilities like AI-powered targeting and sensor-fuzed EFP warheads to low-cost, attritable platforms.
Strategic Impact: Dramatically shifts the cost-exchange ratio by enabling the deployment of intelligent, lethal UxS at scale. Accelerates the kill chain and provides resilient, autonomous capabilities in heavily
contested environments.
Rich Interface Support
The system is pre-configured with a wide array of standard interfaces, including:
EO gimbal integration
Pitot tubes and Air Data Computers (ADC)
Multiple satellite positioning systems
High-precision Ring Laser Gyroscopes (RLG)
ARINC 664 Ethernet-based avionics bus
Communication modules compatible with U.S. military mesh radios
Control inputs compatible with the Ukrainian military’s widely used ELRS systems
Both digital and analog video transmission systems
Scalable Computing Power
With swappable System-on-Module (SoM) compute units, users can flexibly choose computing capabilities based on mission requirements and budget—from cost-effective low-end processors to high-performance edge AI chips—without replacing the entire system.
High Integration
A single-board design integrates full flight control functionality and communication interfaces, significantly reducing weight, increasing reliability, and lowering manufacturing and maintenance costs.
Versatility
A single electronics system supports various drone platforms—including multirotor, fixed-wing, and VTOL—greatly simplifying training, maintenance, and deployment for diversified unmanned fleet operations.
