GPS-Independent Tactical Autonomy

AI-Powered Drone Control System

KAMİS turns existing drone platforms into modular mission-control systems that can move toward targets without continuous human guidance.

Compatibility Betaflight, ArduPilot
Performance 30 Hz operating frequency, low-latency real-time processing
Power Consumption ≈ 15 W
Explore mission flow
Mission Logic

An autonomous target line without disrupting manual flight capability

KAMİS is integrated as an independent module; after target selection and command, the flight computer generates tracking, orientation and approach decisions in real time.

01 Detect
02 Lock
03 Track
04 Command
Performance 30 Hz operating frequency, low-latency real-time processing
Power Consumption ≈ 15 W
Accuracy IoU ≈ 0.85; Hit accuracy: 2 m @ 100 yards
Highlights

Operational advantage

When GPS is weak or jammed, the image-processing and AI decision line remains active in the mission environment.

Autonomous target tracking without GPS
AI-powered target detection & strike
Low-latency real-time operation
Start/stop tracking via RC transmitter
Compatibility with various drone types
Integration

Modular flight intelligence that adapts to existing platforms

Compatible with common flight stacks such as Betaflight and ArduPilot, the system adapts to different drone types with minimal intervention.

Compatibility Betaflight, ArduPilot
Platform Loitering munitions (kamikaze UAVs), various drone types
Communication Analog and digital camera stream support
Operating System Linux-based custom flight software
Technical Signals

Technical Specs

30 Hz Operating frequency: 30 Hz
15 W Power consumption: ≈ 15 W
2 m Hit accuracy: 2 m @ 100 yards
IoU Tracking accuracy (IoU): ≈ 0.85
EO/IR Camera support: Daylight & Thermal
A/D Camera streaming: Analog & Digital
System Architecture

Architecture

KAMİS is a modular flight control system that can communicate with existing mission computers. Thanks to its GPS-independent design, it can operate even in jammer environments.

  • Independent module integration
  • Bi-directional communication with mission computer
  • Control without interfering with manual flight capability
  • Operational superiority in jammer environments