Mobile Air Traffic Control Tower

The ONUR Mobile Air Traffic Control Tower (OMT-M2000) is meticulously designed to deliver operational air traffic control services wherever and whenever needed.


This self-sufficient and portable system fully complies with international air traffic management and control standards, catering to both civil and military applications.

The OMT-M2000 is a proven solution versatile in its applications, serving remote command requirements, airport modernization initiatives, military tactical operations, and emergency missions for rapid deployment forces. Integratable with other command and control systems, it facilitates seamless coordination across various operational domains. Key Features of the OMT-M2000:

  • Automation and Portability: Fully equipped for automation and designed for portability.
  • Transport Flexibility: Capable of deployment using standard air transport vehicles such as the C-130 Hercules transport aircraft or CH-47 Chinook heavy transport helicopter, or by its own means.
  • Safety Standards: Compliant with both military and civil air traffic safety standards.
  • Communication Facilities: Equipped with all necessary facilities for air-ground and ground-ground communications, including terrestrial lines and accessories.
  • Operational Efficiency: Employs reliable and user-friendly systems for efficient air traffic control operations.
  • Adjustable Control Cabinet: On an integrated carrier, the control cabinet can be raised using a lifting mechanism for optimal functionality.
  • Self-Sustaining Capability: Integrated generator ensures autonomous operation without dependence on external power sources or environmental systems.
  • Versatile Deployment: The carrying system allows for deployment in diverse locations. With its exceptional quality and performance standards aligned with FAA/ICAO regulations, the OMT-M2000 not only serves as a dependable solution for air traffic control requirements but also as an advanced backup system, ensuring operational continuity even in challenging scenarios.