What Dimetor will showcase at Mobile World Congress Barcelona 2026
As aviation, public safety, and defense operations increasingly depend on autonomous systems, one factor determines whether these systems can scale safely: the ability to understand the digital environment they operate in.
Aircraft, drones, and connected assets no longer operate only in physical airspace. They operate inside a complex layer of radio signals, cellular coverage, positioning services, and electronic interference. Without visibility into this invisible infrastructure, autonomy cannot become routine.
At Mobile World Congress 2026 (Barcelona, March 2–5, Fira Gran Via), Dimetor will present how telecom network data becomes operational intelligence across three operational pillars: digital airspace, cyber-resilience, and defense.
Digital airspace: making connectivity operational
Autonomous flight depends on predictable command-and-control links and measurable operational risk.
AirborneRF provides real-time and forecast connectivity intelligence and ground-risk data derived from live cellular networks. Instead of assuming coverage availability, operators can verify it before and during flight.
This enables:
- C2 link reliability assessment
- MCx communication validation
- Population density awareness
- Alternative positioning independent of GNSS
- Conformance monitoring and operational transparency
The result is a measurable operational environment where BVLOS drone operations can be planned and executed with aviation-grade assurance.
Cyber security: protecting Position, Navigation and Timing
GNSS interference has become one of the fastest-growing operational risks for both civil and governmental aviation. Jamming and spoofing affect aircraft navigation, drones, and critical infrastructure simultaneously.
NAVSentry delivers real-time detection and localization of GNSS disruption by combining multiple sensing sources and network-based intelligence. The system provides live awareness of PNT integrity and supports authorities and operators in assessing and reacting to navigation threats.
Operational value includes:
- Detection of jamming and spoofing
- Real-time PNT integrity monitoring
- Integration into aviation and control systems
- Situational awareness for protected airspace
This transforms GNSS from a trusted assumption into a monitored operational parameter.
Defense & security: understanding non-cooperative airspace users
As drones become ubiquitous, airspace must also account for unknown or unauthorized systems.
AirborneAI detects and analyzes non-cooperative drones using connectivity and network-based sensing. By leveraging large-scale infrastructure as a distributed sensor layer, the platform identifies airborne devices and supports response coordination.
Capabilities include:
- Rogue drone detection and localization
- Airborne SIM identification
- Multi-sensor fusion integration
- Operational decision support
The approach extends airspace awareness beyond cooperative aviation participants.
From networks to operational infrastructure
Together, AirborneRF, NAVSentry and AirborneAI convert telecommunications infrastructure into a functional aviation and security layer. Instead of treating connectivity and positioning as background services, they become measurable operational parameters similar to weather or terrain.
This enables organizations to:
- operate safely in shared airspace
- protect critical infrastructure
- scale autonomous missions
- support civil and defense use cases with the same data foundation
Meet Dimetor at MWC Barcelona
Dimetor will present these capabilities at Mobile World Congress 2026 in Barcelona (March 2–5, Fira Gran Via) and demonstrate how telecom networks evolve into operational infrastructure for aviation, cybersecurity and defense.
Visit the team onsite to discuss real-world deployments, integration models and operational use cases across mobile network operators, aviation authorities, and security organizations.