Cytta Air integrates advanced communications technologies, including Wi-VHFi™ (marketed as Wi-Far™), whitespace spectrum architecture, a patented compact antenna system (U.S. Patent No. 8,823,599), and a Local Terrestrial Positioning Network (LTPN) to deliver a next-generation connectivity and positioning layer for autonomous systems, defense operations, and critical infrastructure.
Wi-Far provides a long-range, non-line-of-sight wireless infrastructure that enables secure, real-time communication and coordination across complex and degraded environments.
The rapid growth of autonomous systems, drones, robotics, AI-driven operations, and connected infrastructure is creating unprecedented demand for resilient communications and positioning technologies capable of operating beyond the limitations of traditional networks. Defense agencies, public safety organizations, industrial operators, utilities, transportation networks, and critical infrastructure providers increasingly require systems that can maintain reliable connectivity, coordination, and operational awareness across large geographic areas, remote locations, dense urban environments, and operationally challenging conditions. As connected systems become more autonomous and data driven, resilient communications infrastructure has become one of the most important strategic layers within modern operational ecosystems.
Wi-VHFi™ was developed to help address these evolving connectivity challenges through a long-range, non-line-of-sight communications architecture designed for both defense and civilian applications. By combining whitespace spectrum technologies, proprietary antenna systems, and Local Terrestrial Positioning Network (LTPN) capabilities, Wi-VHFi™ is designed to support resilient connectivity, positioning, and real-time operational coordination across autonomous systems, industrial operations, emergency response networks, smart infrastructure, transportation systems, and mission-critical environments where traditional communications infrastructure may be limited, congested, unreliable, or disrupted.
Built for both defense and civilian applications, the platform combines:
– Advanced RF and whitespace spectrum utilization
– Patented compact antenna technology enabling extended range and deep signal penetration
– Mesh-enabled network architecture
– Autonomous system interoperability
– Local terrestrial positioning (LTPN) for GPS-independent operation
Cytta Air delivers:
– A resilient communications and positioning layer
– A dual-use infrastructure platform
– A spectrum control advantage
– A cost-disruptive alternative to legacy systems
Maintains reliable connectivity and operational coordination in environments where traditional line-of-sight communication systems are obstructed, unreliable, or unable to maintain stable performance.
Helps maintain communications, coordination, and operational continuity during network disruptions, interference, electronic warfare conditions, or infrastructure outages.
Supports wide-area operations, distributed autonomous systems, and long-range connectivity across large geographic regions without requiring dense infrastructure deployment.
Improves network efficiency, adaptability, and reliability by dynamically responding to changing environmental conditions and spectrum availability.
Enables faster deployment, lower infrastructure requirements, and greater operational flexibility across remote, temporary, mobile, or underserved environments.
Provides a resilient positioning and coordination layer for autonomous systems, connected operations, and mission-critical environments where GPS signals may be degraded or disrupted.