Sentrycs Cyber Over RF Anti-Drone Technology Confirmed Integrated into Rafael’s Drone Dome

The integration of Sentrycs’ Cyber Over RF technology into Rafael’s Drone Dome system represents a notable development in counter-unmanned aerial system (C-UAS) capabilities. This collaboration introduces a protocol-based approach to drone detection and mitigation, diverging from conventional layered or kinetic methods. The Drone Dome, already operational across multiple regions, is designed to provide 360-degree, all-weather protection against aerial threats. It combines radar, radio frequency (RF) and electro-optical sensors, jamming systems, and a centralized command-and-control (C2) center to detect, track, and intercept drones.

Drone Dome. Rafael

Sentrycs’ Cyber Over RF technology enhances this framework by enabling direct interaction with drone communication protocols. This method allows the system to identify unauthorized drones, assume control, and guide them to a designated landing zone without jamming or physical engagement. The technology operates independently of preloaded signal libraries, which enables dynamic response to evolving drone platforms. This is particularly relevant in environments where drones employ frequency-hopping or other evasive communication techniques.

Cyber Over RF. Sentrycs

The integration transforms detection from a sequential phase into an immediate component of the response process. Upon signal detection, the system can identify the drone and estimate the operator’s location. This situational awareness is critical in complex threat scenarios, such as urban environments or near sensitive infrastructure. By analyzing protocol-level communication, the system can distinguish between authorized and unauthorized drones, reducing false alarms and minimizing disruption to nearby systems.

The Cyber Over RF capability is classified as a soft-kill effector, meaning it neutralizes threats without causing physical damage. It targets commercial tier 1 and 2 UAVs as well as custom-built platforms. The effector interacts with the drone’s RF communication protocols, exploiting vulnerabilities to either disconnect the UAV from its controller or redirect it safely. This approach aligns with regulatory and operational requirements for non-disruptive mitigation, especially in civilian or densely populated areas.

The Drone Dome’s open architecture facilitates integration with third-party technologies like Sentrycs’ solution. This modularity supports spiral development, allowing the system to adapt to emerging threats and operational needs. The partnership reflects a broader trend in the defense industry toward multi-layered, intelligent counter-drone systems that prioritize precision and legal compliance.

Sentrycs’ technology is reportedly deployed in over 20 countries, including applications in critical infrastructure, military installations, border security, and law enforcement. Its protocol manipulation-based approach offers an alternative to traditional C-UAS methods, which often rely on signal libraries or kinetic responses. By focusing on communication protocols, the system can respond to new or modified drone platforms without prior data, enhancing its adaptability.

The integration also supports real-time identification of communication frequencies, which is essential for countering drones that use advanced transmission techniques. This capability contributes to faster threat detection and more accurate mitigation, while maintaining operational safety for friendly UAVs. The system’s ability to estimate the operator’s location adds another layer of intelligence, potentially supporting broader security operations.

Overall, the collaboration between Rafael and Sentrycs introduces a refined method for managing drone threats. It reflects ongoing efforts to enhance airspace security through non-disruptive, protocol-based technologies. As drone usage continues to expand across commercial and military domains, such integrations may become increasingly relevant in shaping future C-UAS strategies.