C-UAS SYSTEM

MADDOS SYSTEM FEATURES

MADDOS SYSTEM FEATURES

• Extremely long detection range: This feature allows the system to identify drone threats from several kilometers away, giving ample time to react and strategize a response.
• Low false alarm rate: Advanced algorithms ensure that the system discriminates effectively between potential threats and non-threats, reducing false positives and focusing on genuine threats.
• Fully automatic operation: Once configured, the system operates autonomously, requiring minimal human oversight and allowing for continuous, 24/7 protection.
• Scalable: The system can be scaled up or down depending on the requirements of the deployment area, from small private properties to large military bases.
• Open-network architecture allows integration with other security systems and technologies, enhancing overall security infrastructure.
• Advanced neutralization: The system includes options for both soft-kill and hard-kill solutions that are adaptable based on the scenario and level of threat.

The versatility of the C-UAS system is a key attribute, making it applicable in various scenarios, from urban environments to sensitive military zones. Its ability to integrate with other systems through its open-network architecture allows for a comprehensive security setup that can be customized based on evolving threats and technological advancements.

MADDOS SYSTEM CONFIGURATIONS

MADDOS SYSTEM CONFIGURATIONS

• STATIONARY: Ideal for permanent installations such as military bases or government buildings.
• PORTABLE: For temporary events or mobile units that require quick deployment and dismantling.
• VEHICLE MOUNTED: Perfect for mobile convoys or providing security to moving targets.

Each configuration of the C-UAS system is designed to meet specific operational needs, ensuring flexibility and effectiveness. The stationary setup is robustly designed for long-term deployment with minimal maintenance, while the portable version offers quick setup and teardown, which is ideal for temporary events or emergencies. The vehicle-mounted system is optimal for protecting moving convoys or during mobile operations, providing security wherever needed.

MADDOS SYSTEM USE CASES

MADDOS SYSTEM USE CASES

• CRITICAL INFRASTRUCTURE: Protects utilities, power plants, and communication hubs.
• AIRPORTS: Ensures safety in the airspace around airports, preventing unauthorized drone activities.
• MILITARY: Secures military installations and operations from drone surveillance or attacks.
• PRISON: Prevents the delivery of contraband via drones.
• CONVOY PROTECTION: Shields moving convoys from aerial threats.

The C-UAS system offers tailored solutions that address specific vulnerabilities for each use case. For instance, in prisons, the system can prevent the delivery of contraband, which is a growing problem as drones become more accessible and capable.

DETECTION

DETECTION

• 4D RADAR: Offers robust detection capabilities that can determine incoming drones’ size, speed, and trajectory.
• PASSIVE RF: Detects drones based on the radio frequencies they emit.
• EOIR CAMERA: Utilizes electro-optical and infrared cameras for high-accuracy visual identification.

Each detection method under the C-UAS system provides a layer of security, ensuring that almost no drone can penetrate the protected airspace without being detected. The 4D radar is particularly effective in adverse weather conditions, while the EOIR cameras provide precise visuals of the drone, aiding in its classification and threat assessment.

NEUTRALIZATION

NEUTRALIZATION

• JAMMER: Disrupts the drone’s communication and navigation systems.
• GNSS SPOOFING: Misguides the drone by sending false GPS signals.
• KAMIKAZE DRONE: Deploys a drone designed to collide with the threat, neutralizing it upon impact.
• TAKE OVER CONTROL: Takes control of the drone, allowing it to be safely landed and investigated.
• HARD-KILL SOLUTION: Physically destroy the drone using projectiles or other methods.

Each neutralization technique in the C-UAS system is selected based on the scenario and the threat level of the incoming drone. Techniques like GNSS spoofing and take-over control offer non-destructive ways to mitigate threats, while hard-kill options are reserved for high-threat scenarios.

COMMAND & CONTROL

COMMAND & CONTROL

• SYSTEM MANAGEMENT: Centralized management allows real-time adjustments and control over the entire C-UAS system.
• SKY PICTURE: Provides a comprehensive aerial view of the monitored area, enhancing situational awareness.
• DATA FUSION: Integrates data from various sensors to provide a unified response strategy.

The command and control center is the nerve center of the C-UAS system, where all information converges, decisions are made, and responses are coordinated. Data fusion technology allows information from various detection and neutralization elements to be synthesized, ensuring timely and effective response.