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Anti-drone systems, sometimes referred to as Counter-Unmanned Aircraft Systems (C-UAS) are becoming more and more important for maintaining public safety at critical infrastructure including airports, borders, and power plants. The capacity to identify and neutralize unauthorized unmanned aerial vehicles has evolved from a specialized military to a crucial part of contemporary security and critical infrastructure protection as drones become more widely available and capable of delivering dangerous payloads.
Depending on the context and the type of drone, neutralization techniques for these threats are typically divided into two categories:
Soft kill technique centers on electronic disruption, such as GPS spoofing to confuse the drone’s navigation system into a safe landing or RF jamming to cut off the pilot’s control link.
Hard kill technique, on the other hand, use kinetic interceptors such as nets, High-Power Microwaves to “fry” the drone’s electronics or Directed Energy Weapons (lasers) to physically destroy or capture the drone.
Hard kills are necessary to halt autonomous drones that do not rely on external radio signals, although soft kills are frequently favored in metropolitan settings to avoid debris.
Significant technological developments in radar, Radio Frequency (RF) sensors, and optical sensors are helping the anti-drone business identify drones at longer ranges and with more accuracy, even in complex surroundings. Drone recognition and classification of their possible threat levels are improved by the real-time analysis of sensor data made possible by the integration of Artificial Intelligence (AI) and Machine Learning (ML). These advancements are leading to the development of particular anti-drone systems for a range of uses, such as wildlife management, power plants, prisons, and airport security.
Fortune Business Insights estimates the market for critical infrastructure anti-drone systems to grow from USD 2,759.8 million in 2025 to USD 9,838.7 million by 2034, with a significant CAGR of 14.5% over the forecast period.
Founded in 1999, BAE Systems is a London-based defense, aerospace, and security firm. It provides integrated security solutions, ammunition, naval vessels, and electronic systems. For critical infrastructure, BATS is a novel software-defined C-UxS system that was introduced by the firm at DSEI in 2025. It provides a modular, configurable architecture for both point and wide-area protection. In order to safeguard vital national infrastructure and metropolitan areas, it combines a variety of sensors and effectors to provide real-time detection, tracking, and threat categorization.
The defense division of the family-owned Diehl Group, which was established in 1902, is Diehl Defence GmbH & Co. KG, situated in Germany. It creates protective technologies, precision munitions, guided missiles, and ground-based air defense systems. For critical infrastructure Diehl reintroduced GARMR, a kinetic counter-UAS system installed on an Enok AB/Caracal chassis, at Enforce Tac 2026. Both mobile forces and immovable infrastructure are intended to be protected by the system. In order to detect, classify, and prioritize air targets-from micro-drones to bigger combat drones such as Shahed or Lancet, GARMR integrates new AI-supported sensors.
Founded in 1922, Raytheon is a U.S. defense and aerospace company with its headquarters located in Virginia. Today it is a part of RTX Corporation and is a significant supplier of radar and sensors and the biggest manufacturer of guided missiles globally. In a U.S. Army test, Raytheon successfully displayed the Coyote Block 3NK, demonstrating its capacity to engage and eliminate several drone swarms with a non-kinetic payload. This variant’s ability to be recalled and redeployed is a major benefit, providing an affordable, reusable, and low-collateral damage approach for safeguarding critical infrastructure.
Founded in 2000, the French multinational Thales Group, with its headquarters in Paris La Defense, creates electronics for aerospace, defense, and security. Thales introduced STORM 2, a <2kg Cyber and Electromagnetic Activities (CEMA) node intended to improve security in crowded or urban areas by offering soldiers lightweight, mobile, and localized defense against RF-controlled drones.
Founded in 1889, Rheinmetall AG is a significant defense and automotive corporation. The company’s headquarters are in Dusseldorf, Germany. It provides vehicle systems, ammunition, weapons, and electronic solutions, including air defense systems. Rheinmetall provides the Skyranger 30 turret, which combines a 30mm AHEAD gun with radar/EO tracking and can incorporate missiles, and Skyspotter early-warning sensors for vital infrastructure in order to identify, categorize, and combat tiny drones and other low-altitude threats.
Founded in 1948, Leonardo S.p.A. is an Italian aerospace, defense, and security firm with its headquarters located in Italy. Counter-UAS systems such as M-LIDS and a directed energy Stryker C-UAS, which employ radar, RF/EO sensors, lasers, and kinetic weapons to identify and neutralize drone threats, are supplied by its Leonardo DRS subsidiary. These devices are sold to safeguard vital military equipment and critical infrastructure.
Founded in 1937, Saab AB is a Swedish aerospace and defense company with its headquarters located in Linkoping. Saab provides modular counter-UAS systems for vital infrastructure which identify and neutralize hostile drones around sensitive locations using radar, C2 systems, and effectors. A compact, “fire-and-forget” missile was introduced by SaaB with the purpose of combating, low-cost, mass drone threats. With a hard-kill, airburst warhead and a 2-5km range, it is intended for use on light vehicles and in stationary, ground-based tasks.
Founded in 1995, Lockheed Martin is a massive U.S. aerospace and defense company with its headquarters located in Maryland. In addition to providing planes, missiles, and radar systems, it is expanding its C-UAS business, which is a scalable, multi-layered solution that uses AI-enabled sensors, command-and-control, and effectors to identify and neutralize drones for the defense of critical infrastructure.
Founded in 1939, Northrop Grumman is a U.S. aerospace and defense business with its headquarters located in Fall Church, Virginia. It provides radars, space systems, airplanes, and missile defense. It provides the FAAD C2 battle-management systems and AiON/M-ACE C-UAS platforms for critical infrastructure, which combine radar and sensors with kinetic (guns, missiles) and non-kinetic (laser, EW) effectors to identify and eliminate drone threats.
Founded in 1966, Elbit Systems headquartered in Israel is a defense electronics company. It provides UAS technology, C4SIR, and avionics. Elbit provides the ReDrone modular counter-UAS system, which includes radar, SIGINT, RF jammer, and EO sensors to detect, identify, and disrupt drones several kilometers away for critical infrastructure. Elbit secured a contract to provide a NATO European nation with its ReDrone modular Counter-UAS (C-UAS) system over a three-year period. Electronic Warfare (EW) countermeasures, DAiR radar, SIGINT sensors, and electro-optical payloads are all included in this deal.
In conclusion, the necessity for cutting-edge defense solutions in the face of more complex drone threats is contributing to the critical infrastructure anti-drone systems industry’s explosive growth. Major companies have developed advanced anti-drone systems including electronic warfare devices, jamming systems, and directed-energy weapons. These companies are frequently working with government organizations, airports to implement anti-drone systems for the defense of critical infrastructure.
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