Anti-drone Market Size, Share, Growth, Report 2025 to 2034

Anti-drone Market Size and Growth 2025 to 2034

The global anti-drone market size was valued at USD 3.14 billion in 2024 and is expected to surpass around USD 30.97 billion by 2034, growing at a compound annual growth rate (CAGR) of 25.8% over the forecast period from 2025 to 2034. The anti-drone market is expanding swiftly due to rising concerns over airspace security and the increasing use of unmanned aerial vehicles (UAVs) for unauthorized surveillance and potential threats. Anti-drone systems, which include radar, RF detection, jamming, and directed energy weapons, are being enhanced through advances in artificial intelligence, sensor fusion, and signal processing. These innovations improve detection accuracy, response time, and threat neutralization capabilities - making anti-drone technologies essential for military, critical infrastructure, and public safety applications amid a globally growing demand for secure airspace management.

What is Anti-drone?

Anti-drone is a technology and systems that are used to detect, track, identify and eliminate unauthorized and hostile unmanned aerial vehicles (UAVs). The security solutions are vital in securing sensitive places like military bases, airports, events, and critical infrastructure against possible threats like espionage, smuggling, or assaults. Such market products as radar systems, radio frequency detectors, jamming devices, laser systems, and drone capture nets are included in the market. The economic trends such as growing public concern about drone misuse, a higher number of UAV use, and the emerges of the new security threats are the main trends in the market growth. Anti-drone technologies are costly to governments and the private sector across the globe in order to guarantee the safety of the airspace as well as national security.

Anti-drone Market Report Highlight

• By Region, North America accounted for the highest revenue share of 41.2% in 2024. This is due to strong military investments, advanced defense infrastructure, and frequent adoption of anti-drone technologies across government and private sectors.
• By Component, the hardware segment recorded 69.2% revenue share in 2024. Hardware like radars, jammers, and sensors are critical to physically detecting and neutralizing drones, making them indispensable components in building effective anti-drone systems worldwide.
• By Type, the ground-based segment recorded 76.8% revenue share in 2024. Ground-based systems, including towers and vehicle-mounted units, are easily deployable and ideal for protecting airports, borders, and infrastructure with fixed or semi-permanent surveillance needs.
• By Range, the less than 5 km segment recorded 83.7% revenue share in 2024. Short-range systems are ideal for urban and perimeter defense, providing effective coverage for densely populated areas where long-range detection isn’t practical or necessary.
• By Technology, the anti-drone radar segment recorded 56.1% revenue share in 2024. Radar technology is essential for early and accurate drone detection in various weather and terrain conditions, making it the core technology in modern anti-drone solutions.
• By Defense, the detection & disruption segment recorded 78.4% revenue share in 2024. Integrated systems that both detect and disrupt drones offer full-spectrum defense, reducing risk by immediately responding to threats once identified, without requiring separate systems.
• By End Use, the military & defense segment recorded 61.8% revenue share in 2024. Armed forces globally lead adoption due to increasing threats from hostile drones, driving demand for advanced solutions to secure battlefields, airspace, and sensitive installations.

Anti-drone Market Trends

• Directed Energy Weapons (DEWs): The tendency of application of lasers and microwave-based weapons to neutralize drones is catching on due to low collateral risks. DEWs offer a neat and quiet way of disrupting UAVs without impacting it with kinetic damage. In January 2023, Epirus received USD 0.06 billion ranges of energy obtained a contract to develop its Leonidas microwave system. By the year 2025, the U.S. Army was field testing the operational prototypes. This will reduce the unwanted destruction of inner-city areas. Directed-energy platforms are emerging as essential in base protection.
• Drone-on-Drone Interception: The drone-on-drone interception is a new technique of intercepting rogue drones, with nimble and expandable reaction in congested or complicated places. Such systems are based on onboard sensors and high accuracy guidance. BAE Systems aerial interceptor it tested in July 2025 its Malloy T-150 drone armed with laser-guided rockets. According to Utah trials, such systems proved to be successful in engaging targets. City urban areas are also getting net-equipped interceptor drones. These are best suited when it comes to low-cost rapid responses in real time.

Report Scope

Anti-drone Market Synamics

Market Drivers 

• Threats to Security through Weaponized Drones: Drones being used to stage transnational attacks, spying, and sabotage are fuelling the race to develop counter-drones. The threats are cheap, but very disruptive and compel new defense strategies. Too late, Ukraine released bullets of NATO standard specially to attack FPV drones in July 2025. The relocation took care of stealth drone threats and swift drone threats on the field. Similar situations are adjusting the army of most countries in the world. Defensive agility is driving the anti-drone solutions to be mission-principal.
• Civilian and Airport Incursions: The use of unauthorized drones in the vicinity of airports, government building and sport arenas are raising concerns and triggering deployment of a counter-drone. Decoying may lead to delays in a flight and compromises the security of the flight. Around the beginning of 2024, AIM Defence sold the USD 0.005 billion Fractl:2 based laser system to Australia in support of safety in the public place. With the help of the system, it is possible to neutralize drones accurately and in a timely manner. There is also installation of sensors by the city authorities around airports and city centres. Such incidence is pushing civilian infrastructure to embrace the use of C-UAS tools as soon as possible.

Market Restraints

• Costly to the System: Sophisticated anti-drone systems are expensive because computerized systems require specialized hardware, command, control, computers, and energy. These costs reduce adoption of the developing countries and small agencies. By mid-2025, the vast majority of portable laser systems will still be sold at a price of higher than USD 0.002 billion per piece. No significant breakthroughs on the affordability aspect have been recorded. Lifetime cost is also accrued by maintenance and training. Most end-users are impaired by budget constraints.
• Regulatory Barriers: Legal barriers to jamming and disabling drones complicate anti-drone solution deployment in most areas. The majority of laws do not allow neutralization action to parties, other than the recognized defense or federal organizations. In June 2025, New York City was behind in bringing online net-based interceptors because of federal airspace rules. It leaves tech vendors in doubt of whether there will be a clear policy. There are also civil rights and privacy issues which make implementation more difficult. This is another legal bottleneck that does not allow extending the market.

Market Challenges

• Evolving Drone: The drone technology is fast-improving, as now the drones are becoming swarming, stealth, and fly at high-velocities. The old guard of detection systems does not keep up with these new threats. Such tactical evolution was in July 2025 when Ukraine began to use custom bullets against FPV drones. Opponents are systematically adjusting more readily utilizing cheap, Do-It-Yourself drones. Systems have to constantly upgrade in order to stay up. Remaining efficient against changing threats is a technical and strategic challenge.
• Scaling Directed Energy Weapons: Directed-energy systems do have promise, but they have portability, power supply and environmental reliability problems. It is hard to advance beyond the laboratory environment into the field. Raytheon had its HELWS system that had done well in July 2025 and which needed stable vehicle platforms and clear weather. The combination of these systems with mobile patrols is under trial. Battlefield use is whose power needs are complicated. Scaled development of these systems to make them ready in the field is a challenge in the industry.

Market Opportunities

• A Perfect Urban Security Applications: Drones are now frequent threats like festivals, stadiums, and parades creating new chances of urban security. The law enforcement is in search of the equipment that is effective yet safe in population areas. By June 2025 New York started testing drone-on-drone interceptors armed with non-lethal nets. They are meant to be used to target rogue UAVs and neutralise them without endangering citizens. There is an increasing tolerance of mobile and portable platforms. Urban protection is becoming a major area of rapid growth.
• Emerging Markets Growth: Asia-Pacific, African and Latin America countries are escalating investment in drone threat defense. This generates new demand of affordable and compact systems, locally assembled ones. India budgeted on it in 2024 to fund development and deployment of home-grown anti-drone teams. Modular and Artificial Intelligence-assisted tools are appearing in this domain, offered by private startups. Purchases by government through tenders are being skewed towards indigenous solutions in order to reduce the cost of imports. These areas are turning out to be anti-drone incubators.

Anti-drone Market Segmental Analysis

Component Analysis

Hardware: The hardware segment has dominated the market in terms of revenue share. Hardware forms a category containing radars, jammer, optics, antennas, and kinetic intercessors, which screen and disable UAVs physically. These are the physical means that provide support to any counter-UAS work. In March 2024 a European defense joint venture introduced a rugged hand-carried jammer to operate on the ground to be used at the front, strengthening field survivability and connectivity to the vehicle mounted devices. This technology is another point on the essentiality of robust, simple to put out devices in contemporary anti-drone protection.

Anti-drone Market Revenue Share, By Component, 2024 (%)

Software: Algorithms covering detection, AI-based tracking, signal classification, and command/control user interface are covered by the software and combine the sensor data to perform automated actions. It is speed- and accuracy-hungry in competition with counter-drones. In June 2025, an American company posted AI firmware updates reducing urban false positives to approximately 30%. Such enhancements allow increasing situational awareness in a crowded setting. This serves to validate the move towards more intelligent, software based anti-drone operations.

Type Analysis

Ground Based: The ground-based segment has recorded highest revenue share in the market. The ground-based involves fixed or vehicle-mounted systems such as towers or shelters which observe and interact with drones defending fixed locations, be they bases or airports. Such systems provide long sustained power and sensor ability. In October 2023 an Asian country implemented a ground-based laser-defense tower in one of its major airports, which automatically brought down invading drones in an area of about 3km range. It emphasizes the use of high power static defenses of important sites.

Handheld: The handheld systems are transportable portable jammers or detectors carried by the staff on short-range drone detection or interference during patrols or VIP security. They are flimsy and operationally movable. A security startup presenting in September 2022 a RF jamming device mountable on gloves allows quickly and easily countering drones at live events and checkpoints. The innovation highlights the increased individual-led, on-person counter-drone movement.

UAV Based: UAV based system are drone-based systems, which utilise interceptor drones to chase and deactivate rogue UAVs in mid-air using either nets, jamming or kinetic methods, providing a mobile and adaptive counter-UAV capability. In May 2025, a North American military contractor unveiled a drone-to-drone interceptor concept that can track and destroy small UAVs with restricted airspace on its own. This is a transformative step to the mobile, airborne protection layers.

Range Analysis

Less Than 5km: The less than 5km segment holds the largest market share. Short range PLS offer coverage out to 5km, suitable to urban and perimeter applications and are frequently portable, though typically mobile with limited stand off interception capability. Such systems have a localized coverage. Some featured compact RF jammers, designed specifically to protect crowds and defend perimeters in built-in urban areas to below 5 The trend is an indication of the need to combat counter-UAS devices at short distances.

Anti-drone Market Revenue Share, By Range, 2024 (%)

Over 5km: Long-range systems extend past 5 km and are candidates to survey the strategic locations in a wide-area use case, where they need strong sensors and much energy. They make it possible to learn about threats early. In January 2025 a European consortium revealed a long-range anti-drone radar tower that enabled detection of micro-UAVs as far as roughly 8 km, with improved early-warning. These examples show why the use of broad-area aerial surveillance is needed.

Technology Analysis

Anti-drone Radar: The anti-drone radar segment accounted for the highest revenue share in the market. Anti-drone radar employs Doppler, X or S-band and multi-frequency technology to detect low-signature UAVs to provide input into tracking algorithms-frequently as part of ranged sensor systems. In August 2023 an Israeli company introduced an X-band radar that could track nano-drones in complex urban settings with high refresh rates and low-altitude sensitivity. The technology is becoming central to complete city drone defense.

RF Scan: RF scanning systems detect and label drone control/ video link frequencies in real time and provide early warning of even encrypted communications. This technology is an addition to radar and other sensors. November 2024 saw a U.S. vendor deploy a multi-channel RF scanner capable of deciphering encrypted drone communications to give real-time alerts and a step up in the level of signals detection.

Thermal Image: Drone Identification: DRs are passed by thermal imagers and the heat signatures released by the drone motors and batteries and as a result, they are used during the night and obscured scenarios and often combined with EO sensors. In April 2022 a defense expo debuted a fused thermal/EO camera system that allows operators to distinguish types of UAVs by the heat signature on dark or wooded surfaces. The trend highlights the significance of thermal in all-weather C-UAS detection.

Others: The so-called others are such things as acoustic sensors, EO-only systems, hybrid fusion platforms, and promising new technologies such as signal triangulation or AI fusion modules. They complement fundamental detecting devices. In February 2025, a startup released a hybrid acoustic-optical sensor array with embedded AI that is able to characterize certain UAVs based on their sound profile, improving classification efficiencies. This shows an increase in the sensor fusion and adaptive detection development.

Defence Analysis

Drone Detection & Disruption Systems: The drone detection & disruption systems segment generated a highest revenue share in the market. These combined packages contain detection, tracking and pro-active countermeasure options: jamming, lasers, nets, or interceptors, which provide a comprehensive end to end defense. A vehicle-mounted integrated C UAS capability involving radar, radio frequency and laser engagement capabilities that were field-tested by a NATO task force in May 2025. The increasing popularity of multi-tier, fully-integrated drone defense architectures can be highlighted by its successful trial.

Anti-drone Market Revenue Share, By Defense, 2024 (%)

Drone Detection System: The detection-based systems do not involve neutralization of the intruding UAV, they only identify and track the arriving UAV using early warning, and requires another system to neutralize the UAV. Their applicability is usually in areas of limited neutralization. Later in July 2023, a number of airports in North America were introduced to dual radar-RF detection systems paired with automated notification to security staff in the event that a drone penetrated a secure area. This represents the precedence on the early awareness of drone threats.

End Use Analysis

Military & Defense: The military & defense segment reported a leading revenue share holder in the market. Military customers have applications on the battlefield to include stops during convoy runs, and protection of the borders; equipment should be rugged and very mobile. In Aug. 2024, an armored version of C-UAS vehicles with integrated combined jamming and kinetic interceptors was commissioned into a Middle Eastern military to protect a convoy. This application points toward the dire necessity of the military to have portable, multi-modal counter-UAS platforms.

Commercial: Airports, stadiums, factories or other commercial end-users are using anti-drone systems to defend their operations and meet regulations, with a tendency towards non-lethal, automated systems. A port in Southeast Asia installed RF-detection sensors around its perimeter in the month of November 2022 to mitigate unauthorised drone-inspections of shipping containers. It indicates the growing use of C-UAS technology on civilian vital infrastructure.

Anti-drone Market Revenue Share, By End Use, 2024 (%)

Government: Governmental departments and agencies (law enforcement and intelligence) consider anti-drone systems to provide municipal security, security of VIPs and key events and prefer deployable and stealthy options. A police force in a European capital used a fleet of portable jammers citywide in July 2025 in preparation of a G-7 summit to knock out any possible spotting drones. This is an indication of the increased trend towards preemptive C‑UAS dependence by the government.

Others: This will incorporate cases of private security companies, operators of power plants, refineries and utilities etc. who implement customized anti-drone systems to preserve their assets and line of compliance. An acoustic-, thermal-based perimeter detection system piloted in an oil refinery in South America in March 2024 was used to warn against UAV interferences over storage tanks. This is a case demonstrating how C-UAS is currently expanding into industrial-specific applications.

Anti-drone Market Regional Analysis

The anti-drone market is segmented into several key regions: North America, Europe, Asia-Pacific, and LAMEA (Latin America, Middle East, and Africa). Here’s an in-depth look at each region.

Why is the North America region leading the anti-drone market?

• The North America anti-drone market size was valued at USD 1.29 billion in 2024 and is forecasted to reach around USD 12.76 billion by 2034.

North America, which consists of the U.S., Canada, Mexico among others, is a world trendsetter in the anti-drone technologies due to its military advancements, commercial interests, and border security requirements. The area has been the first one to introduce integrated anti-drone systems on diverse terrain. In April 2025, the U.S. Department of Defense put state-of-the-art counter-drone measures on the U.S. border with Mexico to counter the cartel-operated UAVs, resulting in a new major step in the field in the area. In Canada, the attention is paid to the protection of the critical infrastructure; in Mexico, law enforcement uses portable jammer solutions.

What are the driving factors for the Europe anti-drone market?

• The Europe anti-drone market size was estimated at USD 0.83 billion in 2024 and is projected to grow around USD 8.18 billion by 2034.

Europe encompasses countries such as Germany, France, the UK, Italy, and Spain, Spain and Russia which have experienced an upsurge in airspace violation and the threat in cities which has necessitated governments to invest in technological enhanced anti-drone solutions. Nations are spending on multi-sensor, AI-based systems and EU-compatible defence policy. France invested USD 5.3 billion via its Military Program Law in November 2024 in the anti-air systems such as the defense of drones in particular, given such huge gatherings. Germany and UK are equally conducting AI radar systems at large defense expos.

Why is Asia-Pacific witnessing the fastest growth in the anti-drone market?

• The Asia-Pacific anti-drone market size was accounted for USD 0.74 billion in 2024 and is predicted to reach around USD 7.28 billion by 2034.

The Asia-Pacific including China, Japan, India, South Korea, Australia, Taiwan, etc., is experiencing increased use of counter-drone tools owing to the tension at the border, espionage concerns and aviation security. As regional manufacturing has picked up pace, there is also an upsurge towards indigenisation. India, in June 2025, tested successfully an anti-drone system based on the Bhargavastra rocket, developed in the country to be used both in the military and urban areas. Cross-domain readiness has also been stepped up in China and Japan in form of UAV detection around sensitive installations.

Anti-drone Market Revenue Share, By Region, 2024 (%)

What are the trends in the LAMEA anti-drone market?

• The LAMEA anti-drone market size was valued at USD 0.28 billion in 2024 and is anticipated to grow around USD 2.76 billion by 2034.

LAMEA encompasses Brazil, Middle East, and African countries where the demand of anti-drone is rising owing to the cross border threats, oil infrastructural risks, and urban attacks. Such areas are eyeing cost-effective, rough duty C-UAS devices that might work under harsh situations. In May 2025, the first Counter-UAS MEA Conference was held in Jordan with international companies demonstrating regional militaries deployable systems. Brazil and Nigeria are testing the use of AI-enhanced drone detection towers, and Gulf countries are still working to incorporate radar-jamming platforms along the borders.

Anti-drone Market Top Companies

• Advanced Radar Technologies S.A.
• Airbus SE
• Blighter Surveillance Systems
• Dedrone
• DeTect, Inc.
• Droneshield LLC
• Enterprise Control Systems
• Israel Aerospace Industries Ltd. (IAI)
• Liteye Systems, Inc.
• Lockheed Martin Corporation
• Orelia
• Prime Consulting and technologies

Recent Developments 

• In March 2025, Airbus has unveiled LOAD (Low-Cost Air Defense), a new concept for an anti-drone drone that modifies an existing target drone (the Do-DT25) to carry small air-to-air missiles designed specifically to shoot down other unmanned aerial vehicles; this affordable, catapult-launched drone is intended to be recoverable and reusable, addressing the growing challenge of countering swarms of low-cost attack drones, with an operational prototype expected by the end of 2025 and full production aimed for 2027.
• In June 2024, Dedrone has launched DedroneOnTheMove (DedroneOTM), a vehicle-mounted, mobile counter-drone solution developed with key defense partners to protect expeditionary forces in high-risk environments; it integrates Dedrone’s advanced AI-powered sensor fusion platform for 360-degree drone detection, tracking, identification, and mitigation, offering real-time airspace security on the move and compatibility with a wide range of military vehicles, and is already being adopted by governments and military entities worldwide 

Market Segmentation

By Component 

• Hardware
  • Radars
  • Acoustic Sensors
  • Infrared and Video Surveillance Systems
  • RF Detectors
  • Jammers
  • Others
• Software

By Type

• Ground Based
  • Fixed
  • Mobile
• Handheld
• UAV Based

By Range

• Less than 5 km
• More than 5 km

By Technology

• Anti-drone Radar
• RF Scan
• Thermal Image
• Others

By Defense

• Drone Detection & Disruption Systems
• Drone Detection System

By Mitigation

• Destructive System
  • Laser System
  • Missile Effector
  • Electronic Countermeasure
• Non-destructive System

By End Use

• Military & Defense
• Commercial
• Government
• Others

By Region

• North America
• APAC
• Europe
• LAMEA