Indonesia Drone Detection System Market Size and Forecast by Technology Type, Range, Application, Platform, Deployment Type, and End User: 2019-2033

Indonesia Drone Detection System Market Outlook

National Defence Collaborations Paving the Way for Scalable UAV Detection in Indonesia

Indonesia, an archipelagic nation with over 17,000 islands, faces unprecedented challenges in securing its airspace from unauthorized UAV activities. The surge in drone-based threats around national borders, commercial ports, oil refineries, and high-footfall urban zones has pushed Indonesia to adopt a strategy grounded in defence partnerships and multi-agency cooperation. These alliances are accelerating the deployment of scalable, mobile drone detection technologies that support wide geographic coverage and cross-jurisdictional interoperability.

According to DataCube Research, the Indonesia drone detection system market is projected to reach USD 628.5 million by 2033, growing at a CAGR of 12.8% from 2025 to 2033. This market expansion is being driven by the convergence of commercial UAV proliferation, geopolitical surveillance risks, and national infrastructure digitization programs. Radar-based systems and RF triangulation are being deployed in remote transport corridors and sensitive maritime zones, while EO/IR overlays and acoustic modules are finding traction in urban centres and near presidential sites. Partnerships with Israel and South Korea, inked in late 2023, are supporting mobile radar deployments in Kalimantan and Sumatra, helping bridge long-standing coverage gaps.

Drone Proliferation, Mass Events, and Strategic Zones Driving Detection Demand

Indonesia's drone detection industry is being propelled by the exponential rise in UAV usage across multiple civilian sectors. Logistics providers, agriculture businesses, and construction firms are integrating drones for mapping, delivery, and inspection tasks. However, the unintended consequence has been an increase in rogue drone activity near restricted zones. High-profile events in Jakarta and Bali have reported UAV intrusions over concert venues, embassies, and cultural gatherings, raising public concern and institutional urgency.

In addition, strategic locations such as oil terminals in East Kalimantan, military outposts in Papua, and high-density transportation corridors in Java are increasingly being targeted by surveillance drones, both domestic and foreign. These incursions underscore the need for layered zone-specific detection infrastructure.

Despite the growth momentum, Indonesia faces serious urban detection challenges. The country’s dense cities create radar blind spots due to building interference and RF clutter. Furthermore, legal uncertainty surrounding drone neutralization has slowed active enforcement, forcing agencies to rely heavily on passive monitoring. These constraints call for innovation in real-time, mobile-compatible detection platforms that can operate in low-visibility zones and comply with national airspace laws.

Passive Tracking and Portable Intercept Devices Accelerating Adoption

The Indonesia drone detection system market is witnessing rapid integration of passive detection systems that do not emit signals, enabling stealth UAV tracking without interference. These are proving particularly effective in defence-sensitive regions such as the Malacca Strait and Sulawesi coasts, where active radar use may breach geopolitical sensitivities.

Simultaneously, portable intercept devices, including handheld RF sensors and net-based neutralizers, are being tested for field use by military units and disaster response teams. These mobile systems can be rapidly deployed in rural and coastal zones, delivering real-time detection and interception capabilities with minimal infrastructure dependency.

The broader opportunity lies in city-wide detection integration. Jakarta and Surabaya are actively investing in smart infrastructure, where drone detection APIs are being embedded into traffic surveillance, emergency management, and civic response systems. As Indonesia prepares for a new capital relocation to Nusantara, large-scale infrastructure defence investments will drive demand for scalable UAV detection ecosystems embedded within urban planning models.

Multi-Agency UAV Oversight Reforming Market Governance and Procurement

Indonesia’s regulatory structure for drone detection is led by the Directorate General of Civil Aviation (DGCA), under the Ministry of Transportation, supported by the National Cyber and Crypto Agency (BSSN) and Ministry of Defense. These bodies collaborate to enforce UAV airspace compliance, license detection equipment, and manage national drone surveillance programs.

In late 2023, the Indonesian government introduced a Drone Activity Control Directive that mandates drone detection infrastructure in high-priority economic and defence zones. This legislation authorizes local governments to procure drone detection solutions that integrate with regional surveillance databases and enforce real-time tracking of UAVs operating above permitted altitudes.

Furthermore, the National Police Force now operates a centralized drone response centre equipped with ADS-B, EO/IR, and acoustic detection layers that cover protest zones, transportation hubs, and embassies. This institutional push is improving regulatory coherence and opening procurement opportunities for private players specializing in modular and rapid-response detection technologies.

Urban Density, Legal Hurdles, and Infrastructure Disparities Impacting Performance

While Indonesia drone detection sector is scaling quickly, several structural and economic variables are impacting deployment effectiveness. The archipelagic layout necessitates region-specific deployment plans, as UAV threats in Java’s urban matrix differ significantly from maritime surveillance needs in Eastern Indonesia. Detection systems must be customized for signal interference, altitude variance, and localized user permissions.

Legal ambiguities around active drone interception, particularly the use of jamming or kinetic countermeasures, continue to delay enforcement capabilities in key zones. In many instances, government agencies can only monitor threats but not neutralize them, limiting the deterrent effect of detection platforms.

Additionally, infrastructure disparity across provinces limits consistent coverage. While Java and Bali have invested in mobile EO/IR units and radar networks, regions like West Papua, Maluku, and North Sulawesi lack basic detection assets. This uneven development is expected to be addressed through defence-led funding under Indonesia’s Five-Year Strategic Airspace Security Plan launched in early 2024.

Cross-Border Technology Alliances Fuel Competitive Positioning

Indonesia drone detection landscape is shaped by a growing pool of local integrators and global OEMs establishing cross-border technology transfer agreements. Notable participants include Indoguard Technologies, SkyEyes Surveillance, and state-owned PT LEN Industri, all of which are collaborating with partners from South Korea, Israel, and Turkey.

Strategic partnerships are the most influential market strategy. In Q4 2023, Indonesia signed a defence agreement with Israel to co-develop mobile radar-integrated drone detection systems for coastal and military base surveillance. These systems are currently being piloted in Java Sea command zones and are expected to scale to national deployment by 2026.

Product development is increasingly focused on modular units compatible with Indonesia’s diverse topography. For instance, RF detection towers equipped with solar power and LTE communication are being installed in forest-fringe areas to protect from drone-enabled illegal logging and mining surveillance. The market is also witnessing growth in local assembly facilities to reduce import dependency and expedite deployment cycles.

Conclusion: Partnership-Fuelled Growth Defining Indonesia’s C-UAS Evolution

Indonesia’s drone detection system market is entering a growth phase driven by alliance-based technology deployment, multi-agency regulatory integration, and infrastructure risk containment. From radar mesh systems along strategic straits to passive intercept tools in urban centres, the country is designing a diversified and scalable UAV defence landscape.

As the government amplifies investments under national smart defence and urban infrastructure programs, detection technology will become a mainstream enabler of civil security, border governance, and digital infrastructure protection. Indonesia is no longer adapting to drone threats—it is engineering a national architecture to predict, manage, and deter them.