Europe & CIS Aircraft Survivability Equipment Market – Segmented By Fit (Line Fit, Forward Fit), By Subsystem (Electronic Support, Electronic Attack, Non-Combat Systems), By Platform (Combat Aircraft, Combat Helicopter, Special Mission Aircraft, UAV), By Country, Competition, Forecast & Opportunities, 2020-2030F

Market Overview:

Europe & CIS Aircraft Survivability Equipment Market was valued at USD 505.44 Million in 2024 and is expected to reach USD 704.88 Million by 2030 with a CAGR of 5.70% during the forecast period. Aircraft Survivability Equipment market is witnessing significant growth as defense forces prioritize enhancing aircraft protection against modern threats. Rising demand for advanced electronic warfare systems, including radar warning receivers, infrared countermeasures, and missile approach warning systems, is driving procurement of integrated survivability solutions. Technological advancements in sensors, signal processing, and threat detection algorithms are enabling faster response times and improved accuracy against evolving aerial threats. Increasing adoption of unmanned aerial vehicles and network-centric warfare platforms has created opportunities for modular, lightweight, and scalable survivability solutions.

Market Drivers

Increasing Defense Budgets

Rising allocations toward defense expenditure are directly boosting demand for advanced aircraft survivability systems. Governments are emphasizing fleet modernization to counter fast-evolving threats such as radar-guided missiles, infrared tracking mechanisms, and electronic jamming technologies. Expanded budgets allow acquisition of cutting-edge missile warning devices, radar warning receivers, directed infrared countermeasures, and sophisticated electronic warfare suites that improve mission survivability. Funding also supports research and development initiatives, fostering innovation in detection, protection, and countermeasure systems. Larger budgetary resources enable defense agencies to replace obsolete systems with integrated survivability suites offering comprehensive protection across multiple threat vectors. For instance, in 2024, EU states spent $370B on defence, up 19% from 2023 and projected at $412B in 2025. Investments reached $115B, with $95B for equipment, expected to top $108B in 2025. R&D rose to $14B and should hit $18B in 2025. The defence industry generated $172B turnover, $62B exports, and 627K jobs in 2023. EU programmes added $9.5B via the Defence Fund, $1.8B for mobility, $300M for joint procurement, $500M for ammunition, and a planned $1.6B under EDIP by 2027, with 2,500 SMEs central to supply chains.

Rising Investments in Aerospace and Defense Technology

The aerospace and defense sector is seeing a notable rise in investments toward advanced aircraft survivability solutions. With aerial warfare increasingly relying on high-tech engagements, both government and private stakeholders are channeling resources into technologies such as sensor fusion, laser countermeasures, and electronic jamming solutions. The enhanced financial focus on aerospace R&D ensures survivability equipment evolves alongside modern threats, keeping fleets ready for complex missions. These investments frequently include collaborations between defense bodies, research institutions, and tech developers to generate innovative solutions that enhance resilience and adaptability. As aircraft platforms become more advanced, survivability systems are designed for seamless avionics integration, offering higher automation and reduced pilot workload. For instance, Germany is set to launch a multi-billion dollar defense procurement drive, including an order for 20 Eurofighter jets ($4.6–$5.7B), up to 3,000 Boxer armored vehicles ($11.5B), and around 3,500 Patria infantry fighting vehicles ($8B), with deliveries planned over the next decade. The defense budget will rise to $95.8B in 2026, supported by exemptions from debt limits, while additional purchases will cover IRIS-T air defense systems and hundreds of SkyRanger drone-defense platforms. The initiative under Chancellor Friedrich Merz aims to build Europe’s strongest conventional force and meet NATO’s 3.5% of GDP defense spending goal by 2029.

Emphasis on Aircraft Modernization Programs

A major factor driving the aircraft survivability equipment market is the growing focus on upgrading existing aircraft fleets. Older aircraft are increasingly exposed to advanced missile systems and radar-guided threats, making survivability enhancements operationally critical. Modernization initiatives involve equipping aircraft with radar warning receivers, electronic countermeasure pods, missile approach warning systems, and infrared suppression technologies. Integrating survivability solutions into current fleets extends operational lifespan, improves mission readiness, and reduces vulnerability during combat. These programs are often prioritized to maintain parity with adversaries rapidly enhancing their capabilities. Technology integration during modernization enables fleets to adopt modular, scalable survivability suites that can be updated continuously without full system replacement. For instance, In June 2025, the UK announced it will procure at least 12 F-35A jets capable of carrying nuclear weapons, joining NATO’s airborne nuclear mission while retaining conventional strike capability. The program supports 20,000 jobs across the UK supply chain and strengthens the RAF’s long-range strike capacity, complementing Trident submarines. This move responds to growing nuclear threats and aligns with the UK’s Strategic Defence Review and NATO’s target of 5% GDP on national security by 2035.

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Key Market Challenges

High Development and Integration Costs

Designing advanced survivability equipment involves significant investment in research, prototyping, and testing to ensure effectiveness against evolving threats. Integration with diverse aircraft platforms requires customizing solutions to specific avionics, power systems, and spatial constraints, increasing development complexity. High costs can limit adoption by budget-conscious defense organizations and slow procurement cycles. Long lead times for design, certification, and deployment create additional financial pressures on manufacturers and defense agencies. Balancing innovation with cost-effectiveness remains a persistent challenge, as systems must be both technologically advanced and operationally practical to justify investment.

Rapidly Evolving Threat Landscape

Modern aerial threats are becoming increasingly sophisticated, including low-observable aircraft, hypersonic missiles, and multi-spectral guided munitions. Survivability equipment must be constantly updated to detect and counter these advanced threats effectively. The pace of threat evolution often outstrips development cycles, creating a gap between system capabilities and emerging risks. Manufacturers face pressure to anticipate future threats while ensuring backward compatibility with existing platforms. This challenge demands continuous innovation, rigorous testing, and strategic planning to maintain system relevance and operational reliability.

Key Market Trends

AI-Enabled Threat Detection and Countermeasures

Artificial intelligence is being integrated into survivability systems to enhance threat identification, classification, and response. Machine learning algorithms analyze sensor data in real time to predict threat behavior and deploy countermeasures autonomously, reducing reaction times and increasing mission success rates. AI enables adaptive systems that can respond to evolving threat patterns, optimize countermeasure selection, and reduce human operator workload. The trend toward AI-driven survivability equips aircraft with smarter, more responsive defense mechanisms that maintain effectiveness in complex, high-threat environments.

Modular and Scalable System Architectures

Survivability equipment is increasingly being designed as modular solutions that can be scaled or upgraded according to mission requirements. Modular architectures allow for rapid integration of new technologies, easier maintenance, and reduced platform-specific customization costs. This approach enables defense forces to upgrade capabilities without replacing entire systems, extending lifecycle value and improving operational flexibility. Manufacturers are focusing on compact, lightweight designs that preserve aircraft performance while enhancing survivability.

Multi-Spectral and Integrated Countermeasure Solutions

Modern survivability strategies emphasize multi-spectral protection, combining radar, infrared, and laser countermeasures into a unified system. Integration of multiple defensive layers improves threat mitigation effectiveness and reduces aircraft vulnerability. These systems can coordinate sensors and countermeasures to respond simultaneously to diverse threats, enhancing survivability in dynamic combat environments. Investment in integrated multi-spectral solutions reflects the push for comprehensive protection, ensuring aircraft can operate safely across a range of mission scenarios. For instance, In August 2025, L3Harris began producing EMX-Series EO/IR sensor systems at its 2,000-square-meter Katowice facility, supporting ISR and counter-unmanned missions. The site can scale production for Europe’s readiness initiatives, with local teams handling production and support. By 2025, L3Harris delivered over 1,400 systems in 32 countries across 119 platforms, strengthening operational readiness and European presence.

Segmental Insights

Subsystem Insights

In 2024, Europe & CIS Aircraft Survivability Equipment market is dominated by the Electronic Support subsystem, which plays a critical role in enhancing situational awareness and threat detection capabilities. Electronic Support systems include radar warning receivers, missile approach warning systems, and electronic intelligence sensors that enable aircraft to detect, identify, and assess incoming threats in real time. The dominance of this subsystem is driven by the increasing sophistication of aerial threats, including radar-guided and infrared-seeking missiles, which require rapid and accurate detection to enable effective countermeasure deployment. High demand for interoperability with other onboard systems and network-centric platforms has further reinforced its adoption, allowing seamless integration with Electronic Attack and Non-Combat subsystems.

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Country Insights

In 2024, Germany emerges as the dominant region in Europe & CIS Aircraft Survivability Equipment market, driven by sustained investments in defense modernization and the need to equip advanced combat aircraft with sophisticated electronic warfare and survivability solutions. German defense programs prioritize the integration of electronic support, electronic attack, and multi-spectral countermeasure systems to enhance mission readiness and aircraft protection against evolving threats such as radar-guided and infrared-seeking missiles. High operational budgets, coupled with a focus on upgrading legacy fleets and incorporating next-generation threat detection technologies, have solidified Germany’s leadership in the market. The emphasis on interoperability and network-centric warfare enables German aircraft to maintain enhanced situational awareness and rapid threat response capabilities, reinforcing the region’s dominance in 2024.

France ranks as the second-largest market in 2024, supported by ongoing procurement of advanced survivability solutions for both rotary-wing and fixed-wing platforms. French defense priorities center on modernizing electronic support systems and integrating automated countermeasures to address multi-dimensional aerial threats. Investment in research and development ensures that survivability systems remain capable of adaptive threat detection and mitigation, providing aircraft with higher operational efficiency and safety. The scale of defense budgets and focus on high-performance avionics drives France’s sustained market share.

Recent Developments

• ​In 2025, France and Italy began serial production of the SAMP/T NG air defense system, featuring the Aster 30 B1NT missile capable of intercepting targets up to 150 km, including hypersonic missiles, drones, and aircraft. Equipped with advanced AESA radars, the system provides 360° coverage and can track over 1,000 targets simultaneously. France has ordered eight systems, expected to enter service in 2026, offering a potential European alternative to the U.S. Patriot system.
• In July 2025, Turkey signed a deal to acquire 40 Eurofighter Typhoon jets, a versatile twin-engine multirole fighter with advanced air superiority, ground attack, and electronic warfare capabilities. Equipped with Captor-E radar and NATO-compliant systems, the Typhoon can carry weapons like Meteor and Storm Shadow missiles, offering Mach 2 speed, a 2,900 km combat radius, and rapid mission adaptability.
• In July 2025, Turkish Aerospace Industries revealed that its KAAN fighter jet will use advanced electronic warfare decoys, making a single aircraft appear as 10–20 targets on enemy radar to enhance survivability in contested environments.
• In August 2025, BAE Systems and QinetiQ began converting an Avro RJ100 into a flight-test platform for Leonardo UK's ECRS Mk2 radar for the RAF’s Eurofighter Typhoon fleet. The demonstrator will handle over half of radar flight tests, accelerating development for 40 Tranche 3 Typhoons, with service entry expected by 2028.

Key Market Players

• Northrop Grumman Corporation
• BAE Systems
• Saab AB
• Aselsan A.S.
• Elbit Systems Ltd.
• Chemring Group
• Thales Group
• Israel Aerospace Industries Ltd.
• Terma A/S
• Ruag Holding AG      

Report Scope:

In this report, Europe & CIS Aircraft Survivability Equipment Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

•           Europe & CIS Aircraft Survivability Equipment Market, By Platform:

o    Combat Aircraft

o    Combat Helicopter

o    Special Mission Aircraft

o    UAV

•           Europe & CIS Aircraft Survivability Equipment Market, By Fit:

o    Line Fit

o    Forward Fit

•           Europe & CIS Aircraft Survivability Equipment Market, By Subsystem:

o    Electronic Support

o    Electronic Attack

o    Non-Combat Systems

•           Europe & CIS Aircraft Survivability Equipment Market, By Country:

o    Germany

o    Russia

o    France

o    Spain

o    Italy

o    United Kingdom

o    Poland

o    Rest of Europe & CIS

Competitive Landscape

Company Profiles: Detailed analysis of the major companies presents in Europe & CIS Aircraft Survivability Equipment Market.

Available Customizations:

Europe & CIS Aircraft Survivability Equipment Market report with the given market data, Tech Sci Research offers customizations according to the company’s specific needs. The following customization options are available for the report:

Company Information

• Detailed analysis and profiling of additional market players (up to five).

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