Europe & CIS Airborne Telemetry Market By Technology (Wired, Wireless), By Application (Commercial, Defense), By Component (Receiver, Transmitter, Antenna), By Country, Competition, Forecast & Opportunities, 2020-2030F

Market Overview:

Europe & CIS Airborne Telemetry Market was valued at USD 460.72 Million in 2024 and is expected to reach USD 606.20 Million by 2030 with a CAGR of 4.68% during the forecast period. Europe & CIS Airborne Telemetry market is witnessing significant growth due to rising defense modernization programs, increasing deployment of advanced aircraft platforms, and the growing need for real-time mission-critical data transmission. Adoption of unmanned aerial systems and next-generation airborne sensors is enhancing telemetry capabilities, enabling more accurate monitoring, testing, and evaluation of defense systems. Technological trends such as miniaturization of telemetry components, integration with AI-driven analytics, and secure high-speed communication links are shaping market dynamics, offering more efficient and reliable data acquisition during flight operations. Opportunities lie in expanding unmanned system networks, upgrading legacy telemetry systems, and developing interoperable solutions that can support multiple platforms across various missions.

Market Drivers

Rising Defense Modernization Programs

Defense modernization programs are accelerating the demand for advanced airborne telemetry systems. Militaries are focusing on upgrading their existing fleets with more sophisticated aircraft, including fighter jets, transport planes, and reconnaissance platforms, which require enhanced telemetry capabilities to monitor performance, test systems, and gather real-time mission data. Advanced telemetry systems enable comprehensive tracking of aircraft parameters such as speed, altitude, engine performance, and weapon system operation during flight tests and operational missions. The integration of telemetry with modern command and control networks allows decision-makers to analyze data in real time, ensuring greater operational efficiency and readiness. Increased budget allocations toward modernization programs and technology upgrades are encouraging defense agencies to adopt more robust telemetry solutions. 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.

Increasing Air Travel

The global rise in air travel is creating new momentum for airborne telemetry solutions, particularly in the commercial aviation sector. Aircraft operators and manufacturers are under pressure to ensure flight safety, efficiency, and regulatory compliance, which depend heavily on accurate and continuous transmission of data. Telemetry enables aircraft systems to communicate vital information such as engine health, fuel consumption, navigation parameters, and flight control data to ground-based monitoring centers. As passenger demand grows, airlines are expanding fleets, and each aircraft requires sophisticated telemetry systems to meet performance and safety expectations. For instance, Global passenger traffic for 2023 reached 8.7 billion, closely aligning with ACI World’s February 2024 forecast at 99.99% accuracy. This milestone contrasts with pre-pandemic projections, which anticipated 10.5 billion passengers by 2024. Current estimates for 2024 suggest a total of 9.5 billion passengers, marking a 10% year-on-year (YoY) growth from 2023 and reaching 104% of the 2019 level. By mid-2024, year-to-date traffic is expected to show an 11% YoY increase, with international markets leading the recovery, showing a 17% YoY rise compared to 6% YoY growth in domestic travel. International passenger traffic is projected to hit 4.1 billion by the end of 2024, accounting for 43% of the total, while domestic traffic will reach 5.4 billion, or 57%.

Growing Adoption of Unmanned Aerial Systems (UAS)

The increasing deployment of unmanned aerial systems is significantly driving demand for airborne telemetry solutions. UAS platforms rely heavily on telemetry to transmit critical flight data, sensor outputs, and mission information back to ground control stations. Advanced telemetry systems facilitate precise monitoring of UAS operations, including navigation, payload status, and system health, allowing operators to maintain situational awareness and optimize mission performance. The rise in autonomous and semi-autonomous systems has created a requirement for telemetry solutions that can handle high-speed, high-volume data streams while maintaining secure communications. Military applications, such as surveillance, reconnaissance, target acquisition, and electronic warfare, are expanding UAS utilization, making real-time telemetry essential for mission success. For instance, in a bold strategic proposal from mid-2025, a German start-up called Helsing has pitched the concept of a “drone wall” along NATO’s eastern border deploying 100,000 AI-equipped HX-2 combat drones to form a high-tech aerial shield that could “prevent a land invasion of the continent once and for all”. The idea envisions creating this drone barrier across the approximately 3,000 km eastern frontier within a year.

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Key Market Challenges

High Development and Operational Costs

The development, integration, and operation of advanced airborne telemetry systems involve substantial financial investment. Telemetry components, including sensors, communication modules, and ground control infrastructure, require precision engineering, rigorous testing, and adherence to stringent defense standards. High costs associated with research and development, system calibration, and maintenance limit the ability of some operators to adopt cutting-edge solutions. Additionally, long lifecycle requirements for aircraft telemetry systems necessitate ongoing support, software updates, and component replacement, which further increase operational expenses. Budget constraints within defense organizations may result in prioritization of essential systems, delaying telemetry upgrades. Complex integration requirements with existing aircraft platforms and defense networks demand specialized expertise and resources, adding to the cost burden.

Complex Integration with Existing Defense Infrastructure

Integrating modern telemetry systems into legacy aircraft and defense networks presents technical and operational challenges. Older platforms may not support advanced data acquisition, high-speed transmission, or secure communication protocols, requiring extensive retrofitting or system redesign. Telemetry systems must interface seamlessly with multiple onboard sensors, avionics, and ground command networks, which involves complex configuration and testing. Compatibility issues can result in data inconsistencies, transmission delays, or signal loss, affecting mission-critical decision-making. Interoperability between manned and unmanned platforms, as well as across allied defense networks, adds further complexity. Integration projects demand specialized engineering expertise, time-consuming validation, and adherence to rigorous safety and security standards.

Key Market Trends

Miniaturization of Telemetry Components

Miniaturization of telemetry hardware is transforming the airborne telemetry landscape by enabling lighter, more compact, and energy-efficient systems. Smaller sensors, transmitters, and data processing units reduce aircraft payload weight, enhance fuel efficiency, and allow integration into platforms with limited space. Miniaturized components can be installed on unmanned aerial systems, small aircraft, and even high-performance fighter jets without impacting aerodynamics or operational capabilities. Technological advancements in microelectronics, MEMS sensors, and integrated circuits are driving this trend, offering higher accuracy and reliability within a smaller footprint. Lightweight telemetry solutions also reduce power consumption, extend operational endurance, and simplify installation and maintenance. The trend supports modular designs that can be easily upgraded or replaced without extensive retrofitting.

Integration with AI and Data Analytics

Artificial intelligence and advanced analytics are increasingly being integrated with telemetry systems to provide actionable insights from complex flight data. AI algorithms can process large volumes of telemetry data in real time, identifying patterns, anomalies, and predictive maintenance requirements. This integration enhances operational efficiency, reduces human error, and improves mission planning and decision-making. Analytics platforms can correlate data across multiple sensors, aircraft, and missions, providing a comprehensive view of system performance and readiness. Machine learning models enable predictive analysis, allowing operators to anticipate failures and optimize flight performance before critical issues arise. AI-driven telemetry solutions also support automated reporting, anomaly detection, and adaptive system control during missions. The trend of AI integration is creating opportunities for more intelligent, autonomous, and responsive telemetry systems capable of supporting complex, multi-platform operations.

Expansion of Secure High-Speed Communication Links

Secure, high-speed communication links are becoming central to airborne telemetry, enabling real-time data transmission under demanding operational conditions. Advanced telemetry systems now utilize encrypted satellite, radio frequency, and line-of-sight links to ensure uninterrupted and secure communication between airborne platforms and ground control stations. High-speed links support large volumes of sensor data, including high-resolution video, radar outputs, and engine performance metrics, enabling immediate analysis and decision-making. Cybersecurity measures embedded within communication protocols protect sensitive defense information from interception or tampering. The trend toward high-bandwidth, low-latency links also facilitates integration with networked operations, connecting multiple manned and unmanned platforms across missions. Investment in secure communication infrastructure ensures telemetry reliability even in contested electronic environments.

Segmental Insights

Application Insights

In 2024, the defense segment dominated Europe & CIS Airborne Telemetry market, accounting for the largest share of demand. The segment’s growth is driven by extensive deployment of advanced military aircraft, unmanned aerial systems, and tactical platforms that require precise monitoring and real-time data transmission during missions and testing exercises. Telemetry systems in defense applications enable accurate tracking of flight performance, weapon systems, and avionics, providing mission-critical insights that support operational readiness and safety. The increasing focus on modernization programs, integration of networked defense platforms, and adoption of next-generation sensors has intensified reliance on robust telemetry solutions. 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.

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Country Insights

In 2024, Germany emerged as the dominant region in Europe & CIS Airborne Telemetry market, holding the largest share due to its strong defense infrastructure, advanced aerospace programs, and substantial investments in modernization initiatives. The country’s focus on upgrading military aircraft, unmanned aerial systems, and testing platforms has driven demand for high-precision telemetry solutions. Advanced flight testing, performance evaluation, and real-time monitoring of avionics and weapon systems require robust telemetry networks capable of secure, high-speed data transmission. Investments in sensor technologies, secure communication links, and integration with networked defense platforms have reinforced Germany’s leadership position. The demand for interoperability across multiple aircraft types and mission scenarios further supports the adoption of sophisticated telemetry systems, making Germany a central hub for market activity.

Russia held the position of the second-largest market in 2024, driven by its strategic emphasis on defense modernization and deployment of advanced airborne platforms. Extensive testing programs, reliance on unmanned aerial systems, and initiatives to enhance operational readiness have fueled demand for telemetry solutions capable of transmitting real-time mission-critical data. The focus on integrating telemetry with command and control networks enables comprehensive monitoring and performance assessment across diverse aircraft platforms.

Recent Developments

• ​In 2025, Russia announced the deployment of its Oreshnik hypersonic missile in Belarus, marking a significant escalation in the Ukraine conflict and a challenge to NATO. Capable of speeds up to Mach 10 with conventional or nuclear warheads, the missile will be integrated into the Zapad-2025 military exercises in September, simulating nuclear strikes and demonstrating Russia’s extended reach into Europe.
• In 2025, the HYDIS² project, led by MBDA, entered its three-year concept phase with European Commission funding to develop an endo-atmospheric interceptor against hypersonic threats. Supported by 19 partners across 14 European countries and co-financed with €80 million from the European Defence Fund, the project focuses on technology maturation and selecting optimal interceptor concepts, highlighting Europe’s commitment to countering advanced hypersonic missiles and glide vehicles.
• In June 2025, Anduril and Rheinmetall partnered to co-develop military drones for Europe, adapting Anduril’s Barracuda and Fury models for regional production and exploring joint missile and rocket motor manufacturing, aiming to enhance NATO-aligned capabilities amid rising defense investments.
• In January 2025, the EU announced funding to support research on mass-producing kamikaze drones, aiming to strengthen Europe’s defense capabilities and enhance military autonomy amid evolving security challenges.

Key Market Players

• BAE Systems PLC
• Lockheed Martin Corporation
• L3Harris Technologies Inc.
• Safran SA
• Cobham PLC
• Honeywell International Inc.
• Thales Group
• Kongsberg Gruppen AS
• Orbit Communications Systems Ltd
• AstroNova Inc.           

Report Scope:

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

•           Europe & CIS Airborne Telemetry Market, By Technology:

o    Wired

o    Wireless

•           Europe & CIS Airborne Telemetry Market, By Application:

o    Commercial

o    Defense

•           Europe & CIS Airborne Telemetry Market, By Component:

o    Receiver

o    Transmitter

o    Antenna

•           Europe & CIS Airborne Telemetry 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 Airborne Telemetry Market.

Available Customizations:

Europe & CIS Airborne Telemetry Market report with the given market data, TechSci 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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