Aircraft Sensors Market Size, Share, Trends, Dynamics, Forecast, & Growth Analysis: 2025-2034

The global aircraft sensors market size was US$ 1.5 billion in 2024 and is likely to grow at a decent CAGR of 4.1% in the long run to reach US$ 2.3 billion in 2034.

The global market for aircraft sensors is experiencing steady growth, driven by the increasing production rates of aircraft, the growing popularity of next-generation models, and the enhanced integration of advanced avionics and automation systems. Fleet modernization initiatives and the rise of unmanned aerial vehicles (UAVs) are also boosting the demand for compact, high-performance sensors. Moreover, regulatory requirements for improved safety, operational efficiency, and environmental compliance are pushing manufacturers to create sensors that offer greater precision, quicker response times, and enhanced reliability. With innovations like IoT-enabled smart sensors and predictive maintenance capabilities becoming more common, the aircraft sensors market is set for significant changes in the years ahead.

Segments' Analysis

By Platform Type

Commercial aircraft is likely to continue leading the market, while also maintaining the fastest growth during 2025-2034.

The market is segmented into commercial aircraft, regional aircraft, general aviation, helicopter, military aircraft, spacecraft, and UAV. Commercial aircraft account for the largest share of demand in the aircraft sensors market due to sustained growth in global passenger traffic, large-scale production of fuel-efficient narrowbody and widebody models, and stringent safety and performance regulations that require extensive sensor integration. Modern commercial jets such as the Airbus A350, Boeing 787, and A320neo family incorporate hundreds of sensors covering functions from engine health monitoring and fuel management to cabin pressure control and structural health assessment. The move toward more-electric aircraft has further increased the reliance on sensors for replacing mechanical systems with electronically controlled alternatives.

Commercial aircraft are also the fastest-growing category, driven by record order backlogs of over 14,941 units combined for Airbus and Boeing as of 2025 and rising adoption of smart, IoT-enabled sensors for predictive maintenance. These advanced sensors allow real-time health monitoring of critical systems, reducing unscheduled downtime and lowering lifecycle costs. Furthermore, the ongoing replacement of aging fleets in North America and Europe, coupled with rapid fleet expansion in the Asia-Pacific region, is accelerating demand for sensor-rich aircraft platforms. This dual push from new deliveries and aftermarket retrofits solidifies commercial aviation as both the largest and fastest-expanding category of the aircraft sensors market. Highlighting this shift, modern aircraft programs are becoming increasingly sensor-dense. For instance, new Airbus airliners will have up to 10,000 sensors along their wings alone, plus an undetermined quantity in other flight systems.

By Sensor Type

Pressure sensors are set to dominate the market landscape, with temperature sensors achieving the fastest growth trajectory in the coming years.

Based on sensor type, the market is segmented into pressure sensors, temperature sensors, position sensors, inertial sensors, force/torque sensors, and other sensors. Pressure sensors hold the dominant share in the aircraft sensors market due to their critical role in multiple aircraft systems, including pitot-static systems for airspeed and altitude measurement, engine oil and hydraulic pressure monitoring, cabin pressurization control, and fuel system management. In both commercial and military aircraft, these sensors are indispensable for ensuring flight safety and operational efficiency, with built-in redundancy to guarantee fail-safe performance. The rise of digital pressure transducers, known for their higher accuracy and self-diagnostic features, has solidified their status as a fundamental sensor type. For instance, next-gen air data systems in aircraft like the Boeing 787 utilize multiple redundant pressure sensing units to boost safety and performance in different atmospheric conditions.

On the other hand, temperature sensors are set to experience the fastest growth, driven by the increasing need for real-time thermal monitoring in engines, environmental control systems, avionics cooling, and battery management for electric and hybrid aircraft. Modern turbofan engines operate at turbine inlet temperatures that exceed 1,600°C, which means we need advanced thermocouples and resistance temperature detectors (RTDs) that can handle extreme conditions while still being precise. The push for predictive maintenance programs is also driving this trend, as temperature sensors are essential for spotting early signs of component wear or overheating. Additionally, the rise of electric aircraft and UAV platforms, both of which rely heavily on accurate temperature monitoring for their energy systems, is speeding up the adoption of compact, high-response thermal sensors.

By Application Type

Engines will likely continue to be the primary driver of demand, while flight control systems are projected to witness the fastest growth during the forecast period.

Based on the application type, the market is segmented into engine, surface, landing gear, brakes & wheels, flight control systems, cabin, cargo & environmental control systems, and other applications. Engines remain the primary driver of demand for aircraft sensors due to their dependence on a variety of sensing technologies that ensure safe, efficient, and compliant operations. Modern turbofan engines like the CFM LEAP and Pratt & Whitney GTF integrate hundreds of sensors to monitor parameters such as oil and fuel pressure, turbine inlet temperature, exhaust gas temperature, vibration, and airflow. These sensors continuously send real-time data to the engine control units (ECUs), helping to optimize performance, cut down on fuel consumption, and avoid component failures. As the industry pushes for higher bypass ratios and hotter operating cycles in next-gen engines, the need for sensors that can reliably operate under extreme pressures and temperatures has only grown. Plus, with the rise of full-authority digital engine control (FADEC) systems, the number and sophistication of sensors have skyrocketed, making the engine segment the biggest user of advanced sensing technologies.

On the other hand, flight control systems are expected to expand rapidly, driven by the global shift towards fly-by-wire systems and increasing automation in both commercial and military aircraft. Sensors like position, force, and pressure transducers play a vital role in monitoring pilot inputs, actuator movements, and aerodynamic loads in real time. The increasing complexity of control surfaces, especially in more-electric aircraft, requires highly responsive and redundant sensor networks to guarantee safety and precision. Moreover, emerging aircraft concepts such as eVTOLs and advanced UAVs heavily depend on sensor-driven control systems for stability and maneuverability, which is ramping up the demand for innovative, lightweight, and low-power sensors in this segment.

By End-User Type

OE is projected to sustain its dominance while also registering the fastest growth throughout the forecast period.

The OE is still the leading end-user of the aircraft sensors market. Every new aircraft that rolls off the production line comes packed with a vast array of sensors integrated into everything from engines and avionics to flight controls, landing gear, fuel systems, and environmental control systems. With modern commercial jets often featuring hundreds of sensors, OE installations are a key factor driving market value. The increasing production rates of popular models like the Airbus A320neo family, Boeing 737 MAX, and COMAC C919, along with significant military procurement programs such as the KC-46A tanker, are helping to maintain this stronghold.

OE is also the fastest-growing category, fueled by the record aircraft order backlogs and the rapid adoption of cutting-edge sensing technologies. We're seeing advancements like MEMS-based miniaturized sensors, fiber-optic systems, and IoT-enabled smart sensors. These innovations are boosting the number of sensors on each aircraft and increasing their individual value, which in turn is driving revenue growth in the OE market. Plus, the emergence of next-generation aircraft platforms, including electric and hybrid-electric models, is creating a need for tailored sensor solutions, further fueling demand in the OE category for the foreseeable future.

Regional Analysis

North America will continue to be the largest regional market, while Asia-Pacific is projected to witness the highest growth rate over the forecast period.

North America is expected to remain the largest market for aircraft sensors during the forecast period, underpinned by its position as the world’s leading aerospace manufacturing hub. The region is home to major OEMs like Boeing, Lockheed Martin, Raytheon Technologies, and GE Aerospace, along with a robust network of NADCAP-approved sensor facilities. The high production rates of commercial aircraft, cutting-edge military programs like the F-35, B-21 Raider, and KC-46, along with a strong demand for Brakes & Wheels services, keep the sensors industry highly active. The region also leads in technological innovation, including the integration of automation, Industry 4.0 monitoring, and environmentally friendly processing techniques.

Whereas, the Asia-Pacific region is expected to be the fastest-growing area, fueled by a rapid increase in aircraft manufacturing capacity, rising defense budgets, and the localization of supply chains. Countries such as China, India, and Japan are making significant investments in both original equipment (OE) and Brakes & Wheels capabilities, backed by homegrown aircraft programs like the COMAC C919, HAL Tejas, and Mitsubishi SpaceJet, as well as major fleet expansions. Moreover, international processors are establishing NADCAP-approved facilities in this region to cater to the surging demand, similar to the investments made by Bodycote and PCC in China and Singapore.

Key Players

The market is moderately fragmented, with the top five players securing about half of the market share. Most of the major players compete in some of the governing factors, including sensor accuracy and reliability, miniaturization and weight reduction, integration with advanced avionics and data systems, compliance with stringent aerospace safety standards, and the ability to deliver cost-effective solutions with rapid production turnaround etc. The following are the key players in the aircraft sensors market.

• AMETEK Inc.
• Amphenol Corporation
• Crane Holding Co.
• Collins Aerospace
• Curtiss-Wright Corporation
• Honeywell International, Inc.
• Meggitt PLC
• Safran SA
• Sensata Technologies, Inc.
• TE Connectivity Ltd.
• Thales Group
• TransDigm Group, Inc.

Report Features

This report provides market intelligence most comprehensively. The report structure has been kept so that it offers maximum business value. It provides critical insights into market dynamics and will enable strategic decision-making for existing market players as well as those willing to enter the market. The following are the key features of the report:

• Market structure: Overview, industry life cycle analysis, supply chain analysis.
• Market environment analysis: Growth drivers and constraints, Porter’s five forces analysis, SWOT analysis.
• Market trend and forecast analysis.
• Market segment trend and forecast.
• Competitive landscape and dynamics: Market share, Service portfolio, New Product Launches, etc.
• COVID-19 impact and its recovery curve.
• Attractive market segments and associated growth opportunities.
• Emerging trends.
• Strategic growth opportunities for the existing and new players.
• Key success factors.

Market Segmentation

The global aircraft sensors market is segmented into the following categories:

By Aircraft Type

• Commercial Aircraft
• General Aviation
• Regional Aircraft
• Military Aircraft
• Helicopter
• Unmanned Aerial Vehicle

By Sensor Type

• Pressure Sensor
• Temperature Sensor
• Position Sensor
• Force/Torque Sensor
• Inertial Sensor
• Other Sensors

By Application Type

• Engine
• Landing Gear, Wheels & Brakes
• Flight Control Systems
• Cabin, Cargo & ECS
• Other Applications

By End-User Type

• OE
• Aftermarket

By Region

• North America (Country Analysis: The USA, Canada, and Mexico)
• Europe (Country Analysis: Germany, France, The UK, Russia, and the Rest of Europe)
• Asia-Pacific (Country Analysis: Japan, China, India, and Rest of Asia-Pacific)
• Rest of the World (Country Analysis: Saudi Arabia, Brazil, and Others)

Research Methodology

This strategic assessment report provides a comprehensive analysis that reflects today’s aircraft sensors market realities and future market possibilities for the forecast period. The report segments and analyzes the market in the most detailed manner in order to provide a panoramic view of the market. The vital data/information provided in the report can play a crucial role for the market participants as well as investors in the identification of the low-hanging fruits available in the market as well as to formulate the growth strategies to expedite their growth process.

This report offers high-quality insights and is the outcome of a detailed research methodology comprising extensive secondary research, rigorous primary interviews with industry stakeholders, and validation and triangulation with a proprietary database and statistical tools. More than 1,000 authenticated secondary sources, such as company annual reports, fact books, press releases, journals, investor presentations, white papers, patents, and articles, have been leveraged to gather the data. We conducted more than 15 detailed primary interviews with the market players across the value chain in all four regions and industry experts to obtain both qualitative and quantitative insights.

Report Customization Options

Company Profiling

• Detailed profiling of additional market players (up to three players)
• SWOT analysis of key players (up to three players)

Competitive Benchmarking

• Benchmarking of key players on the following parameters: Product portfolio, geographical reach, regional presence, and strategic alliances

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