Military Antenna Market by Type (Dipole Antennas, Monopole, Array, Loop, Aperture, Travelling Wave), Frequency Band (HF, VHF, UHF SHF, AND EHF), End Use (OEM and Aftermarket), Component, Application, Platform, and Region -Global Forecast to 2026
The Military Antenna Market size was valued at USD 3.9 billion in 2021 and is estimated to grow from USD 4.3 billion by 2023 to $5.2 billion by 2026 at a CAGR (Compound Annual Growth Rate) of 5.9%, during the forecast period. Military antenna are used on all defense platforms, such as airborne, land-based, and naval. These antenna serve different applications, such as communication, surveillance, navigation, telemetry, and electronic warfare.
The defense industry is continuously evolving, and defense forces need next-generation air defense systems. Currently, air defense systems used by the defense forces worldwide use active phased array antenna to provide a detailed image of the area under surveillance. These have led to a rise in the demand for air defense systems across the globe and are expected to drive the market. The market is expected to grow at a significant rate in the coming years, owing to the adoption of various electronic systems for communication, intelligence, surveillance & reconnaissance (ISR), and command and control in the defense industry. These military systems require antenna for transmitting and receiving data. Antenna should be rugged to withstand harsh environmental conditions. Defense modernization programs and increasing procurement of radar and air defense systems are also expected to fuel the growth of the Military Antenna Industry.
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COVID-19 Impact on the Military Antenna Industry
The COVID-19 pandemic has caused significant damage to the economic activities of countries across the world. The manufacturing of military antenna and components has also been impacted.
Covid-19 had also impacted on price of components due to sudden increase in interest rates without a subsequent increase in future revenue. Disruptions in the supply chain have led to halts in manufacturing processes. Resuming manufacturing activities depends on the level of COVID-19 exposure, the level at which manufacturing operations are running, and import-export regulations, among other factors. Many companies such as L3Harris Technologies, Airbus, General Dynamics, among others have maintained an active conversation with key suppliers and developed plans to mitigate supply chain risks. They may still be taking in orders, delivery schedules may not be fixed.
Military Antenna Market Segment Overview
Based on component, reflectors segment is estimated to witness the largest share from 2021 to 2026.
Based on component, reflectors segment of the market is estimated to held the dominant market share in 2021.
This is due to the innovation in reflector design to decrease the assemble time. Reflectors are integrated into antenna assembly to modify the radiation pattern of the antenna so that the signal gain can be improved in target direction. Various manufacturers are focusing on improving the reflector design so that the assembly time can be decreased.
For instance, in 2021, Airbus selected Ariane Group as the supplier of the satellite antenna reflectors for OneSat, its new satellite product, which is fully reconfigurable in orbit. OneSat will be fitted with the latest generation of ultra-light SPRINT antenna reflectors, which can be assembled in only 11 weeks compared with 24 weeks for ultra-light reflector technology.
Based on frequency band, super-high frequency segment is projected to witness the largest share in 2021.
Based on frequency band, super-high frequency segment is projected to lead the market during the forecast period.
The growing demand for reliable military satellite communication is primarily driving this segment. The small wavelength of this band permits transmission of narrow beams by aperture antennas such as parabolic dish antennas and horn antennas. This band is used for point-to-point satellite communication and data links. The SHF band is used in airborne radar for airborne ground mapping. This band is used for point-to-point communication and data links. This frequency range is used for most radar transmitters, wireless LANs, satellite communication, microwave radio relay links, and numerous short-range terrestrial data links.
Based on type, array antenna segment is estimated to account for the fastest growth
Based on type, array antenna segment of the market is projected to grow at the highest CAGR during the forecast period.
This growth is driven due to Phased-array antenna systems are used in naval and airborne platforms. In 2020, the Defense Innovation Unit (DIU) (US) awarded a contract to ThinKom Solutions to test and evaluate one of the company’s commercial off-the-shelf (COTS) aeronautical phased-array antenna systems as a solution for next-generation communications on the US Navy ships. Under the seven-month contract, ThinKom delivered a ThinAir Ka2517 antenna system for on-board testing to meet the requirements for multi-domain tactical communications (MDTC) by the US Navy. The Ka-band antenna, based on the company’s patented VICTS technology, will demonstrate the capability to be integrated onto a US Navy ship.
Based on platform, ground segment is estimated to account for the largest share of the military antenna market.
Based on platform, ground segment is estimated to account for the largest share of the military antenna during the forecast period.
This growth is driven due to need for on-the-walk and on-the-move SATCOM capabilities for voice and data transmission, grounds stations use SATCOM to collect and stream remote sensing satellite data to a variety of users and applications, predominantly use manpack antennas in military operations, and UGVs antennas are used to carry out ground surveillance missions. In 2021, ARLINGTON, Va. FLIR Systems won an additional USD 30.1-million contract from the US Army for sustainment efforts connected to the service’s Man Transportable Robotic System Increment II (MTRS Inc. II) and Common Robotic System-Heavy (CRS-H) unmanned ground vehicle (UGV) programs.
Based on application, electronic warfare segment is estimated to account for the fastest growth of the military antennas market
Based on application, electronic warfare segment of the market is projected to grow at the highest CAGR during the forecast period.
This growth is driven due to incorporation of effective RF technology in various electronic equipment used in military applications. In January 2021, Raytheon Intelligence & Space (Raytheon Technologies business) received a contract worth USD 12.7 million to build a phased array antenna that will reveal new capabilities in the millimeter-wave part of the radiofrequency spectrum for small, mobile platforms such as aircraft. Millimeter-wave is less overcrowded than other parts of the RF spectrum on the battleground.
Based on end use, OEM segment is estimated to account for the largest share of the military antenna market.
Based on end use, OEM segment is estimated to account for the largest share of the military antenna during the forecast period.
This growth is driven due to increasing upgradation of military antenna and procurement of military vehicles across the globe. The OEM segment is expected to lead the market during the forecast period due to the increasing inventory of newly inducted airborne platforms, including unmanned aerial vehicles, fourth-, fifth-, and sixth-generation fighter aircraft, and helicopters. The use of these airborne platforms is increasing in anti-submarine warfare, air-to-ground support, and air defense roles. The development of new missiles such as beyond-visual-range missiles and anti-radiation missiles for newly inducted platforms has further propelled the demand for military antenna.
Asia Pacific market is projected to contribute the largest share in the Military antenna market
Based on region, Asia Pacific is expected to lead the market from 2021 to 2026 in terms of market share.
An increase in the instances of terror attacks in the Asia Pacific region has led countries of the region to enhance their surveillance and anti-terrorism capabilities. In addition, the increase in defense expenditures of India and China, among others, and the expansion of military commands in emerging economies have accelerated the demand for military antenna in the Asia Pacific region. In 2019, Gilat Satellite Networks Ltd, a worldwide leader in satellite networking technology, solutions, and services, and China Satellite Communications Co., Ltd. (China Satcom) announced a strategic partnership to jointly provide advanced satellite communication services for aero, land, and maritime fixed and mobility applications.
In 2021, China launched the Tiantong 1-03 communications satellite, which operates in the S-band frequency, providing mobile communication services. Once in its orbit, the satellite will be networked with Tiantong 1-01 and 1-02 satellites to improve resource efficiency and system service capabilities.
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Top 5 Key Market Players in Military Antenna Industry
The Military Antenna Companies are dominated by a few globally established players such as
- L3Harris Technologies (US)
- Airbus (Netherlands)
- General Dynamics (US)
- Maxar Technologies (US) and
- Honeywell International Inc. (US), among others,
Major focus was given to the contracts and new product development due to increase in the demand for advanced military antenna products and the growth of emerging markets have encouraged companies to adopt this strategy to enter new markets.
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Military Antenna Market Scope
Report Metric |
Details |
Estimated Value
|
USD 3.9 Billion in 2021 |
Projected Value | USD 5.2 Billion by 2026 |
Growth Rate | CAGR of 5.9% |
Market size available for years |
2019–2026 |
Base year considered |
2020 |
Forecast period |
2021-2026 |
Forecast units |
Value (USD Million) |
Segments covered |
By component, by end use, by application, by platform, by type, by frequency band and by region |
Geographies covered |
North America, Europe, Asia Pacific, Middle East and Rest of the World |
Companies covered |
L3Harris Technologies (US), Airbus (Netherlands), General Dynamics (US), Maxar Technologies (US), and Honeywell International Inc. (US) are some of the major players of Military antenna market. (17 Companies) |
Military Antenna Market Dynamics
Driver: Increasing use of electronically steered phased array antennas
Increased demand for communication on-the-move (COTM) solutions for platforms such as commercial vehicles, military vehicles, trains, and boats has led to the greater use of electronically steered phased antennas (ESPA).
These antennas can track and maintain satellite links even when military vehicles are in motion. An antenna terminal steering plays a major role in acquiring a satellite link, and an ESPA eliminates mechanical motion.
In 2019, the US Air Force Space and Missile Systems Center (SMC), in partnership with the Pentagon’s Defense Innovation Unit, awarded a contract to Atlas Space Operations (US) to prototype an electronically steered antenna array to support the Air Force’s multi-band, multi-mission requirements.
In 2021, L3Harris Technologies (US) completed the development of an electronic phased array ground antenna for the US Space Force. Lockheed Martin (US) and Atlas Space Operations developed ESPA prototypes. The antenna developed by L3Harris Technologies, like those from Lockheed Martin and Atlas Space Operations, was integrated with the Space Force’s Satellite Control Network to demonstrate multiple simultaneous satellite contacts. The satellite control network (SCN) is an aging network of parabolic dish antennas to fly military satellites.
Restraints: High costs associated with development and maintenance of infrastructure to support military antenna
The high cost incurred in the development and maintenance of earth station infrastructure is one of the major factors hindering market growth. Most of the required components are typically custom-fabricated or purchased from commercial off-the-shelf (COTS) vendors, which is expensive.
Besides, the design, development, and construction of antennas and their components require several hours of work by trained personnel. The level of skill required itself poses a significant barrier to entry. Significant investments are required in the R&D, manufacturing, system integration, and assembly stages of the value chains of these systems.
Satellite communication services are used for highly sophisticated defense systems, due to which any incident of system failure is unfavorable. These services should be accurate, reliable, durable, energy-efficient, and have a wide detection range. Companies in this market should develop highly functional and efficient ground facilities to maintain market leadership and stay competitive.
Opportunities: Development of ultra-compact communication terminals for advanced ground combat vehicles
Ultra-compact communication terminals are specifically designed and developed to operate with the new generation of Ka-band high-throughput satellites, supporting data speeds of up to 2 Mbps for any IP-based voice, video, or data Beyond-Line-of-Sight (BLoS) applications.
New generation of Ka-band high-throughput satellites are increasingly being adopted for the advanced ground combat vehicles. Thus, ultra-compact communication terminals provide an opportunity to integrate full-duplex satellite communication, linking advanced ground combat vehicles to ground control stations. The forward link provides command and control capabilities, while the return link transfers sensor data. These integrated terminals comprise very small aperture terminal technologies. In 2019, GETSAT Terminal, a leading developer of micronized and integrated satellite communication solutions, partnered with Unmanned Systems Technology to demonstrate its expertise in developing ultra-compact communication terminals for advanced ground terminals.
Challenges: Electromagnetic compatibility-related challenges of satellite antennas
Electromagnetic Compatibility (EMC) design is integral to electrical components and systems, specifically modern communication spacecraft. Military antenna are faced with significant EMC-related challenges due to the common use of high-power communication and external sources ranging within the UHF to Ka frequency bands.
Some of the challenges related to EMC for satellites are antenna systems compatibility, electrostatic discharge, plasma charging, conducted & radiated emission, and electromagnetic interferences between electronic units. Compatibility in a specific environment is subject to electromagnetic interference caused by radiofrequency or electrical noise from many sources.
Increasing demand for military antenna for maritime applications
Maritime VSAT involves the use of satellite communication through a very small-aperture terminal (VSAT) on a moving ship at sea. Since a ship at sea moves with the water, the antenna needs to be stabilized with reference to the horizon and True north so that the antenna is constantly pointing at the satellite it uses to transmit and receive signals.
The shipborne antenna is usually considered the most critical component in a shipborne terminal for maritime satellite communications (MARSAT). A high gain autotrack antenna has been developed to be used in such a system. The antenna utilizes a combined electronical and mechanical beam steering realized with two planar phased arrays mounted on a mechanical axis.
The antenna system is designed for unmanned operation, utilizing an automatic search-and-track mode. After the acquisition of a beacon signal from the satellite, a monopulse track mode keeps the antenna pointing position locked, to the direction of the incident beacon signal, irrespective of the motions of the ship. Attention has been paid to multipath effects that may occur, in particular reflections from the surface of the sea.
In 2020, Orbit Communication Systems was awarded a contract worth USD 2.7 million for the delivery of maritime satellite communications (SATCOM) antennas. The contract was awarded by an undisclosed Asian navy. Orbit will also provide OceanTRx 4 and OceanTRx 7 maritime communication antennas, as well as related spare parts.
Military Antenna Industry Categorization
The study categorizes the Military antenna market based on frequency band, component, end use, type, platform, application, and region.
By Component
- Reflectors
- Feed Horn
- Feed Networks
- Low Noise Block Converter (LNB)
- Others
By Frequency Band
- High Frequency (HF)
- Very High Frequency (VHF)
- Ultra-High Frequency (UHF)
- Super High Frequency (SHF)
- Extremely High Frequency (EHF)
By Type
- Dipole antennas
- Monopole antennas
- Array antennas
- Loop antennas
- Aperture antennas
- Traveling wave antennas
By Platform
-
Ground
- vehicle antennas
- Base station antennas
- Manpack antennas
- Handheld antennas
- Body worn antennas
- Unmanned ground vehicle (UGV) antennas
-
Airborne
- Aircraft Antennas
- Unmanned Aerial Vehicle (UAV) Antennas
- Missiles Antennas
-
Marine
- Shipboard Antennas
- Submarine Antennas
- Unmanned Marine Vehicle (UMV) Antennas
By Application
- Surveillance
- Electronic Warfare
- Navigation
- Communication
- SATCOM
- Telemetry
By End Use
- OEM
- Aftermarket
By Region
- North America
- Europe
- Asia Pacific
- Middle East
- Rest of the World
Recent Developments in Military Antenna Industry
- In November 2021, L3Harris Technologies received a multi-year contract worth USD 125 million to produce space electronic warfare systems, including antennas that safeguard the US military operations and warfighters.
- In October 2021, NASA selected L3Harris Technologies to conduct a second, advanced study to significantly improve the accuracy and timeliness of the US weather. This includes antenna and other avionics parts production.
- In October 2021, L3Harris Technologies was awarded a contract worth USD 5.7 million by the US Air Force Research Laboratory to integrate a low-Earth orbit terminal (antenna) into rotary-wing aircraft to further advance aerial communications capability.
- In March 2021, Airbus was awarded a contract by Eutelsat to build EUTELSAT 36D equipped with 70 Ku-band transponders, over five downlink beams, and a steerable antenna. EUTELSAT 36D provides flexibility and performance optimization to deliver service in Africa, Russia, and Europe.
- In December 2020, Airbus was selected by Thales Alenia Space to build the advanced radar instrument for the ‘Radar Observatory System for Europe in L-band’ (ROSE-L) mission. ROSE-L will be equipped with the largest planar space radar antenna.
- In August 2020, Airbus was selected by Al Yah Satellite Communications Company (Yahsat), the UAE’s leading global satellite operator, to build Thuraya 4-NGS. Thuraya 4-NGS will incorporate a large 12-meter L-band antenna built by Airbus.
- In June 2020, Airbus was awarded a contract for the development, supply, and integration of 115 Eurofighter ESCAN Radars for the German and Spanish Eurofighter fleet. Eurofighter Captor-E is the world’s most advanced electronically scanned array radar for fighter aircraft.
- In May 2020, Airbus won the new satellite communications framework contract for military and civil missions of the European Union and its member states. Under this contract, the company would develop advanced satellite communication solutions. The ‘EU SatCom Market’ contract covers the provision of satellite communications (in C, Ku, Ka, and L frequency bands) as well as the sale and rental of terminals (Antenna).
- In April 2020, Cobham Aerospace Connectivity was awarded a contract to research advanced anti-jam methods for the safety of navigation signals received from the Global Navigation Satellite Systems (GNSS) by the UK MOD’s Defence Equipment and Support (DE&S). The system will combine advanced Controlled Radiation Pattern Array (CRPA) antenna technology with digital signal processing techniques to guarantee consistent and secure navigation information.
Frequently Asked Questions (FAQ):
Which are the companies that holds major market share in the military antenna market? What are their major strategies to strengthen their market presence?
The Military antenna market is dominated by a few globally established players such as L3Harris Technologies (US), Airbus (Netherlands), General Dynamics (US), Maxar Technologies (US), and Honeywell International Inc. (US), among others, are the key manufacturers that secured Military antenna contracts in the last few years. Contracts was the key strategies adopted by these companies to strengthen their military antenna market presence.
What are the drivers and opportunities for the military antenna market?
The market for military antenna has grown substantially across the globe, and especially in Asia Pacific, where increase in developing new technologies in such as China, India, and South Korea, will offer several opportunities for military antenna industry companies. The rising R&D activities to develop military antenna are also expected to boost the growth of the market around the world.
North America and Europe are key developer of military antenna as most key manufacturers and leading players in this market are based in these regions. Some of these manufacturers are L3Harris Technologies (US), General Dynamics (US), Maxar Technologies (US), and Honeywell International Inc. (US).
Which region is expected to grow at the highest rate in the next five years? What are the major factors for their growth rate?
The market in Asia Pacific is projected to grow at the highest CAGR of from 2021 to 2026, showcasing strong demand from military antenna in the region. An increase in the instances of terror attacks in the Asia Pacific region has led countries of the region to enhance their surveillance and anti-terrorism capabilities. In addition, the increase in defense expenditures of India and China, among others, and the expansion of military commands in emerging economies have accelerated the demand for military antenna in the Asia Pacific region.
Which are the key technology trends prevailing in the military antenna market?
3D printing of RF equipment, miniaturization of military antenna, development of metamaterial antennas, development of plasma antennas, and development of active electronically scanned array (AESA). .
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This research study conducted on the military antenna market involved extensive use of secondary sources, directories, and databases such as Hoovers, FlightGlobal, SIPRI, and Factiva to identify and collect information relevant to the military antenna market. Primary sources considered are
- Industry experts from the concerned market
- Preferred suppliers
- Manufacturers
- Solution provider
- Technology developers
- Alliances
- Organizations related to all segments of the value chain of this industry.
Secondary Research
The market share of companies in the military antenna market was determined using secondary data made available through paid and unpaid sources and by analyzing product portfolios of major companies operating in the market. These companies were rated based on the performance and quality of their products. These data points were further validated by primary sources.
Secondary sources that were referred for this research study on the military antenna market included government sources such as the US Department of Defense (DoD); defense budgets; military modernization program documents; corporate filings such as annual reports, investor presentations, and financial statements; and trade, business, and professional associations. The secondary data was collected and analyzed to arrive at the overall size of the military antenna market, which was further validated by primary respondents.
Primary Research
Extensive primary research was conducted after obtaining information about the current scenario of the military antenna market through secondary research. Several primary interviews were conducted with market experts from both demand and supply sides across major countries of North America, Europe, Asia Pacific, the Middle East, and the Rest of the World (RoW). This primary data was collected through questionnaires, emails, and telephonic interviews.
To know about the assumptions considered for the study, download the pdf brochure
Market Size Estimation
Both top-down and bottom-up approaches were used to estimate and validate the size of the military antenna market. The research methodology used to estimate the market size included the following details:
Key players in the military antenna market were identified through secondary research, and their market share was determined through primary and secondary research. This included a study of annual and financial reports of top market players and extensive interviews of leaders such as Chief Executive Officers (CEOs), directors, and marketing executives of leading companies operating in the military antenna market.
All percentage shares, splits, and breakdowns were determined using secondary sources and verified through primary sources.
All possible parameters that affect the market covered in this research study were accounted for, viewed in extensive detail, verified through primary research, and analyzed to obtain the final quantitative and qualitative data on the military antenna market.
Military antenna Market Size: Top-Down Approach
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Data Triangulation
After arriving at the overall size of the military antennas market from the market size estimation process explained above, the total market was split into several segments and subsegments. Data triangulation and market breakdown procedures explained below were implemented, wherever applicable, to complete the overall market engineering process and arrive at the exact statistics for various market segments and subsegments. The data was triangulated by studying various factors and trends from both the demand and supply sides. Along with this, the market size was validated using both top-down and bottom-up approaches.
Report Objectives
- To define, describe, segment, and forecast the size of the military antennas market based on type, platform, component, frequency, application, end-use, and region from 2021 to 2026
- To forecast the size of various segments of the military antennas market with respect to five regions, such as North America, Europe, Asia Pacific, the Middle East, and the Rest of the World (RoW), along with the major countries in each of these regions
- To identify and analyze the key drivers, restraints, opportunities, and challenges influencing the growth of the market
- To identify opportunities for stakeholders in the market by studying key market and technology trends
- To analyze competitive developments such as contracts, agreements, acquisitions & partnerships, new product launches & developments, and R&D activities in the market
- To estimate the procurement of military antennas by different countries to track technological advancements in military antennas
- To provide a comprehensive competitive landscape of the market along with an overview of the different strategies adopted by key players to strengthen their position in the market
Available Customizations
MarketsandMarkets offers the following customizations for this market report:
Additional country-level analysis of the military antennas market
Profiling of additional market players (up to 5)
Product Analysis
- Product matrix, which provides a detailed comparison of the product portfolio of each company in the military antennas market
Growth opportunities and latent adjacency in Military Antenna Market
ACD is an antenna manufacturing company currently engaged in the delivery of Military antennas to the Government of India through Public sector companies. We are looking to export as well as collaborate with a good/reputed antenna company for JV.