Global Dismounted Soldier System Market Research Report by Type [Thermal Weapon Sight, Monocular and Binocular Night Vision Devices, Fusion Devices (Night+ Fusion), Electro-Optical (EO) Sensors Systems (Rangefinders, Handheld Binocular), Thermal Devices (GPS, Others), Others], by End User (Homeland Security/Law Enforcement Agencies, Military), and by Region (North America, Europe, Asia Pacific, Middle East & Africa, South America) Forecast 2035
Industry Overview
The Global Dismounted Soldier System Market is expected to attain a value of USD 9,883.62 million, growing steadily at a 6.8% CAGR during the forecast period (2025-2035). A dismounted soldier is a ground-based combatant who performs operations on foot instead of from an armored or mechanized vehicle. Their roles often include tactical movement, area surveillance, and direct engagement in complex terrains.
The global market for Dismounted Soldiers is significantly influenced by the adoption of next-generation electro-optical (EO) technologies that considerably enhance the safety, detection, and decision-making process in the combat environment. Improvement in these aspects is achieved by the use of such devices as thermal imagers, BNVDs, and laser range finders. Enhanced systems like thermal imagers, BNVDs, and laser range finders empower soldiers to operate efficiently under challenging visibility and weather conditions. As conflicts evolve toward asymmetric warfare, the adoption of compact, AI-powered EO solutions is accelerating to ensure tactical superiority and mission success.
Major Company Development
In February 2025, L3Harris Technologies and KSSL have decided to work together to develop India's defense infrastructure through the implementation of CAISR technology and tactical communication systems. The duration of the agreement is two years and is aimed at supporting the development of secure supply chains. The collaboration will also focus on electro-optic innovations and futuristic telecommunications infrastructure for the Indian Armed Forces and airports.
Key Players
Major players in the global dismounted soldier system market are Teledyne FLIR LLC, L3Harris Technologies, Inc., BAE Systems, Elbit Systems, Leonardo S.p.A., Thales Group, Safran S.A., Aselsan A.S., Excelitas Technologies Corp, Rheinmetall AG, Exosens SAS, Harder Digital Engineering and Industrial Company Ltd., Theon International PLC, and Katod LLC.
Report Attribute Details
-  Market Size 2024: USD 4,929.48 Million
-  Market Size 2035: USD 9,883.62 Million
-  CAGR (2025-2035): 6.8%
-  Base Year: 2024
-  Market Forecast Period: 2025-2035
Industry Segmentations
-  By Type: Thermal Weapon Sight - 6.8%, Monocular and Binocular Night Vision Devices - 7.0%.
-  By End User: Homeland Security/Law Enforcement Agencies - 7.3%, Military - 6.6%.
Regional Analysis
Through massive U.S. defense investments and innovation in technology, North America remains the main driver of the global dismounted soldier system market. The U.S. Army's programs aimed at modernization are mainly focused on increasing lethality and battlefield awareness with the use of advanced optics, sensors, communication tools integrated with AI, etc. Valued at USD 1,825.9 million in 2024, North America dominated the market, with the U.S. alone contributing over 89% of the regional share.
A number of European countries have increased their demand for soldier dismounted systems and this has been the main factor for them to reinforce their military capabilities amidst the regional tensions that have lasted over a quite long period of time. The nations are investing in upgraded optics, communication networks, augmented-reality-based systems to secure the tactical advantage as well as the safety of the soldier. Europe recorded USD 501.6 million in 2024, where Germany held the largest share at USD 194.6 million, followed by France (USD 169.7 million) and the UK (USD 137.3 million).
Moreover, the Asia-Pacific military modernization at an exceptionally fast pace and along with it the growing border and maritime tensions have led to the rise of the regional market. Besides that, the defense forces from China, India, Japan, and South Korea are putting large amounts of money into night-vision, thermal imaging, and communication devices that are compatible with data-linking. With a combined value of USD 896.7 million in 2024, Asia-Pacific's growth was led by China (USD 752.1 million, nearly 84% of the region) and Japan (USD 144.6 million).
The Latin American market is witnessing steady progress, driven by national efforts to enhance security and counter transnational threats. Brazil, Colombia, and Argentina are leading defense modernization through the adoption of compact, durable, and affordable soldier technologies. Investments in communication and surveillance tools are improving response capability across diverse terrains.
Rising defense spending and continuous counter-insurgency operations have positioned the Middle East & Africa as a growing market for dismounted soldier systems. Gulf nations are actively upgrading their armed forces with next-generation electro-optical and communication devices. Partnerships with global defense firms help in technology transfer and localized production. In Africa, modernization of special forces and peacekeeping missions continues despite limited resources.
TABLE OF CONTENTS
1 EXECUTIVE SUMMARY 
- 1.1 GLOBAL DISMOUNTED SOLDIER SYSTEM MARKET OVERVIEW 
- 1.2 GLOBAL DISMOUNTED SOLDIER SYSTEM MARKET, BY TYPE 
- 1.3 GLOBAL DISMOUNTED SOLDIER SYSTEM MARKET, BY END USER 
2 MARKET INTRODUCTION 
- 2.1 DEFINITION 
- 2.2 SCOPE OF THE STUDY 
- 2.3 RESEARCH OBJECTIVE 
- 2.4 MARKET STRUCTURE 
3 RESEARCH METHODOLOGY 
- 3.1 OVERVIEW 
- 3.2 DATA FLOW 
- 3.2.1 DATA MINING PROCESS 
 
- 3.3 PURCHASED DATABASE: 
- 3.4 SECONDARY SOURCES: 
- 3.4.1 SECONDARY RESEARCH DATA FLOW: 
 
- 3.5 PRIMARY RESEARCH: 
- 3.5.1 PRIMARY RESEARCH DATA FLOW: 
- 3.5.2 PRIMARY RESEARCH: NUMBER OF INTERVIEWS CONDUCTED 
- 3.5.3 PRIMARY RESEARCH: REGIONAL COVERAGE 
 
- 3.6 APPROACHES FOR MARKET SIZE ESTIMATION: 
- 3.6.1 REVENUE ANALYSIS APPROACH 
 
- 3.7 DATA FORECASTING
- 3.7.1 DATA FORECASTING TYPE 
 
- 3.8 DATA MODELING 
- 3.8.1 MICROECONOMIC FACTOR ANALYSIS: 
- 3.8.2 DATA MODELING: 
 
- 3.9 TEAMS AND ANALYST CONTRIBUTION 
4 MARKET DYNAMICS 
- 4.1 INTRODUCTION 
- 4.2 DRIVERS 
- 4.2.1 ENHANCED SAFETY AND SURVEILLANCE CAPABILITIES FOR DISMOUNTED SOLDIERS 
- 4.2.2 RISING DEFENSE BUDGETS & INCREASED EO PROCUREMENT IN NATO & ALLIED NATIONS 
- 4.2.3 GROWING MILITARY MODERNIZATION PROGRAMS IN TURKEY, MIDDLE EAST & EASTERN EUROPE 
- 4.2.4 INCREASING DEMAND FOR LOW-LIGHT AND ALL-WEATHER TARGETING CAPABILITIES 
- 4.2.5 ADVANCEMENTS IN THERMAL IMAGING FOR NIGHT & LOW-VISIBILITY WARFARE 
- 4.2.6 DEMAND FOR MULTI-FUNCTIONAL FUSION DEVICES COMBINING THERMAL & NIGHT VISION 
- 4.2.7 INTEGRATION OF AI IN ELECTRO-OPTICAL WARFARE SYSTEMS FOR FASTER DECISION-MAKING 
- 4.2.8 EXPANSION OF ANTI-DRONE WARFARE DRIVING DEMAND FOR EO TRACKING SYSTEMS 
- 4.2.9 GROWING NEED FOR SECURE AND ENCRYPTED EO-BASED BATTLEFIELD COMMUNICATIONS 
- 4.2.10 RISING IMPORTANCE OF EO SENSORS IN UNMANNED GROUND AND AERIAL VEHICLES (UGVS/UAVS) 
- 4.2.11 ADOPTION OF SMART HELMETS AND AR-ENABLED EO SYSTEMS IN SPECIAL FORCES
- 4.2.12 DRIVER IMPACT ANALYSIS (2022-2035) 
 
- 4.3 PORTABLE ELECTRO-OPTICAL SYSTEMS 
- 4.3.1 ADVANCEMENTS IN SENSOR TECHNOLOGY 
- 4.3.2 ENHANCED SITUATIONAL AWARENESS 
- 4.3.3 IMPROVED TARGET ACQUISITION AND ENGAGEMENT 
- 4.3.4 INTEGRATION WITH NIGHT VISION AND THERMAL IMAGING 
- 4.3.5 ROBUSTNESS AND RELIABILITY 
- 4.3.6 ENHANCED COMMUNICATION AND COORDINATION 
- 4.3.7 IMPROVED DATA SHARING AND ANALYSIS WITH THE HELP OF INTEGRATION OF RADIO SYSTEMS WITH ELECTRO OPTICAL DEVICES 
 
- 4.4 SPECIFIC DEVICE FOCUS: PORTABLE COOLED WEAPON SIGHT 
- 4.4.1 IMPORTANCE OF PORTABLE COOLED WEAPON SIGHT 
- 4.4.2 ENHANCED TARGET ACQUISITION AND ENGAGEMENT 
- 4.4.3 OPERATIONAL VERSATILITY 
- 4.4.4 CHALLENGES AND TRENDS 
 
- 4.5 ADVANCEMENTS IN SENSOR TECHNOLOGY 
- 4.5.1 SMALLER PIXEL PITCH 
- 4.5.2 IMPROVEMENTS IN SENSOR SENSITIVITY AND NOISE REDUCTION 
- 4.5.3 PROGRESS IN MWIR, SWIR, AND OTHER OPTICAL TECHNOLOGIES 
 
- 4.6 REGIONAL FOCUS ON PORTABLE ELECTRO OPTICAL DEVICES 
- 4.6.1 NORTH AMERICA 
- 4.6.2 EUROPE 
- 4.6.3 ASIA-PACIFIC 
- 4.6.4 MIDDLE EAST AND AFRICA 
- 4.6.5 SOUTH AMERICA 
 
- 4.7 POWER SOLUTIONS 
- 4.7.1 POWER AND BATTERY SOLUTIONS FOR PORTABLE ELECTRO-OPTICAL DEVICES IN DISMOUNTED SOLDIER SYSTEMS 
- 4.7.1.1 CURRENT BATTERY TECHNOLOGIES 
- 4.7.1.2 ADVANCEMENTS IN BATTERY PACK SOLUTIONS 
- 4.7.1.3 CHARGING SOLUTIONS 
- 4.7.1.4 FUTURE FORECAST 
 
 
- 4.8 RESTRAINTS 
- 4.8.1 OPERATIONAL LIMITATIONS IN ADVERSE ENVIRONMENTS 
- 4.8.2 LIMITED INTEROPERABILITY WITH LEGACY PLATFORMS 
- 4.8.3 BUDGET CONSTRAINTS IN DEFENSE SPENDING 
- 4.8.4 REGULATORY AND COMPLIANCE CHALLENGES
- 4.8.5 TECHNOLOGICAL INTEGRATION ISSUES 
- 4.8.6 SUPPLY CHAIN DISRUPTIONS 
- 4.8.7 CONCERNS OVER DATA PRIVACY AND SECURITY 
 
- 4.9 OPPORTUNITY 
- 4.9.1 AI-ENHANCED TARGET RECOGNITION AND DATA FUSION 
- 4.9.2 GROWTH OF ELECTRO-OPTICAL (EO) SENSOR SYSTEM IN COUNTER-DRONE AND ANTI-SWARM APPLICATIONS 64
- 4.9.3 EO INTEGRATION IN NEXT-GEN FIGHTER JETS & ARMORED VEHICLES FOR PRECISION TARGETING 
- 4.9.4 RISE OF AI-DRIVEN PREDICTIVE EO SURVEILLANCE FOR PROACTIVE THREAT DETECTION 
- 4.9.5 EXPANSION OF EO SYSTEM EXPORTS TO ASIA-PACIFIC & LATIN AMERICA MARKETS 
- 4.9.6 GROWING NEED FOR COMPACT EO MODULES FOR SMALL ARMS & DISMOUNTED SOLDIERS 
- 4.9.7 POTENTIAL FOR SMART EO HELMETS WITH HEADS-UP DISPLAYS (HUD) FOR REAL-TIME DATA
 
- 4.10 MARKET TRENDS 
- 4.10.1 COMPUTATIONAL IMAGING & CODED-APERTURE SENSORS 
- 4.10.2 SHIFT TOWARD MULTI-ROLE EO DEVICES 
- 4.10.3 TRANSITION FROM IMAGE INTENSIFIERS TO CMOS-BASED NIGHT VISION: RESOLUTION, COST, AND DIGITAL ADVANTAGES 
- 4.10.4 AI-DRIVEN TARGET RECOGNITION: REAL-TIME THREAT IDENTIFICATION IN EO SYSTEMS 
- 4.10.5 MULTI-SENSOR FUSION (THERMAL + NIGHT VISION + DAY CAMERAS + LIDAR): UNIFIED BATTLEFIELD AWARENESS
- 4.10.6 AR/VR INTEGRATION: HEADS-UP DISPLAYS (HUDS) FOR TACTICAL NAVIGATION AND THREAT MAPPING 
- 4.10.7 MINIATURIZATION OF WEARABLE EO DEVICES: LIGHTWEIGHT GOGGLES AND WEAPON SIGHTS 
- 4.10.8 NEXT-GEN THERMAL WEAPON SIGHTS: AI-POWERED AUTO-TARGETING AND BALLISTIC CALCULATION 
- 4.10.9 WIRELESS EO SYSTEMS: NETWORKED BATTLEFIELD DATA SHARING (E.G., DRONE FEEDS TO SOLDIER HELMETS)
- 4.10.10 PRE-SHOT SNIPER DETECTION: AI ALGORITHMS ANALYZING ACOUSTIC/EO SIGNATURES 
- 4.10.11 SWIR IMAGING: PENETRATING FOG/DUST FOR ENHANCED LOW-LIGHT PERFORMANCE 
- 4.10.12 SENSOR FUSION VS. STANDALONE DEVICES: COST-BENEFIT ANALYSIS FOR MILITARY PROCUREMENT 
- 4.10.13 MODULAR AND SCALABLE SYSTEMS (PORTABLE ELECTRO-OPTICAL SYSTEMS) 
 
- 4.11 SOLDIER ADOPTION TRENDS 
- 4.11.1 DEMAND FOR FUSION DEVICES: REDUCING GEAR LOAD WITH MULTI-FUNCTIONAL BINOCULARS/GOGGLES 
- 4.11.2 EO SENSOR SUITES IN HELMETS: GPS, RANGEFINDERS, AND HEALTH MONITORING INTEGRATION 
- 4.11.3 SHIFT TO DIGITAL IMAGING: SOLDIER PREFERENCE FOR CMOS OVER ANALOG NIGHT VISION 
- 4.11.4 ANTI-DRONE TACTICS: PORTABLE EO JAMMERS AND TRACKING SYSTEMS FOR INFANTRY
- 4.11.5 BATTERY EFFICIENCY: EXTENDED MISSION DURATIONS WITH LOW-POWER EO SYSTEMS 
 
- 4.12 IMPACT ANALYSIS OF COVID - 19 
- 4.12.1 IMPACT ON OVERALL AEROSPACE & DEFENSE 
- 4.12.2 IMPACT ON GLOBAL DISMOUNTED SOLDIER SYSTEM MARKET 
- 4.12.3 IMPACT ON SUPPLY CHAIN OF DISMOUNTED SOLDIER SYSTEM MARKET 
- 4.12.4 IMPACT ON MARKET DEMAND OF DISMOUNTED SOLDIER SYSTEM MARKET 
- 4.12.5 IMPACT ON PRICING OF DISMOUNTED SOLDIER SYSTEM MARKET
 
5 SUPPLY CHAIN ANALYSIS 
- 5.1.1 COMPONENT SUPPLIERS 
- 5.1.2 SYSTEM INTEGRATORS 
- 5.1.3 END-USERS 
- 5.2 PORTER'S FIVE FORCES MODEL 
- 5.2.1 THREAT OF NEW ENTRANTS - LOW 
- 5.2.2 BARGAINING POWER OF SUPPLIERS - HIGH 
- 5.2.3 BARGAINING POWER OF BUYERS - MODERATE 
- 5.2.4 THREAT OF SUBSTITUTES - MODERATE
- 5.2.5 INDUSTRY RIVALRY - HIGH 
 
- 5.3 REGULATORY OUTLOOK 
- 5.4 PATENT TREND ANALYSIS 
- 5.5 MARKET SWOT ANALYSIS 
- 5.6 MARKET PESTEL ANALYSIS 
- 5.6.1 POLITICAL FACTORS: 
- 5.6.2 ECONOMIC FACTORS: 
- 5.6.3 SOCIAL FACTORS: 
- 5.6.4 TECHNOLOGICAL FACTORS: 
- 5.6.5 LEGAL FACTORS: 
- 5.6.6 ENVIRONMENTAL FACTORS: 
 
- 5.7 DEMAND SIDE ANALYSIS
- 5.7.1 MILITARY FORCES (INFANTRY UNITS) 
- 5.7.2 SPECIAL OPERATIONS FORCES (SOF) 
- 5.7.3 PEACEKEEPING & NON-STATE SECURITY FORCES 
 
- 5.8 UKRAINE RUSSIA WAR IMPACT 
- 5.9 CHINA TAIWAN CONFLICT 
- 5.10 ISRAEL PALESTINE WAR IMPACT 
- 5.11 ECONOMIC DOWNTURNS IMPACT 
- 5.12 FUTURE GROWTH OUTLOOK 
- 5.13 EO PROCUREMENTS AND TENDERS FROM KEY MARKETS 
- 5.13.1 UNITED STATES 
- 5.13.2 FRANCE 
- 5.13.3 GERMANY 
- 5.13.4 TURKEY 
- 5.13.5 INDIA 
- 5.13.6 AUSTRALIA 
- 5.13.7 POLAND 
- 5.13.8 SAUDI ARABIA 
 
6 GLOBAL MANUFACTURING CAPACITY AND MARKET NEEDS ANALYSIS BY COUNTRY 
- 6.1 NORTH AMERICA 
- 6.1.1 US
- 6.1.2 CANADA 
- 6.1.3 MEXICO 
 
- 6.2 EUROPE 
- 6.2.1 GERMANY 
- 6.2.2 UK 
- 6.2.3 FRANCE 
- 6.2.4 ITALY 
- 6.2.5 SPAIN 
- 6.2.6 SWEDEN 
- 6.2.7 TURKEY 
- 6.2.8 RUSSIA 
- 6.2.9 POLAND 
- 6.2.10 CZECH REPUBLIC 
 
- 6.3 ASIA-PACIFIC 
- 6.3.1 CHINA 
- 6.3.2 INDIA 
- 6.3.3 JAPAN 
- 6.3.4 SOUTH KOREA 
- 6.3.5 AUSTRALIA 
- 6.3.6 SINGAPORE 
 
- 6.4 MIDDLE EAST & AFRICA 
- 6.4.1 UAE 
- 6.4.2 SAUDI ARABIA 
- 6.4.3 QATAR 
- 6.4.4 ISRAEL 
- 6.4.5 SOUTH AFRICA 
 
- 6.5 SOUTH AMERICA 
- 6.5.1 BRAZIL 
- 6.5.2 ARGENTINA 
- 6.5.3 CHILE 
 
7 GLOBAL DISMOUNTED SOLDIER SYSTEM MARKET, BY TYPE 
- 7.1 OVERVIEW 
- 7.2 THERMAL WEAPON SIGHT 
- 7.3 MONOCULAR AND BINOCULAR NIGHT VISION DEVICES 
- 7.3.1 IMAGE INTENSIFIER TUBES 
- 7.3.1.1 GEN 2 
- 7.3.1.2 GEN 3 
- 7.3.1.3 ADVANCED DIGITAL LOW-LIGHT (CMOS-BASED) 
 
 
- 7.4 FUSION DEVICES (NIGHT VISION + THERMAL) 
- 7.5 ELECTRO-OPTICAL (EO) SENSOR SYSTEMS 
- 7.6 OTHERS (LASER RANGEFINDERS, AR DISPLAYS, HEALTH MONITORS, ETC.) 
8 GLOBAL DISMOUNTED SOLDIER SYSTEM MARKET, BY END USER 
- 8.1 OVERVIEW 
- 8.2 MILITARY 
- 8.3 HOMELAND SECURITY/ LAW ENFORCEMENT AGENCIES 
9 GLOBAL DISMOUNTED SOLDIER SYSTEM MARKET, BY REGION 
- 9.1 OVERVIEW 
- 9.1.1 GLOBAL DISMOUNTED SOLDIER SYSTEM MARKET, BY REGION, 2019-2035 (USD MILLION) 
 
- 9.2 NORTH AMERICA 
- 9.2.1 US
- 9.2.2 CANADA 
- 9.2.3 MEXICO 
 
- 9.3 EUROPE 
- 9.3.1 GERMANY 
- 9.3.2 UK 
- 9.3.3 FRANCE 
- 9.3.4 ITALY 
- 9.3.5 SPAIN 
- 9.3.6 SWEDEN 
- 9.3.7 TURKEY 
- 9.3.8 RUSSIA 
- 9.3.9 POLAND 
- 9.3.10 CZECH REPUBLIC 
- 9.3.11 REST OF EUROPE 
 
- 9.4 ASIA-PACIFIC 
- 9.4.1 CHINA 
- 9.4.2 INDIA 
- 9.4.3 JAPAN 
- 9.4.4 SOUTH KOREA 
- 9.4.5 AUSTRALIA 
- 9.4.6 SINGAPORE 
- 9.4.7 REST OF ASIA-PACIFIC 
 
- 9.5 MIDDLE EAST & AFRICA 
- 9.5.1 UAE 
- 9.5.2 SAUDI ARABIA 
- 9.5.3 QATAR 
- 9.5.4 ISRAEL 
- 9.5.5 JORDAN 
- 9.5.6 SOUTH AFRICA 
- 9.5.7 REST OF MIDDLE EAST & AFRICA 
 
- 9.6 SOUTH AMERICA 
- 9.6.1 BRAZIL 
- 9.6.2 ARGENTINA 
- 9.6.3 CHILE 
- 9.6.4 REST OF SOUTH AMERICA 
 
10 COMPETITIVE LANDSCAPE 
- 10.1 INTRODUCTION 
- 10.2 COMPETITOR DASHBOARD
- 10.3 COMPANY MARKET SHARE ANALYSIS, 2024 
- 10.4 PUBLIC PLAYERS STOCK SUMMARY 
- 10.5 COMPARATIVE ANALYSIS: KEY PLAYERS FINANICAL 
- 10.6 COMPETITOR'S PRODUCT INFORMATION/ PRODUCT BENCHMARKING ANALYSIS 
- 10.7 KEY DEVELOPMENTS & GROWTH STRATEGIES 
- 10.7.1 NEW PRODUCT LAUNCH/ DEVELOPMENT
- 10.7.2 PARTNERSHIP/COLLABORATION, INVESTMENT, EXPANSION, AND OTHERS
 
11 COMPANY PROFILES 
- 11.1 TELEDYNE FLIR, LLC 
- 11.1.1 COMPANY OVERVIEW 
- 11.1.2 FINANCIAL OVERVIEW 
- 11.1.3 PRODUCTS OFFERED 
- 11.1.4 KEY DEVELOPMENTS 
- 11.1.5 DEFENSE CONTRACTS 
- 11.1.6 SWOT ANALYSIS 
- 11.1.7 KEY STRATEGIES 
 
- 11.2 L3HARRIS TECHNOLOGIES, INC. 
- 11.2.1 COMPANY OVERVIEW 
- 11.2.2 FINANCIAL OVERVIEW 
- 11.2.3 PRODUCTS OFFERED 
- 11.2.4 KEY DEVELOPMENTS 
- 11.2.5 DEFENSE CONTRACTS 
- 11.2.6 SWOT ANALYSIS 
- 11.2.7 KEY STRATEGIES 
 
- 11.3 BAE SYSTEMS 
- 11.3.1 COMPANY OVERVIEW 
- 11.3.2 FINANCIAL OVERVIEW 
- 11.3.3 PRODUCTS OFFERED 
- 11.3.4 KEY DEVELOPMENTS 
- 11.3.5 DEFENSE CONTRACTS 
- 11.3.6 SWOT ANALYSIS 
- 11.3.7 KEY STRATEGIES 
 
- 11.4 ELBIT SYSTEMS 
- 11.4.1 COMPANY OVERVIEW 
- 11.4.2 FINANCIAL OVERVIEW 
- 11.4.3 PRODUCTS OFFERED 
- 11.4.4 KEY DEVELOPMENTS 
- 11.4.5 DEFENSE CONTRACTS 
- 11.4.6 SWOT ANALYSIS 
- 11.4.7 KEY STRATEGIES 
 
- 11.5 LEONARDO S.P.A 
- 11.5.1 COMPANY OVERVIEW 
- 11.5.2 FINANCIAL OVERVIEW 
- 11.5.3 PRODUCTS OFFERED 
- 11.5.4 KEY DEVELOPMENTS 
- 11.5.5 DEFENSE CONTRACTS 
- 11.5.6 SWOT ANALYSIS 
- 11.5.7 KEY STRATEGIES 
 
- 11.6 THALES GROUP 
- 11.6.1 COMPANY OVERVIEW 
- 11.6.2 FINANCIAL OVERVIEW 
- 11.6.3 PRODUCTS OFFERED 
- 11.6.4 KEY DEVELOPMENTS 
- 11.6.5 DEFENSE CONTRACTS 
- 11.6.6 SWOT ANALYSIS 
- 11.6.7 KEY STRATEGIES 
 
- 11.7 SAFRAN S.A. 
- 11.7.1 COMPANY OVERVIEW 
- 11.7.2 FINANCIAL OVERVIEW 
- 11.7.3 PRODUCTS OFFERED 
- 11.7.4 KEY DEVELOPMENTS 
- 11.7.5 DEFENSE CONTRACTS 
- 11.7.6 SWOT ANALYSIS 
- 11.7.7 KEY STRATEGIES 
 
- 11.8 ASELSAN A.S
- 11.8.1 COMPANY OVERVIEW 
- 11.8.2 FINANCIAL OVERVIEW 
- 11.8.3 PRODUCTS OFFERED 
- 11.8.4 KEY DEVELOPMENTS 
- 11.8.5 DEFENSE CONTRACTS 
- 11.8.6 SWOT ANALYSIS 
- 11.8.7 KEY STRATEGIES 
 
- 11.9 EXCELITAS TECHNOLOGIES CORP. 
- 11.9.1 COMPANY OVERVIEW 
- 11.9.2 FINANCIAL OVERVIEW 
- 11.9.3 PRODUCTS OFFERED 
- 11.9.4 KEY DEVELOPMENTS 
- 11.9.5 DEFENSE CONTRACTS 
- 11.9.6 SWOT ANALYSIS 
- 11.9.7 KEY STRATEGIES 
 
- 11.10 RHEINMETALL AG 
- 11.10.1 COMPANY OVERVIEW 
- 11.10.2 FINANCIAL OVERVIEW 
- 11.10.3 PRODUCTS OFFERED 
- 11.10.4 KEY DEVELOPMENTS 
- 11.10.5 DEFENSE CONTRACTS 
- 11.10.6 SWOT ANALYSIS 
- 11.10.7 KEY STRATEGIES 
 
- 11.11 EXOSENS SAS 
- 11.11.1 COMPANY OVERVIEW 
- 11.11.2 FINANCIAL OVERVIEW 
- 11.11.3 PRODUCTS OFFERED 
- 11.11.4 KEY DEVELOPMENTS 
- 11.11.5 DEFENSE CONTRACTS 
- 11.11.6 SWOT ANALYSIS 
- 11.11.7 KEY STRATEGIES 
 
- 11.12 HARDER DIGITAL ENGINEERING AND INDUSTRIAL COMPANY LTD. 
- 11.12.1 COMPANY OVERVIEW 
- 11.12.2 FINANCIAL OVERVIEW 
- 11.12.3 PRODUCTS OFFERED 
- 11.12.4 KEY DEVELOPMENTS 
- 11.12.5 SWOT ANALYSIS 
- 11.12.6 KEY STRATEGIES 
 
- 11.13 THEON INTERNATIONAL PLC 
- 11.13.1 COMPANY OVERVIEW 
- 11.13.2 FINANCIAL OVERVIEW 
- 11.13.3 PRODUCTS OFFERED 
- 11.13.4 KEY DEVELOPMENTS 
- 11.13.5 DEFENSE CONTRACTS 
- 11.13.6 SWOT ANALYSIS 
- 11.13.7 KEY STRATEGIES 
 
- 11.14 KATOD LLC 
- 11.14.1 COMPANY OVERVIEW 
- 11.14.2 FINANCIAL OVERVIEW 
- 11.14.3 PRODUCTS OFFERED 
- 11.14.4 KEY DEVELOPMENTS 
- 11.14.5 SWOT ANALYSIS 
- 11.14.6 KEY STRATEGIES