Global Military Vetronics Market 2024-2030

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    MILITARY VETRONICS MARKET

     

     KEY FINDINGS

     

    1.Increasing breaching incidents at borders has increased the need for deployment of advanced vetronics systems across the globe.The defense sectors across the globe have heavily invested in procuring advanced vetronics systems to stay ahead in the competition with neighboring countries.

     

    2.Military units across the globe are inclined towards investing heavily in procuring advanced technology-equipped vetronics systems. The demand for real-time communication vetronics is projected to remain high throughout the increasing impact of the factor on the market growth.

     

    3The rising concerns regarding geopolitical unrest and cross-border security, along with increasing instances of border breaching, there is widespread adoption of vetronics for improving inter- and intra-vehicle communications, surveillance and navigation.

     

    4.The emergence of wireless communications technology and increasing modernization of military vehicles are also creating a positive impact on the market. For instance, unmanned vehicles (UMV) and drones are used for surveillance purposes, along with various commercial applications, such as capturing images and videos of sporting events and cityscapes.

     

    INTRODUCTION TO MILITARY VETRONICS MARKET

     

    Military vetronics implies vehicular electronic systems fixed into special purpose vehicles used by defense organizations for security. As the name suggests military vetronics are specialized electronic systems used in military vehicles.

     

    Military uses vetronics as an imperative and efficient technology for war, national security and armory purposes. Display, GPS, advanced armory control systems, data security systems and power systems are various vetronics systems widely used in defense and military.

     

    Integration of various military vehicles, such as amphibious vehicles, unmanned ground vehicles, infantry fighting vehicles, and mine-resistant ambush protected vehicles, in the army will support the segment growth. These vehicles require precise navigation systems, allowing the army to accurately carry out operations.

     

    infographic: Military Vetronics Market , Military Vetronics Market Size, Military Vetronics Market Trends, Military Vetronics Market Forecast, Military Vetronics Market Risks, Military Vetronics Market Report, Military Vetronics Market Share

     

    To improve the operational accuracy of these vehicles, industry players are integrating their navigation systems with Satellite Communications systems.

     

    Various countries across the globe are trying to establish a framework, where military devices can use a range of SATCOM networks, which include commercial & military networks.

     

    The USAF had conversations with commercial satellite operators to build a hybrid architecture. This architecture will enable armed forces to switch networks between commercial and military satellites, improving connectivity and reducing chances of cyber-attacks.

     

    Several programs are being conducted to upgrade the equipment and systems in old armored vehicles across the globe. Led by the availability of modern and evolved warfare technologies, these programs are driving the growth of the upgrade and retrofit market.

     

    Additionally, many countries are expanding their military budgets on account of increasing terrorism and hostile activities.

     

    These activities have also resulted in the requirement of frequent repairing and installation of new parts in armored vehicles. Besides, there has been a rise in the demand for low-cost per mile military vehicles.

     

    As the processes of upgrade and retrofit are comparatively less expensive than manufacturing a fully equipped vehicle, it has positively influenced the market growth.

     

    There has been a rise in investments for the advancement of military troop equipment for increased mobility and improved protection of land troops across both developed and emerging economies.

     

    MILITARY VETRONICS MARKET DYNAMICS

     

    The Joint Light Tactical Vehicle (JLTV) for the Army and U.S. Marine Corps will come standard with a shared family of robust vehicle-mount computers from the Leonardo DRS Land Electronics business unit in Melbourne, Florida.

     

    Army Contracting representatives announced a $14.5 million order to Oshkosh Defense LLC, the manufacturer of the JLTV, for the Leonardo DRS Mounted Family of Computer Systems (MFoCS) II to be a standard component of the JLTV.

     

    A baseline configuration helps explain how and when a military weapons system, such as the JLTV, will be upgraded or undergo other changes by describing the system’s current state.

     

    The MFoCS II is made up of three different sized ruggedized touch-screen display units with sunlight visibility, platform computing servers, docking stations, interconnecting cables, and installation kits. More than 40 different types of ground vehicles and weaponry can use this range of robust vetronics computers.

     

    The Joint Battle Command-Platform (JBC-P) of the Army is supported by the MFoCS II family of systems, which also includes multi-touch screens, cyber security, and system upgrades.

     

    Along with the Army’s ongoing development of the JBC-P systems for tactical situational awareness, global blue force tracking, and in-transit visibility logistics tracking, the MFoCS II rugged computer family has also seen performance improvements of its computing server.

     

     

    FACTORS CONTRIBUTING THE GROWTH OF MILITARY VETRONICS MARKET

     

    1.Availability of cost effective components

     

    2.Rapid growth of automotive industry

     

    3.Emergence of wireless communication technology

     

    4.Border security and competition

     

     

    COVID IMPACT ON MILITARY VETRONICS MARKET

     

    The pandemic has considerably affected the production and delivery of  military products, which, in turn, will diminish the growth of the market.

     

    Stringent government norms have disrupted the import and export of goods, resulting in delayed deliveries. The halt on operations has critically thwarted the production in manufacturing processes.

     

    Prominent companies situated in the U.S., the U.K., Germany, and France have experienced enormous loss due to the outbreak.

     

    However, companies are implementing strategies to recover the financial damage caused by the coronavirus, which, in turn, can improve the market scenario.

     

    To emerge strongly from the COVID-19 crisis, Military Vetronics companies are likely to develop effective crisis-management strategies including emphasis on next-generation products, and solutions.

     

    Modestly reducing Military Vetronics R&D budgets, Constant monitoring on Military Vetronics market trends, Systematic approaches to investment/divestment, Carefully launching marketing strategies, Strengthening long term contracts.

     

    The global semiconductors, electronics, information, communication, and technology industry witnessed diverse trends over the past two years with manufacturing and other heavy industries facing operational challenges. On the other hand, data center services, cloud computing, and other online supporting sectors gained significantly from the market trends.

     

     

    MILITARY VETRONICS MARKET CONTRACTS

     

    Company Contract Info Contract Value
    General Dynamics A new light ground mobility vehicle to move infantry warfighters quickly on and off roads across future battlefields $14.4 million
    Raytheon Upgrade and modification of sensor system software and hardware for EA-18G and F/A-18 aircraft to incorporate improvements $88 million
    Lockheed Martin To provide technical support services related to the THAAD missile system in the Kingdom of Saudi Arabia $945.9 million
    Oshkosh Defence  To recapitalize vehicles in its family of heavy tactical vehicles fleet. As per the contract, the company will recapitalize around 407 palletized load system trucks and heavy expanded mobility tactical trucks and also manufacture nearly 601 new palletized load system trailers.

     

    $232.7 million
    BAE Systems The low rate initial production of armored multi-purpose vehicles and vetronics.

     

    $575 million

     

    MILITARY VETRONICS MARKET NEW PARTNERSHIP

     

    To replace the Corps’ ageing fleet of amphibious assault vehicles, U.S. Marine Corps experts in amphibious warfare are purchasing new amphibious combat vehicles (ACVs) and related vehicls (AAVs).

     

    Marine Corps Systems Command representatives announced a $183.8 million purchase for 36 ACVs for the ACV 1.1 programme from the BAE Systems Platforms & Services division in Sterling Heights, Michigan. With the order, the company’s most recent ACV contract’s overall value has increased to $3.3 billion.

     

    Marine infantry warfighters can be transported by ACV wheeled armoured combat vehicles from ships offshore to invasion beaches. The pricey expeditionary combat vehicle (EFV) programme was scrapped by the Marine Corps.

     

    The Superav 8×8 amphibious armoured personnel carrier created by the Italian company Iveco Defence Vehicles is the design inspiration for BAE Systems’ ACV.

     

    ACV systems are created with low-profile optical and infrared signatures, modular protection, and other armoured vehicle technologies in order to function through enemy direct fire, indirect fire, and land mines.

     

    With M1 Abrams main battle tanks in a mechanised task force, the vehicles can move at speeds of up to 65 mph while manoeuvring on land from as far away as 12 miles out at sea. They can also switch seamlessly between performing ground operations and operating in the water.

     

    The ACV is capable of destroying comparably light enemy combat vehicles. The ACV can move 17 Marines at a pace of at least 8 knots through three-foot seas while providing direct fire support for Marine infantry.

     

    The ACV can operate with a wheel blown off and has considerable ground clearance on terrain to withstand the effects of land mine blasts.

     

    MILITARY VETRONICS MARKET SEGMENTATION

     

    Military Vetronics Market By Application

    • Defense
    • Homeland Security

     

    Military Vetronics Market By Vehicle Type

    • Main Battle Tanks
    • Light Protected Vehicles
    • Amphibious Armoured Vehicles
    • Mine Resistant Ambush Protected (MRAP) Vehicles
    • Infantry Fighting Vehicles
    • Armored Personnel Carriers
    • Others

     

    Military Vetronics Market By Subsystem

    • Navigation Systems
    • Observation and Display Systems
    • C3 Systems
    • Weapon Control Systems
    • Sensor and Control Systems
    • Vehicle Protection Systems
    • Power Systems
    • Others

     

    Military Vetronics Market By Fit

    • Line-Fit
    • Retrofit

     

    Military Vetronics Market By Region

    • North America
      • United States
      • Canada
    • Asia Pacific
      • China
      • Japan
      • India
      • South Korea
      • Australia
      • Indonesia
      • Others
    • Europe
      • Germany
      • France
      • United Kingdom
      • Italy
      • Spain
      • Russia
      • Others
    • Latin America
      • Brazil
      • Mexico
      • Others
    • Middle East and Africa

     

    MILITARY VETRONICS MARKET RECENT DEVELOPMENT

     

    The number of defence companies vying to develop the next-generation fast armoured combat vehicles and vetronics architecture to replace the military’s M2 Bradley Fighting Vehicle is being reduced by specialists in land warfare from the U.S. Army.

     

    Construction of the Optionally Manned Fighting Vehicle (OMFV) prototypes will be handled by General Dynamics Land Systems in Sterling Heights, Michigan.

     

    The OMFV will feature advanced electronics, machine autonomy for operating in unmanned mode, a 30-millimetre cannon, and a second-generation forward looking infrared (FLIR) sensor system for fighting at night, in bad weather, or in smoke and haze. 

     

    The OMFV will be able to operate with or without a human crew.The Next-Generation Combat Vehicle (NGCV) programme, which is responsible for designing a number of armoured vehicles and vetronics, includes the OMFV as one of a future family of Army combat vehicles.

     

    This programme aims to replace outdated platforms and add new capabilities to Army forces.

     

    The NGCV programme includes the Armoured Multi-Purpose Vehicle (AMPV), which will replace the M113 armoured personnel carrier, the Mobile Protected Firepower (MPF) light tank for Infantry Brigade Combat Teams (IBCTs), the Robotic Combat Vehicle (RCV), which consists of three unmanned ground vehicles in light, medium, and heavy configurations, and the Decisive Lethality Platform (DLP), which will replace the M1 Abrams main battle tank.

     

    The OMFV is set to take over for the M-2 Bradley, which is currently in use. It conveys men across the field of combat, supports the firing team, and engages enemy armoured fighting vehicles.

     

    In terms of new electronics, armour, and defence systems, the Bradley is at the technical edge of its ability to accommodate them. According to Army officials, the OMFV should be optionally manned, meaning that it needs to be capable of performing operations under remote control even when its crew is not there.

     

    Up to six infantry personnel should be able to be transported in the future vehicle, which should have no more than two crew members.

     

     It should be possible for the C-17 cargo jet to transport two OMFVs and have them prepared for battle within 15 minutes of landing.The new vehicle should be able to combat in cities, super-elevate armaments, and simultaneously engage threats with its primary gun and a separate weapons system.

     

    The OMFV should also be able to carry extended-range medium-calibre, directed-energy, and missiles and should be protected sufficiently to survive on battlefields of the present and the future. It should also be able to transfer targets to infantry soldiers on foot, in vehicles, and by unmanned systems.

     

    Embedded training systems, cutting-edge power systems, reactive armour, active protection, directed-energy weapons, and sophisticated target sensors should all be included in the OMFV.

     

    MILITARY VETRONICS MARKET COMPETITIVE LANDSCAPE

     

    The industry has some of the key players being  BAE Systems PLC, Curtiss-Wright Corporation, General Dynamics Corporation, Harris Corporation, Leonardo-Finmeccanica S.P.A, Lockheed Martin Corporation, Raytheon Company, Rheinmetall AG, Saab Group, Thales Group, etc.

     

    Market players have adopted various strategies to improve their market shares and increase the penetration of their products, worldwide.

     

    In the recent past, market players have adopted various strategies, such as R&D and innovation, product launch, partnership, collaboration, and joint venture, expansion, and constituent as their major growth strategies to sustain the stiff competition in the market.

     

    infographic: Military Vetronics Market , Military Vetronics Market Size, Military Vetronics Market Trends, Military Vetronics Market Forecast, Military Vetronics Market Risks, Military Vetronics Market Report, Military Vetronics Market Share

     

    The prominent players manufacturing and offering vetronics systems are anticipated to continuously invest in research and development activities to develop innovative products and improve the efficiency of the systems.

     

    These players intend to emphasize long-term agreement, joint ventures, and partnership with government organizations to increase their profit margins and sustain the stiff competition in the market.

     

     

    MILITARY VETRONICS MARKET KEY PLAYERS

     

     

    THIS MILITARY VETRONICS MARKET REPORT WILL ANSWER FOLLOWING QUESTIONS

    1. Military Vetronics Market size and Forecast, by region, by application
    2. Average B-2-B price for Military Vetronics Market, by region, per user
    3. Technology trends and related opportunity for new Military Vetronics Market tech suppliers
    4. Military Vetronics Market share of leading vendors, by region,
    5.  Coronavirus impact on Military Vetronics Market earnings
    1 Market Segmentation
    2 Scope of the report
    3 Abbreviations
    4 Research Methodology
    5 Executive Summary
    6 Introduction
    7 Insights from Industry stakeholders
    8 Cost breakdown of Product by sub-components and average profit margin
    9 Disruptive innovation in theIndustry
    10 Technology trends in the Industry
    11 Consumer trends in the industry
    12 Recent Production Milestones
    13 Component Manufacturing in US, EU and China
    14 COVID-19 impact on overall market
    15 COVID-19 impact on Production of components
    16 COVID-19 impact on Point of sale
    17 Market Segmentation, Dynamics and Forecast by Geography, 2024-2030
    18 Market Segmentation, Dynamics and Forecast by Product Type, 2024-2030
    19 Market Segmentation, Dynamics and Forecast by Application, 2024-2030
    20 Market Segmentation, Dynamics and Forecast by End use, 2024-2030
    21 Product installation rate by OEM, 2023
    22 Incline/Decline in Average B-2-B selling price in past 5 years
    23 Competition from substitute products
    24 Gross margin and average profitability of suppliers
    25 New product development in past 12 months
    26 M&A in past 12 months
    27 Growth strategy of leading players
    28 Market share of vendors, 2023
    29 Company Profiles
    30 Unmet needs and opportunity for new suppliers
    31 Conclusion
    32 Appendix
     
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