Artificial Intelligence
Global Military Embedded Systems Market (2020 to 2025) – Development of EW Systems with Enhanced Capabilities Presents Opportunities
Dublin, March 02, 2021 (GLOBE NEWSWIRE) — The “Military Embedded Systems Market by Component (Hardware, Software), Server Architecture (Blade Server, Rack-Mount Server), Platform (Land, Airborne, Naval, Space), Installation (New Installation, Upgradation), Application, Services, and Region – Global Forecast to 2025” report has been added to ResearchAndMarkets.com’s offering.
The military embedded systems market size is projected to grow from USD 1.4 billion in 2020 to USD 2.1 billion by 2025, at a CAGR of 8.3% from 2020 to 2025.
Various improvements in integrated circuits and processor technologies have led to a decline in the overall hardware costs associated with embedded systems. Adoption of modern blade servers is growing, especially in network-centric military applications. Military electronic equipment has undergone tremendous advancements during the past few years. Some of the key requirements in electronic devices and systems used for military applications include high reliability, efficiency, and compact size. Due to these requirements, market players put enormous efforts into developing technologically advanced embedded systems.
Rack-mount server segment is estimated to grow at highest CAGR in the military embedded systems market in 2020.
Based on server architecture, the rack-mount server segment of the military embedded systems market is projected to grow at the highest CAGR during the forecast period. The growth of this segment can be attributed due to the increasing demand in naval weapon systems and commend command and control centers to drive the market for rack-mount server. Rugged rackmount server is highly used in naval, airborne and ground-based applications. In 2019, Mercury Systems included over 50 Models to its rugged server product line. Enhanced Reliability: EnterpriseSeries servers see a wide range of military-grade specifications, including MIL-STD 810G, 461F (EMI/RFI), 901D (shock), 167-1 (vibration), 1474-D (airborne noise), and 740-2 (structural borne noise). New installation type segment is estimated to lead the military embedded systems market in 2020.
Based on the Installation Type, the new installation segment of the market is expected to lead the market, and the trend is likely to continue until 2025. The growth of this segment can be attributed due to the growing defense budget allocations for new installation of advanced military embedded systems. countries like the US and the UK are allocating defense budgets for the new installation of advanced military embedded systems, which are anticipated to drive this segment globally.
Intelligence, surveillance, & reconnaissance (ISR) application segment is estimated to lead the market in 2020.
Based on application, the intelligence, surveillance, & reconnaissance (ISR) segment of the military embedded systems market is expected to lead the market, and the trend is likely to continue until 2025. The growth of this segment can be attributed due to the increasing procurement of advanced and high-tech surveillance & monitoring systems. The ISR systems act as a force multiplier by providing advanced situational awareness to armed forces, and this is the biggest attribute useful for military wielding platforms, such as manned aircraft, maritime surveillance aircraft, and unmanned aerial systems. Various armed forces are modernizing ISR and cyber capabilities, thereby enabling the special operations forces with enhanced capabilities and technologies in terms of observation, visualization, and collaboration in tactical, operational, and strategic warfighting situations.
North America is estimated to account for the major share of the military embedded systems market in 2020. The North America region is estimated to lead the military embedded systems market in 2020 due to increased investments in defense equipment and warfare capabilities, and the implementation of network-centric infrastructure. The major countries under this region are the US and Canada, with the US leading the military embedded systems industry in North America. The US is a technologically superior country with a huge potential for investment in military electronics. Major players such as Mercury Systems, Inc. (US) Curtiss-Wright Corporation (US), and SMART Embedded Computing (US), are engaged in the R&D of blade servers and rack-mount servers, thereby driving the growth of the military embedded systems market in North America.
Key Topics Covered:
1 Introduction
2 Research Methodology
3 Executive Summary 4 Premium Insights 5 Market Overview 6 Industry Trends 7 Military Embedded Systems Market, by Component 8 Military Embedded Systems Market, by Server Architecture 9 Military Embedded Systems Market, by Platform 10 Military Embedded Systems Market, by Application 11 Military Embedded Systems Market, by Installation Type 12 Military Embedded Services Market 13 Regional Analysis 14 Competitive Landscape 15 Company Profiles 16 Adjacent Market 17 Appendix For more information about this report visit https://www.researchandmarkets.com/r/gpifet
4.1 Attractive Opportunities in Military Embedded Systems Market
4.2 Military Embedded Systems Market, by Airborne
4.3 Military Embedded Systems Market, by Space
4.4 Military Embedded Systems Market, by Rack-Mount Server
4.5 Military Embedded Systems Market, by Region
5.1 Introduction
5.2 Market Dynamics
5.2.1 Drivers
5.2.1.1 Technological Advancements in Network Convergence
5.2.1.2 Use of Multicore Processor Technology
5.2.1.3 Emergence of Electronic and Network-Centric Warfare
5.2.1.4 Increased Focus on Cloud Computing and Wireless Technologies
5.2.1.5 Rising Demand for New and Advanced Electronic Combat Systems
5.2.1.6 Increasing Use of Ew Systems for Geospatial Intelligence Gathering
5.2.2 Restraints
5.2.2.1 System Design Certification Requirement for System Upgradation
5.2.2.2 Complexities in Embedded Product Development
5.2.3 Opportunities
5.2.3.1 Scope for Software Innovation in Military Computers
5.2.3.2 Development of Ew Systems with Enhanced Capabilities
5.2.4 Challenges
5.2.4.1 Increased Barriers in Designing Military Embedded Systems
5.2.4.2 Critical Security Procedures in Embedded Devices
5.3 Impact of COVID-19 on Military Embedded Systems Market
5.4 Ranges and Scenarios
5.5 Military Embedded Systems Market Ecosystem
5.5.1 Prominent Companies
5.5.2 Private and Small Enterprises
5.5.3 End-users
5.6 Value Chain Analysis
5.7 Average Selling Price of Military Embedded System Components & Subcomponents
5.8 Trends/Disruptions Impacting Customer’s Business
5.9 Porter’s Five Forces Analysis
5.10 Use Case
5.11 Trade Analysis
6.1 Introduction
6.2 Technology Trends
6.2.1 Multicore Processors
6.2.2 Development of Hpec (High Performance Embedded Computing) for Defense Applications
6.2.3 Modern Military-Grade Electronic Packaging Technology
6.2.4 Availability of Commercial Off-The-Shelf (Cots) Products
6.2.5 Sensor Open Systems Architecture (Sosa)
6.2.6 Small Form Factor in Military Embedded Systems
6.2.7 Use of Advanced Materials in Embedded Systems
6.3 Technology Analysis
6.3.1 Quantum Computing Technique
6.3.2 Affective Computing Analyses for Military Applications
6.3.3 Artificial Intelligence in Military Embedded Systems
6.3.4 Increasing Use of the Internet of Things (IoT)
6.4 Innovations & Patents Registrations
6.5 Tariff Regulatory Landscape Military Embedded Systems
6.5.1 North America
6.5.2 Europe
7.1 Introduction
7.2 Hardware
7.2.1 Processor
7.2.2 Memory
7.2.3 Converter
7.2.4 Graphical Processing Unit (Gpu)
7.2.5 Others
7.3 Software
8.1 Introduction
8.2 Blade Server
8.2.1 Advancedtca (Atca)
8.2.1.1 Network Intelligence Applications Are the Major Driver for Atca Segment
8.2.2 Compactpci (Cpci)
8.2.2.1 Demand of Compactpci in the European Space Market.
8.2.3 Open Vpx
8.2.3.1 Need for Upgrading Existing Military Embedded Systems Will Drive this Segment
8.2.3.1.1 Sensor Open Systems Architecture (Sosa)
8.2.3.1.1.1 Hardware Open Systems Technologies (Host)
8.2.3.1.1.2 C4Isr/Ew/Modular Open Suite of Standards (Cmoss)
8.2.4 Vme
8.2.4.1 Increasing Demand in Existing Platform Deployment to Drive the Market for Vme
8.2.5 Microtca
8.2.5.1 Increasing Demand in Combat Land Platform to Drive the Market for Vme
8.3 Rack-Mount Server
8.3.1 Increasing Demand in Naval Weapon Systems and Command and Control Centers to Drive Market for Rack-Mount Server
9.1 Introduction
9.2 Land
9.3 Airborne
9.4 Naval
9.5 Space
10.1 Introduction
10.2 Intelligence, Surveillance, & Reconnaissance (ISR)
10.2.1 Increased Procurement of Advanced and High-Tech Surveillance & Monitoring Systems to Fuel Growth of the Isr Segment
10.3 Electronic Warfare
10.3.1 Growing Focus on Cognitive Electronic Warfare Technologies
10.4 Command & Control
10.4.1 Investments in C2 Systems to Fuel Growth of the Military Embedded Systems
10.5 Communication & Navigation
10.5.1 Demand for Uninterrupted Military Communication and Navigation Systems
10.6 Weapon & Fire Control
10.6.1 Rising Demand for Precision Weapon Systems and Advancements in Automatic Weapon Systems
10.7 Wearable
10.7.1 Development of New and Advanced Embedded Systems to Enhance the Capabilities of Wearables for Soldiers
10.8 Others
11.1 Introduction
11.2 New Installation
11.2.1 Growing Defense Budget Allocations for New Installation of Advanced Military Embedded Systems
11.3 Upgradation
11.3.1 Need for Upgrading Existing Military Embedded Systems
12.1 Introduction
12.2 Design
12.2.1 Enhancement and Technology Upgradation of Electronic Hardware Designs
12.2.1.1 Development Consulting
12.2.1.2 Engineering Support
12.2.1.3 Deployment Support
12.3 Test & Certification
12.3.1 Increasing Safeguards to Avoid and Counteract Security Risks Related to Embedded Software
12.3.1.1 Accelerated Life Testing
12.3.1.2 International Standards
12.3.1.3 Product Safety
12.3.1.4 Others
12.4 Deployment
12.4.1 Focus on Enhancement of Product Life Cycle to Fuel Growth of the Deployment Services Segment
12.5 Renewal
12.5.1 Focus on Enhancement, Product Upgradation, and Provision of Software Updates to Customers to Fuel Growth of the Renewal Services Segment
12.6 Seamless Life Cycle Support
12.6.1 Focus on Seamless Service Support to Customers to Fuel Growth of the Seamless Life Cycle Support Segment
13.1 Introduction
13.2 COVID-19 Impact on Military Embedded Systems Market, by Region
13.3 North America
13.4 Europe
13.5 Asia-Pacific
13.6 Middle East & Africa
13.7 Latin America
14.1 Introduction
14.2 Competitive Leadership Mapping
14.2.1 Star
14.2.2 Emerging Leader
14.2.3 Pervasive
14.2.4 Participant
14.3 Market Share of Key Players, 2019
14.4 Ranking and Revenue Analysis of Key Players, 2019
14.5 Competitive Scenario
14.5.1 New Product Launches
14.5.2 Contracts
14.5.3 Partnerships & Agreements
15.1 Introduction
15.2 Key Players
15.2.1 Curtiss-Wright Corporation
15.2.2 Kontron (S&T Ag)
15.2.3 Mercury Systems, Inc.
15.2.4 Xilinx, Inc.
15.2.5 Concurrent Technologies
15.2.6 Eurotech
15.2.7 General Micro Systems, Inc.
15.2.8 Advantech Co. Ltd.
15.2.9 Thales Group
15.2.10 Smart Embedded Computing
15.2.11 Nxp Semiconductors
15.2.12 Advanced Micro Peripherals
15.2.13 Elma Electronic
15.2.14 Texas Instruments Incorporated
15.2.15 Intel Corporation
15.2.16 Radisys
15.2.17 Crystal Group
15.2.18 Vadatech
15.2.19 Products/Services/Solutions Offered
15.2.20 Avdor Helet
15.2.21 North Atlantic Industries, Inc.
16.1 Military Computers Market, by Type
16.2 Rugged Computers
16.2.1 Portable Computers
16.2.1.1 Rugged Laptops
16.2.1.2 Rugged Tablets
16.2.1.3 Rugged Notebooks
16.2.1.4 Rugged Handhelds
16.2.2 Wearable Computers
16.2.2.1 Rugged Smart Glasses
16.2.2.2 Wearable Cuffs
16.3 Embedded Computers
17.1 Discussion Guide
17.2 Knowledge Store: The Subscription Portal
17.3 Available Customizations
17.4 Related Reports
17.5 Author Details
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Artificial Intelligence
Huawei Wen Tong: 6G Needs to Embrace AI for Shaping Future Network
SHENZHEN, China, Sept. 29, 2024 /PRNewswire/ — At the 6G Conference held in Istanbul, on September 24, 2024, Dr. Wen Tong, Huawei Wireless CTO, delivered a keynote speech on 6G standardization and innovation. With the release of the ITU-R 6G vision framework, the 3GPP will start 6G standardization in 2025. “6G is a new generation of mobile technology, not a simple upgrade of 5G, it should bring new value to users,” said Dr. Tong, “6G is a true intergenerational technological disruption. 6G standard, key technologies, and network architecture should be re-defined based on application scenarios and requirements from 2030 to 2040. 6G should not be another way to implement 5G. Instead, 6G should embrace the AI revolution with a quantum leap and generate new values for the consumers. In this way, 3GPP standards can truly realize the 6G vision and create greater value for the entire industry.”
Centered “6G Standardization Direction” and “6G Innovation Driving Force”, Dr. Tong shared important views on the future architecture, terminal development, and key technologies of 6G.
In terms of architecture design, 6G should go beyond Service-Based Architecture and move towards Application-Driven Network.
5G has already achieved market success and continues to evolve towards 5G-Advanced. 6G will not simply reuse 5G network architecture, without generational and fundamental innovations, which will limit the mobile industry’s aspiration and imagination to dive the innovation in the 6G era. 6G must have obvious cross-generational characteristics and technical breakpoint.
On the core side, reusing the 5G core network will hinder the innovation in AI. We should use Agentic-AI based technology to re-architect 6G Core that goes beyond 5G Service-Based Architecture and support the foundational capabilities of AI, Sensing and NTN , and thus evolve towards the Application Driven Network .
In terms of terminal evolution, 6G user device calls for a breakthrough to lead the success of the entire industry chain.
It is the law of the mobile industry to drive the evolution of the market with the pioneering technology. The 6G networks and 6G terminals must meet the requirements of consumers and vertical industries in the 6G market phase from 2030 to 2040.
Currently, smartphones are evolving to AI terminals to usher in the mobile AI era. In post-MBB era, breakthroughs in terminal technologies will be the key to the evolution of the mobile industry. Therefore, 6G user device calls for a breakthrough towards “Full-AI”, thus to drive 6G network upgrade and the success of the entire industry ecosystem.
In terms of technology development, AI will become a key enabler for 6G with network paradigm shifting.
Twenty years ago, the Internet was the enabler of the technology innovations. Mobile communications embraced the Internet and achieved great business success. Today, AI maybe the disruptive enabler of the latest technology innovations.
6G should embrace the AI revolution with a quantum leap. However, 6G networks should not be limited to generative AI, Artificial General Intelligence (AGI) and Embodiment-AI are the main directions of future AI development. Therefore, AGI should run through the whole process of sensing, reasoning, decision, and action of terminals, wireless networks, and core networks of 6G, to welcome the arrival of a new network paradigm.
At the end, Dr. Tong Wen emphasized the relationship between 5G and 6G: “The global 5G deployment is on the rise and evolving to 5G-Advanced, which not only meets the current requirements of operators, but also protects their investment. Therefore, 6G technologies should not overlap with 5G in technologies and market space. The specifications, technologies, and architecture of 6G must be based on the scenarios and requirements from 2030 to 2040. We should focus on true generational technology disruption, embrace the new opportunities brought by AI, expand the mobile industry in the next generation.”
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Artificial Intelligence
How AIoT shapes the future of mobility: Hikvision at ITS World Congress 2024
HANGZHOU, China, Sept. 27, 2024 /PRNewswire/ — Hikvision made a significant impact at the ITS World Congress in Dubai with its captivating theme, “Embrace AIoT for safer, smarter, and greener mobility.” Its booth became a hub of innovation, where visitors explored AIoT solutions that are reshaping the transportation landscape, sparking deep conversations on the future of urban mobility.
Road safety revolution: harnessing AIoT for secure transportation
Hikvision’s commitment to road safety was on full display at its booth through the impressive array of AIoT solutions designed to create secure and reliable traffic environments. The company’s technology provides 24/7 traffic monitoring, ensuring continuous oversight of motor vehicles, non-motorized vehicles, pedestrians and environmental factors. This comprehensive, real-time information collection enables traffic managers to prevent accidents and enhance road safety. Among the showcased products was the 20 MP IR ANPR Checkpoint Capture Unit, renowned for its high-definition capture capabilities, bolstering traffic safety measures.
A standout innovation was the integration of advanced radar and camera technologies, ensuring uninterrupted, comprehensive detection even in adverse weather conditions. The Radar-Video Fusion Incident Detection Cameras, featured prominently in the product experience area, enable early detection and warning of potential hazards. They are particularly effective in challenging situations such as curved roads, blind spots at intersections, and obstacles beyond visual range.
Attendees also engaged with onboard monitoring products on the simulated bus, including dome network cameras, which is designed to enhance passenger safety. Driving assistance products, such as the Driver Status Monitor (DSM), were demonstrated to mitigate unsafe driving behaviors and ensure safer journeys.
Urban mobility redefined: smart traffic innovations
In the realm of smarter mobility, Hikvision showcased its multidimensional sensing technology, which integrates visible light sensors, infrared sensors, radar, and sonar. This technology expands perception capabilities, significantly improving traffic management and situational awareness. The use of AI-powered comprehensive sensing elevates incident monitoring and violation detection to unprecedented levels of accuracy and efficiency.
A major attraction was the Radar-Video Fusion TandemVu PTZ Camera, which integrates millimeter-wave radar with high-resolution cameras for extensive traffic detection and data analysis. AI-based algorithms combine these two systems to enhance target information, detecting up to 16 types of incidents. This leads to the development of a large-scale fusion model that merges spatial physical data with image semantic information. The result is ultra-long-range perception, achieving over 95% accuracy in vehicle trajectory detection. This robust system improves traffic violation management and optimizes traffic flow, significantly enhancing road efficiency.
At the simulated bus station, visitors observed how AI-assisted people counting automated the collection of passenger flow statistics at peak stop hours and bus line frequency during busy periods. Paired with smart bus stop digital signage, the solution improves bus service quality, operational efficiency, passenger experience, and overall public transport effectiveness.
Sustainable transportation: leading the charge for greener cities
Hikvision’s commitment to sustainable urban mobility was evident through its innovative green wave technology and eco-friendly checkpoint solutions. Green wave technology efficiently manages traffic flow to reduce congestion and lower carbon emissions, aligning with global sustainability goals. Visitors were particularly impressed by a case study showcasing a green wave solution implemented in Zhoushan, China. Over a stretch of 21 kilometers and 34 intersections, this main road cut travel times by 50%.
The use of DarkFighterX technology in checkpoint cameras also received significant attention. This technology senses both visible and invisible light, resulting in more accurate and realistic images. It enhances traffic violation enforcement efficiency while minimizing the need for high ambient light levels, thus reducing light pollution. The 9M DarkfightX ANPR Checkpoint Camera exemplified this dedication to environmental stewardship.
Frank Zhang, President of Hikvision MEA, remarked, “Hikvision supports sustainable urban planning by empowering traffic departments to address congestion and transportation challenges.” He further emphasized, “Our system’s openness fosters a secure and reliable platform for developing smart and green cities. Additionally, our solar technology is extensively utilized in remote areas, while our smart street lighting solutions reduce energy consumption by 20-30%, promoting intelligent urban transportation and advancing global sustainability objectives.”
Hikvision’s presence at the ITS World Congress in Dubai underscored its leadership in integrating AIoT technologies to drive safer, smarter, and greener mobility solutions. The engaging presentations and advanced product demonstrations captured significant attention from industry partners and customers, reaffirming the company’s role as a pioneer in shaping the future of urban transportation. As the world moves towards more intelligent and sustainable transportation systems, Hikvision remains at the forefront, embracing AIoT to create a safer, smarter, and greener future for all.
To find out more about Hikvision’s advanced traffic and public transport solutions, please explore the Hikvision official website.
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Artificial Intelligence
Anti-Drone Market worth $7.05 billion by 2029 – Exclusive Report by MarketsandMarkets™
DELRAY BEACH, Fla., Sept. 27, 2024 /PRNewswire/ — The global anti-drone market was valued at USD 2.16 billion in 2024 and is projected to reach USD 7.05 billion by 2029; it is expected to register a CAGR of 26.7% during the forecast period according to a new report by MarketsandMarkets™. Increasing government spending on counter-drone technologies, rising incidence of critical infrastructure security breaches by unauthorized drones, and surge in adoption of aerial remote sensing technologies to safeguard critical infrastructure are attributed to the demand for anti-drone.
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Browse in-depth TOC on “Anti-Drone Market” 178 – Tables61 – Figures253 – Pages
Anti-Drone Market Report Scope:
Report Coverage
Details
Market Revenue in 2024
$ 2.16 billion
Estimated Value by 2029
$ 7.05 billion
Growth Rate
Poised to grow at a CAGR of 26.7%
Market Size Available for
2020–2029
Forecast Period
2024–2029
Forecast Units
Value (USD Million/Billion)
Report Coverage
Revenue Forecast, Competitive Landscape, Growth Factors, and Trends
Segments Covered
By System Type, Application, Platform type, Vertical, and Region
Geographies Covered
North America, Europe, Asia Pacific, and Rest of World
Key Market Challenge
Vulnerability to hacking
Key Market Opportunities
Emphasis on improving unmanned aircraft systems technology
Key Market Drivers
Growing number of illicit activities
By System Type: Hybrid systems to account for the larger market share in the forecasted year.
The hybrid segment accounted for the largest share of the anti-drone market in 2029. The trends of integrating multiple anti-drone technologies are rising since they are most effective in detecting, tracking, and neutralizing drone threats. These systems merge electronic, kinetic, and lasers, providing a comprehensive defense solution against UAVs. Hybrid systems use electronic, kinetic, and laser-based countermeasures to offer optimum protection against drones. These systems are designed to detect, track, identify, categorize, and mitigate drones at operational wide ranges ranging from a few km up to tens of km.
By Platform: The ground-based segment accounted for the largest market share in the forecast year.
The ground-based segment will hold a major share of the anti-drone market in 2029. Many ground-based anti-drone systems use several electronic technologies, such as radar, IR sensors, acoustic systems, and RF & GNSS jammers. MESA radar solutions are used mostly for counter-UAS purposes, protecting critical infrastructure, military camps, and other security-sensitive sites from unauthorized drones. One such solution is EchoGuard, a ground-based airspace management solution that contains a software-defined 3D radar that can be specific to the site. This system can identify single or multiple off-chance drones, including swarms in unauthorized areas. They provide accurate and sustained airspace surveillance for the field of view (FOV) they are configured, and both human and AI-monitored visual checks. The system can be easily transported and integrated directly with the command-and-control centers or another identification sensor for portable use, and multiple units of the system can be combined to cover vast areas or lengths of borders. Major providers of ground-based counter-drone systems include companies like EchoDyne Corporation, DeTect, Meteksan Defense, and WhiteFox Defense. Acoustics-based Discovair G2 utilizes patented microphone arrays. With 128 interconnected microphone elements, the Discovair sensor units can establish azimuth and elevation to the target in real-time using advanced digital signal processing.
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By Region: Americas are expected to hold the largest share of the anti-drone market during the forecast period.
Americas is expected to capture the largest share in the anti-drone industry during the forecast period. The growth can be attributed to protecting crucial infrastructure in the region. Governments, particularly in the US, invest in anti-drone systems for military bases, borders, and critical infrastructure. For Instance, in April 2023, RTX secured a USD 237 million contract from the US Army to provide Ku-band Radio Frequency Sensors (KuRFS) and Coyote effectors. These systems are designed to detect and neutralize unmanned aircraft systems (UAS). The contract includes stationary and mobile systems and a specified quantity of effectors, all aimed at enhancing the Army’s operations within the US Central Command region.
Key Players-
The key companies offering anti-drone companies include RTX (US), Lockheed Martin Corporation (US), Leonardo S.p.A. (Italy), Thales (France), and IAI (Israel).
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