5G in Defense Market - 2021-2030:
The global 5G in Defense market valued $551 million in 2020 and is projected to reach $76,014.6 million in 2030, registering a CAGR of 67.7%.
The COVID-19 outbreak led to adverse economic situations across the world and especially impacted the deployment of high investment technologies such as the 5G in defense. The development and testing of 5G technologies for the defense sector were put on hold owing to adverse economic conditions and disruption in the supply chain of key components. The pandemic moderately impacted the communication systems providers and operators owing to delay in spectrum auctions, lag in regulatory timelines, limited workforce for the network roll-out, lowered capital expenditure, operating expenditure, and decline in technological developments. However, some countries such as the U.S. and China invested significantly in the deployment of 5G technology in the defense sector. With the initiation of vaccination across the globe and the resumption in efforts regarding the launch of 5G technologies across the globe, the 5G in defense market is expected to witness an increased demand soon.
5G or 5th generation mobile network has the capability to connect practically everyone and everything together comprising objects, devices, and machines. The deployment of 5G technology is gradually increasing across the globe. 5G will considerably increase the speed of data transfer and improve bandwidth over 4th generation or 4G technology, in turn supporting new military and commercial uses. The use of impressively fast 5G networks for the defense and security purposes could advance intelligence, surveillance, and reconnaissance (ISR) systems and processing; modernize logistics operations for improved efficiency, and develop new methods of command and control (C2); among others. Military equipment and technology companies will make use of 5G software and hardware for present and future systems, benefiting from valuable properties as quick response times and wide bandwidths that will soon make extremely fast transmission and reception of images demonstrating real-time battlefield scenarios possible.
Rise in investments by countries in 5G technologies is expected to propel the growth of the global 5Gin defense market during the forecast period. For instance, in October 2020, the U.S. Department of Defense announced $600 million for 5G test bed and experimentation undertakings at 5 U.S. military test locations. Over the years, the work will be expanded across several additional military bases.
The 5G in defense market is segmented into communication infrastructure, core network technology, network type, chipset, platform, and region. Based on communication infrastructure, the market is divided into small cell, macro cell, and radio access network (RAN). On the basis of core network technology, the market is categorized into software defined networking (SDN), fog computing (FC), mobile edge computing (MEC), and network functions virtualization (NFV). Depending on network type, it is fragmented into enhanced mobile broadband (eMBB), ultra-reliable low-latency communication (URLLC), and massive machine type communications (mMTC). On the basis of chipset, the market is classified into application specific integrated circuit (ASIC) chipset, Radio-Frequency Integrated Circuit (RFIC) chipset, and millimeter wave (mmWave) Chipset. Based on platform, the market is distributed into land, naval, and airborne. Region wise, the 5G in defense market is analyzed across North America, Europe, Asia-Pacific, and LAMEA.
Key players operating in the global 5G in defense market include Telefonaktiebolaget LM Ericsson, Huawei Investment & Holding Co., Ltd, Nokia Corporation, Samsung Electronics Co., Ltd, NEC Corporation, Thales Group, L3Harris Technologies, Inc., Raytheon Technologies Corporation, Ligado Networks, and Wind River Systems, Inc.
Increase in autonomous defense vehicles, drones, and robots
Autonomous vehicles, drones, and robots play a vital role in the defense industry. These are fully autonomous tools that employ telecommunication technology such as the 5G network, at the disposal of defense agencies to provide services in real time at dangerous, inconvenient, and impossible areas of operation namely remote surveillance for enemy infantry. Various countries across the globe have focused on the development of unmanned systems to be utilized in public and national safety applications. Multiple governments from developed and emerging nations such as the U.S., Russia, China, India, and others have invested billions of dollars toward autonomous defense projects. For instance, Europe launched a defense research and development program of €7.9 billion in January 2021 toward financing defense R&D projects.
The adoption of autonomous technologies helps in the reduction of operational costs and increases efficiency significantly. For instance, during the operation of a naval destroyer for a single day $700,000 are spent by the U.S. navy whereas in the case of an autonomous ship's operation costs would come down to $15,000 to $20,000 per day. Moreover, for increased efficiency; several nations around the world are deploying the use of 5G in the operation of autonomous defense vehicles, robots, and drones. For instance, U.S. ignite launched a technology pilot program in January 2021 for the 5G Living Lab at Marine Corps Air Station (MCAS) Miramar situated in San Diego. Moreover, several pilot projects aimed at the utilization of 5G in autonomous defense vehicles, drones, and robots are underway globally.
Rise in adoption of autonomous technology to improve the defense capabilities of the nation globally is anticipated to propel the growth of the global 5G in defense market during the forecast period.
Rise in support of government toward the development of 5G
5G helps governments across the world to provide secure, reliable, and agile safety for its civilian and property. These features motivate the governments to increase their support toward the development of 5G technology. For instance, National Communications Commission (NCC), Taiwan, announced an allocation of US$ 948.5 million as a subsidy for the deployment of a 5G network from 2021 to 2025 to five telecom operators. This indicates the positive intention of governments toward incentivizing the evolution of 5G technologies.
Encouragement of such as government subsidies, R&D grants for 5G suppliers, and others provided from governments aid the telecommunications companies and other companies associated with the 5G industry in establishing high-cost infrastructures and services to support the growth of 5G. Several companies namely, L3Harris Technologies, Inc., Raytheon Technologies Corporation, Telefonaktiebolaget LM Ericsson, and Nokia Corporation benefit from this move. For instance, the U.S. Department of Defense (DoD) increased funding for 5G telecommunications to US$430 million from US$200 million toward accelerated 5G equipment development for military and civilian use. Moreover, countries such as Brazil, China, and India are planning to implement 5G in private as well as government applications.
Government support augments the growth of the 5G market. The rise in initiatives taken by the governments worldwide is expected to increase the growth of the 5G in defense market during the forecast period.
Cybersecurity threats to 5G network
5G is a complex and onerous technology that involves the interconnection of multiple identical or non-identical devices. Different actors such as communication service providers (CSPs), network infrastructure providers, and virtual mobile network operators (VMNOs) are responsible for designing, implementing, and maintenance of 5G networks, synchronizing different priorities toward privacy and security policies among these actors will be a challenge. Moreover, 5G networks have smaller network coverage area when compared to 4G network consequently, increasing the need for multiple smaller antennas, which improve the precision of location tracking and can be further tapped and exploited from the antenna by the attacker to perform attacks such as a botnet, eavesdropping, worm propagation, network jamming, and personal attack.
5G network is ready to be rolled out at a mass scale by several nations, although, there have been various technological developments such as multiple-input multiple-output (MIMO), enhanced mobile broadband (eMBB), and others, several threats and vulnerabilities are yet to be resolved. For instance, researchers found that cybercriminals can attain device fingerprinting to carry out targeted attacks namely man-in-the-middle offenses in the 5G network. Moreover, the use of 5G in IoT devices reveals the exact identity of the device which further facilitates the conduction of a targeting attack. Furthermore, the use of technologies such as Software-Defined Networking (SDN) and Network Functions Virtualization (NFV) in the 5G network exposes more vulnerable points, which increase the chances of attacks such as Denial of Service (DoS) or Distributed Denial of Service (DDoS). For instance, Huawei Technologies Co., Ltd. was banned by the UK, the U.S., Australia, and New Zealand for the possibility of a state-sponsored hack via its 5G equipment. These hacks have an adverse effect on vital networks such as shutting down power stations, gaining access to confidential information, toolkit attacks, and others. These instances increase security concerns regarding military collaboration with 5G network vendors. These security and privacy concerns restrain the growth of the 5G in defense market.
Technological advancements in 5G network
The evolution of technologies around the world increased the demand for fast and reliable transmission networks to support the connection of advanced devices such as robots, sensors, drones, and autonomous vehicles used by defense agencies. 5G network offers real-time connectivity, machine-to-machine communication, high network speed, and other features, which aid in the interconnection of the smart devices used in surveillance and intelligence activities performed by the homeland security and intelligence agencies. Application of ultra-high frequency (UHF) radio spectrum with a frequency range from 300 MHz to 3 GHz in 5G network offers frequency hopping for tactical radios to be used by the military, federal agencies, and public agencies. For instance, modulation of sub 6GHz and mmWave 5G network can be used in border surveillance where high power and low-latency networks are required, and in smart bases where low power and long-range networks are required. Moreover, the development of small cell base stations helps in the expansion of wireless network capacity. Furthermore, the introduction of Network Functions Virtualization (NFV) at the edge and in the core of the 5G network, beam-forming antennas, 5G New Radio (NR) technology, Cellular Vehicle-To-Everything (C-V2X) technology and MIMO antennas aids in architecture development, increased coverage, enhanced communication and high throughput per connection in the radio network. 5G offers more immersive services such as mobile cloud, ultra-high-definition (UHD) 3D video, virtual reality, and augmented reality through the use of these technologies and hardware, which increases the productiveness of key defense mechanisms.
Technological advancements in the 5G network to increase the efficiency and productivity of military bases and defense operations offers lucrative market expansion opportunities for the 5G in defense market.
COVID-19 Impact Analysis
Key Benefits For Stakeholders
Key Market Segments
By Communication Infrastructure
By Core Network Technology
By Network Type
By Chipset
By Platform
By Region
Key Players
TABLE OF CONTENT
CHAPTER 1:INTRODUCTION
1.1.Report description
1.2.Key benefits for stakeholders
1.3.Key market segments
1.4.Research methodology
1.4.1.Primary research
1.4.2.Secondary research
1.4.3.Analyst tools and models
CHAPTER 2:EXECUTIVE SUMMARY
2.1.CXO perspective
CHAPTER 3:MARKET OVERVIEW
3.1.Market definition and scope
3.2.Key findings
3.2.1.Top impacting factors
3.2.2.Top investment pockets
3.2.3.Top winning strategies
3.3.Porter’s five forces analysis
3.4.Key player positioning, 2020
3.5.Market dynamics
3.5.1.Drivers
3.5.1.1.Increase in autonomous defense vehicles, drones and robots
3.5.1.2.Rise in support of government towards the development of 5G
3.5.1.3.Increase in demand for surveillance activities
3.5.2.Restraints
3.5.2.1.Cybersecurity threats to 5G network
3.5.2.2.High infrastructure costs for the deployment of 5G
3.5.3.Opportunities
3.5.3.1.Technological advancements in 5G network
3.5.3.2.Upgradation of military bases
3.6.COVID-19 impact analysis
3.6.1.Evolution of outbreak
3.6.2.Micro economic impact analysis
3.6.2.1.Consumer trends
3.6.2.2.Technology trends
3.6.2.3.Regulatory trends
3.6.3.Macro-economic impact analysis
3.6.3.1.GDP
3.6.3.2.Import/export analysis
3.6.3.3.Employment index
3.6.3.4.Macro-economic Indicators Projections
3.6.4.Impact on 5G in defense Industry
CHAPTER 4:GLOBAL 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE
4.1.Overview
4.2.Small cell
4.2.1.Key market trends, growth factors, and opportunities
4.2.2.Market size and forecast, by region
4.2.3.Market analysis, by country
4.3.Macro Cell
4.3.1.Key market trends, growth factors, and opportunities
4.3.2.Market size and forecast, by region
4.3.3.Market analysis, by country
4.4.Radio Access Network (RAN)
4.4.1.Key market trends, growth factors, and opportunities
4.4.2.Market size and forecast, by region
4.4.3.Market analysis, by country
CHAPTER 5:GLOBAL 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY
5.1.Overview
5.2.Software-defined networking (SDN)
5.2.1.Key market trends, growth factors, and opportunities
5.2.2.Market size and forecast, by region
5.2.3.Market analysis, by country
5.3.Fog computing (FC)
5.3.1.Key market trends, growth factors, and opportunities
5.3.2.Market size and forecast, by region
5.3.3.Market analysis, by country
5.4.Mobile edge computing (MEC)
5.4.1.Key market trends, growth factors, and opportunities
5.4.2.Market size and forecast, by region
5.4.3.Market analysis, by country
5.5.Network functions virtualization (NFV)
5.5.1.Key market trends, growth factors, and opportunities
5.5.2.Market size and forecast, by region
5.5.3.Market analysis, by country
CHAPTER 6:GLOBAL 5G IN DEFENSE MARKET, BY NETWORK TYPE
6.1.Overview
6.2.Enhanced mobile broadband (eMBB)
6.2.1.Key market trends, growth factors, and opportunities
6.2.2.Market size and forecast, by region
6.2.3.Market analysis, by country
6.3.Ultra-reliable low-latency communications (URLLC)
6.3.1.Key market trends, growth factors, and opportunities
6.3.2.Market size and forecast, by region
6.3.3.Market analysis, by country
6.4.Massive machine type communications (MMTC)
6.4.1.Key market trends, growth factors, and opportunities
6.4.2.Market size and forecast, by region
6.4.3.Market analysis, by country
CHAPTER 7:GLOBAL 5G IN DEFENSE MARKET, BY CHIPSET
7.1.Overview
7.2.Application-specific integrated circuit (ASIC) chipset
7.2.1.Key market trends, growth factors, and opportunities
7.2.2.Market size and forecast, by region
7.2.3.Market analysis, by country
7.3.Radio frequency integrated circuit (RFIC) chipset
7.3.1.Key market trends, growth factors, and opportunities
7.3.2.Market size and forecast, by region
7.3.3.Market analysis, by country
7.4.Millimeter wave (mmWave) chipset
7.4.1.Key market trends, growth factors, and opportunities
7.4.2.Market size and forecast, by region
7.4.3.Market analysis, by country
CHAPTER 8:GLOBAL 5G IN DEFENSE MARKET, BY PLATFORM
8.1.Overview
8.2.Land
8.2.1.Key market trends, growth factors, and opportunities
8.2.2.Market size and forecast, by region
8.2.3.Market analysis, by country
8.3.Naval
8.3.1.Key market trends, growth factors, and opportunities
8.3.2.Market size and forecast, by region
8.3.3.Market analysis, by country
8.4.Airborne
8.4.1.Key market trends, growth factors, and opportunities
8.4.2.Market size and forecast, by region
8.4.3.Market analysis, by country
CHAPTER 9:5G IN DEFENSE MARKET, BY REGION
9.1.Overview
9.2.North America
9.2.1.Key market trends, growth factors, and opportunities
9.2.2.Market size and forecast, by Communication Infrastructure
9.2.3.Market size and forecast, by Core Network Technology
9.2.4.Market size and forecast, by Network Type
9.2.5.Market size and forecast, by Chipset
9.2.6.Market size and forecast, by Platform
9.2.7.Market size and forecast, by country
9.2.7.1.U.S.
9.2.7.1.1.Market size and forecast, by Communication Infrastructure
9.2.7.1.2.Market size and forecast, by Core Network Technology
9.2.7.1.3.Market size and forecast, by Network Type
9.2.7.1.4.Market size and forecast, by Chipset
9.2.7.1.5.Market size and forecast, by Platform
9.2.7.2.Canada
9.2.7.2.1.Market size and forecast, by Communication Infrastructure
9.2.7.2.2.Market size and forecast, by Core Network Technology
9.2.7.2.3.Market size and forecast, by Network Type
9.2.7.2.4.Market size and forecast, by Chipset
9.2.7.2.5.Market size and forecast, by Platform
9.3.Europe
9.3.1.Key market trends, growth factors, and opportunities
9.3.2.Market size and forecast, by Communication Infrastructure
9.3.3.Market size and forecast, by Core Network Technology
9.3.4.Market size and forecast, by Network Type
9.3.5.Market size and forecast, by Chipset
9.3.6.Market size and forecast, by Platform
9.3.7.Market size and forecast, by country
9.3.7.1.Germany
9.3.7.1.1.Market size and forecast, by Communication Infrastructure
9.3.7.1.2.Market size and forecast, by Core Network Technology
9.3.7.1.3.Market size and forecast, by Network Type
9.3.7.1.4.Market size and forecast, by Chipset
9.3.7.1.5.Market size and forecast, by Platform
9.3.7.2.UK
9.3.7.2.1.Market size and forecast, by Communication Infrastructure
9.3.7.2.2.Market size and forecast, by Core Network Technology
9.3.7.2.3.Market size and forecast, by Network Type
9.3.7.2.4.Market size and forecast, by Chipset
9.3.7.2.5.Market size and forecast, by Platform
9.3.7.3.France
9.3.7.3.1.Market size and forecast, by Communication Infrastructure
9.3.7.3.2.Market size and forecast, by Core Network Technology
9.3.7.3.3.Market size and forecast, by Network Type
9.3.7.3.4.Market size and forecast, by Chipset
9.3.7.3.5.Market size and forecast, by Platform
9.3.7.4.Russia
9.3.7.4.1.Market size and forecast, by Communication Infrastructure
9.3.7.4.2.Market size and forecast, by Core Network Technology
9.3.7.4.3.Market size and forecast, by Network Type
9.3.7.4.4.Market size and forecast, by Chipset
9.3.7.4.5.Market size and forecast, by Platform
9.3.7.5.Rest of Europe
9.3.7.5.1.Market size and forecast, by Communication Infrastructure
9.3.7.5.2.Market size and forecast, by Core Network Technology
9.3.7.5.3.Market size and forecast, by Network Type
9.3.7.5.4.Market size and forecast, by Chipset
9.3.7.5.5.Market size and forecast, by Platform
9.4.Asia-Pacific
9.4.1.Key market trends, growth factors, and opportunities
9.4.2.Market size and forecast, by Communication Infrastructure
9.4.3.Market size and forecast, by Core Network Technology
9.4.4.Market size and forecast, by Network Type
9.4.5.Market size and forecast, by Chipset
9.4.6.Market size and forecast, by Platform
9.4.7.Market size and forecast, by country
9.4.7.1.China
9.4.7.1.1.Market size and forecast, by Communication Infrastructure
9.4.7.1.2.Market size and forecast, by Core Network Technology
9.4.7.1.3.Market size and forecast, by Network Type
9.4.7.1.4.Market size and forecast, by Chipset
9.4.7.1.5.Market size and forecast, by Platform
9.4.7.2.Japan
9.4.7.2.1.Market size and forecast, by Communication Infrastructure
9.4.7.2.2.Market size and forecast, by Core Network Technology
9.4.7.2.3.Market size and forecast, by Network Type
9.4.7.2.4.Market size and forecast, by Chipset
9.4.7.2.5.Market size and forecast, by Platform
9.4.7.3.India
9.4.7.3.1.Market size and forecast, by Communication Infrastructure
9.4.7.3.2.Market size and forecast, by Core Network Technology
9.4.7.3.3.Market size and forecast, by Network Type
9.4.7.3.4.Market size and forecast, by Chipset
9.4.7.3.5.Market size and forecast, by Platform
9.4.7.4.South Korea
9.4.7.4.1.Market size and forecast, by Communication Infrastructure
9.4.7.4.2.Market size and forecast, by Core Network Technology
9.4.7.4.3.Market size and forecast, by Network Type
9.4.7.4.4.Market size and forecast, by Chipset
9.4.7.4.5.Market size and forecast, by Platform
9.4.7.5.Rest of Asia-Pacific
9.4.7.5.1.Market size and forecast, by Communication Infrastructure
9.4.7.5.2.Market size and forecast, by Core Network Technology
9.4.7.5.3.Market size and forecast, by Network Type
9.4.7.5.4.Market size and forecast, by Chipset
9.4.7.5.5.Market size and forecast, by Platform
9.5.LAMEA
9.5.1.Key market trends, growth factors, and opportunities
9.5.2.Market size and forecast, by Communication Infrastructure
9.5.3.Market size and forecast, by Core Network Technology
9.5.4.Market size and forecast, by Network Type
9.5.5.Market size and forecast, by Chipset
9.5.6.Market size and forecast, by Platform
9.5.7.Market size and forecast, by country
9.5.7.1.Latin America
9.5.7.1.1.Market size and forecast, by Communication Infrastructure
9.5.7.1.2.Market size and forecast, by Core Network Technology
9.5.7.1.3.Market size and forecast, by Network Type
9.5.7.1.4.Market size and forecast, by Chipset
9.5.7.1.5.Market size and forecast, by Platform
9.5.7.2.Middle East
9.5.7.2.1.Market size and forecast, by Communication Infrastructure
9.5.7.2.2.Market size and forecast, by Core Network Technology
9.5.7.2.3.Market size and forecast, by Network Type
9.5.7.2.4.Market size and forecast, by Chipset
9.5.7.2.5.Market size and forecast, by Platform
9.5.7.3.Africa
9.5.7.3.1.Market size and forecast, by Communication Infrastructure
9.5.7.3.2.Market size and forecast, by Core Network Technology
9.5.7.3.3.Market size and forecast, by Network Type
9.5.7.3.4.Market size and forecast, by Chipset
9.5.7.3.5.Market size and forecast, by Platform
CHAPTER 10:COMPANY PROFILES
10.1.TELEFONAKTIEBOLAGET LM ERICSSON
10.1.1.Company overview
10.1.2.Company snapshot
10.1.3.Operating business segments
10.1.4.Product portfolio
10.1.5.Business performance
10.1.6.Key strategic moves and developments
10.2.HUAWEI INVESTMENT & HOLDING CO., LTD.
10.2.1.Company overview
10.2.2.Company snapshot
10.2.3.Operating business segments
10.2.4.Product portfolio
10.2.5.Business performance
10.2.6.Key strategic moves and developments
10.3.NOKIA CORPORATION
10.3.1.Company overview
10.3.2.Company snapshot
10.3.3.Operating business segments
10.3.4.Product portfolio
10.3.5.Business performance
10.3.6.Key strategic moves and developments
10.4.SAMSUNG ELECTRONICS CO., LTD.
10.4.1.Company overview
10.4.2.Company snapshot
10.4.3.Operating business segments
10.4.4.Product portfolio
10.4.5.Business performance
10.4.6.Key strategic moves and developments
10.5.NEC Corporation
10.5.1.Company overview
10.5.2.Company snapshot
10.5.3.Operating business segments
10.5.4.Product portfolio
10.5.5.Business performance
10.6.THALES GROUP
10.6.1.Company overview
10.6.2.Company snapshot
10.6.3.Operating business segments
10.6.4.Product portfolio
10.6.5.Business performance
10.6.6.Key strategic moves and developments
10.7.L3HARRIS TECHNOLOGIES, INC.
10.7.1.Company overview
10.7.2.Company snapshot
10.7.3.Operating business segments
10.7.4.Product portfolio
10.7.5.Business performance
10.8.RAYTHEON TECHNOLOGIES CORPORATION
10.8.1.Company overview
10.8.2.Company snapshot
10.8.3.Operating business segments
10.8.4.Product portfolio
10.8.5.Business performance
10.8.6.Key strategic moves and developments
10.9.LIGADO NETWORKS
10.9.1.Company overview
10.9.2.Company snapshot
10.9.3.Product portfolio
10.10.WIND RIVER SYSTEMS, INC.
10.10.1.Company overview
10.10.2.Company snapshot
10.10.3.Product portfolio
10.10.4.Key strategic moves and developments
LIST OF TABLES & FIGURES
TABLE 01.MACRO-ECONOMIC INDICATORS PROJECTIONS
TABLE 02.5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 03.5G IN DEFENSE MARKET FOR SMALL CELL, BY REGION 2020–2030 ($MILLION)
TABLE 04.5G IN DEFENSE MARKET FOR MACRO CELL, BY REGION 2020–2030 ($MILLION)
TABLE 05.5G IN DEFENSE MARKET FOR RADIO ACCESS NETWORK (RAN), BY REGION 2020–2030 ($MILLION)
TABLE 06.5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 07.5G IN DEFENSE MARKET FOR SOFTWARE-DEFINED NETWORKING (SDN), BY REGION 2020–2030 ($MILLION)
TABLE 08.5G IN DEFENSE MARKET FOR FOG COMPUTING (FC), BY REGION 2020–2030 ($MILLION)
TABLE 09.5G IN DEFENSE MARKET FOR MOBILE EDGE COMPUTING (MEC), BY REGION 2020–2030 ($MILLION)
TABLE 10.5G IN DEFENSE MARKET FOR NETWORK FUNCTIONS VIRTUALIZATION (NFV), BY REGION 2020–2030 ($MILLION)
TABLE 11.5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 12.5G IN DEFENSE MARKET FOR ENHANCED MOBILE BROADBAND (EMBB), BY REGION 2020–2030 ($MILLION)
TABLE 13.5G IN DEFENSE MARKET FOR ULTRA-RELIABLE LOW-LATENCY COMMUNICATIONS (URLLC), BY REGION 2020–2030 ($MILLION)
TABLE 14.5G IN DEFENSE MARKET FOR MASSIVE MACHINE TYPE COMMUNICATIONS (MMTC), BY REGION 2020–2030 ($MILLION)
TABLE 15.5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 16.5G IN DEFENSE MARKET FOR APPLICATION-SPECIFIC INTEGRATED CIRCUIT (ASIC) CHIPSET, BY REGION 2020–2030 ($MILLION)
TABLE 17.5G IN DEFENSE MARKET FOR RADIO FREQUENCY INTEGRATED CIRCUIT (RFIC) CHIPSET, BY REGION 2020–2030 ($MILLION)
TABLE 18.5G IN DEFENSE MARKET FOR MILLIMETER WAVE (MMWAVE) CHIPSET, BY REGION 2020–2030 ($MILLION)
TABLE 19.5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 20.5G IN DEFENSE MARKET FOR LAND, BY REGION 2020–2030 ($MILLION)
TABLE 21.5G IN DEFENSE MARKET FOR NAVAL, BY REGION 2020–2030 ($MILLION)
TABLE 22.5G IN DEFENSE MARKET FOR AIRBORNE, BY REGION 2020–2030 ($MILLION)
TABLE 23.5G IN DEFENSE MARKET, BY REGION 2020–2030 ($MILLION)
TABLE 24.NORTH AMERICA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 25.NORTH AMERICA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 26.NORTH AMERICA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 27.NORTH AMERICA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 28.NORTH AMERICA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 29.U.S. 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 30.U.S. 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 31.U.S. 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 32.U.S. 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 33.U.S. 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 34.CANADA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 35.CANADA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 36.CANADA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 37.CANADA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 38.CANADA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 39.EUROPE 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 40.EUROPE 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 41.EUROPE 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 42.EUROPE 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 43.EUROPE 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 44.GERMANY 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 45.GERMANY 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 46.GERMANY 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 47.GERMANY 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 48.GERMANY 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 49.UK 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 50.UK 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 51.UK 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 52.UK 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 53.UK 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 54.FRANCE 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 55.FRANCE 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 56.FRANCE 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 57.FRANCE 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 58.FRANCE 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 59.RUSSIA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 60.RUSSIA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 61.RUSSIA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 62.RUSSIA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 63.RUSSIA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 64.REST OF EUROPE 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 65.REST OF EUROPE 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 66.REST OF EUROPE 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 67.REST OF EUROPE 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 68.REST OF EUROPE 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 69.ASIA PACIFIC 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 70.ASIA PACIFIC 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 71.ASIA PACIFIC 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 72.ASIA PACIFIC 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 73.ASIA PACIFIC 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 74.CHINA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 75.CHINA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 76.CHINA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 77.CHINA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 78.CHINA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 79.JAPAN 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 80.JAPAN 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 81.JAPAN 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 82.JAPAN 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 83.JAPAN 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 84.INDIA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 85.INDIA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 86.INDIA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 87.INDIA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 88.INDIA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 89.SOUTH KOREA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 90.SOUTH KOREA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 91.SOUTH KOREA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 92.SOUTH KOREA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 93.SOUTH KOREA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 94.REST OF ASIA PACIFIC 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 95.REST OF ASIA PACIFIC 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 96.REST OF ASIA PACIFIC 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 97.REST OF ASIA PACIFIC 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 98.REST OF ASIA PACIFIC 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 99.LATIN AMERICA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 100.LATIN AMERICA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 101.LATIN AMERICA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 102.LATIN AMERICA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 103.LATIN AMERICA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 104.LATIN AMERICA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 105.LATIN AMERICA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 106.LATIN AMERICA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 107.LATIN AMERICA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 108.LATIN AMERICA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 109.MIDDLE EAST 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 110.MIDDLE EAST 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 111.MIDDLE EAST 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 112.MIDDLE EAST 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 113.MIDDLE EAST 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 114.AFRICA 5G IN DEFENSE MARKET, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 ($MILLION)
TABLE 115.AFRICA 5G IN DEFENSE MARKET, BY CORE NETWORK TECHNOLOGY, 2020–2030 ($MILLION)
TABLE 116.AFRICA 5G IN DEFENSE MARKET, BY NETWORK TYPE, 2020–2030 ($MILLION)
TABLE 117.AFRICA 5G IN DEFENSE MARKET, BY CHIPSET, 2020–2030 ($MILLION)
TABLE 118.AFRICA 5G IN DEFENSE MARKET, BY PLATFORM, 2020–2030 ($MILLION)
TABLE 119.TELEFONAKTIEBOLAGET LM ERICSSON: COMPANY SNAPSHOT
TABLE 120.TELEFONAKTIEBOLAGET LM ERICSSON: OPERATING SEGMENTS
TABLE 121.TELEFONAKTIEBOLAGET LM ERICSSON: PRODUCT PORTFOLIO
TABLE 122.TELEFONAKTIEBOLAGET LM ERICSSON: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 123.HUAWEI INVESTMENT & HOLDING CO., LTD.: COMPANY SNAPSHOT
TABLE 124.HUAWEI INVESTMENT & HOLDING CO., LTD.: OPERATING SEGMENTS
TABLE 125.HUAWEI INVESTMENT & HOLDING CO., LTD.: PRODUCT PORTFOLIO
TABLE 126.HUAWEI INVESTMENT & HOLDING CO., LTD.: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 127.NOKIA CORPORATION: COMPANY SNAPSHOT
TABLE 128.NOKIA: OPERATING SEGMENTS
TABLE 129.NOKIA CORPORATION: PRODUCT PORTFOLIO
TABLE 130.NOKIA CORPORATION: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 131.SAMSUNG ELECTRONICS CO., LTD.: COMPANY SNAPSHOT
TABLE 132.SAMSUNG ELECTRONICS CO., LTD.: OPERATING SEGMENTS
TABLE 133.SAMSUNG ELECTRONICS CO., LTD.: PRODUCT PORTFOLIO
TABLE 134.SAMSUNG ELECTRONICS CO., LTD.: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 135.NEC CORPORATION: COMPANY SNAPSHOT
TABLE 136.NEC CORPORATION: OPERATING SEGMENTS
TABLE 137.NEC CORPORATION: PRODUCT PORTFOLIO
TABLE 138.THALES GROUP: COMPANY SNAPSHOT
TABLE 139.THALES GROUP: OPERATING SEGMENTS
TABLE 140.THALES GROUP: PRODUCT PORTFOLIO
TABLE 141.THALES GROUP: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 142.L3HARRIS TECHNOLOGIES, INC.: COMPANY SNAPSHOT
TABLE 143.L3HARRIS TECHNOLOGIES, INC.: OPERATING SEGMENTS
TABLE 144.L3HARRIS TECHNOLOGIES, INC.: PRODUCT PORTFOLIO
TABLE 145.RAYTHEON TECHNOLOGIES CORPORATION: COMPANY SNAPSHOT
TABLE 146.RAYTHEON TECHNOLOGIES CORPORATION: OPERATING SEGMENTS
TABLE 147.RAYTHEON TECHNOLOGIES CORPORATION: PRODUCT PORTFOLIO
TABLE 148.RAYTHEON TECHNOLOGIES CORPORATION: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 149.LIGADO NETWORKS: COMPANY SNAPSHOT
TABLE 150.LIGADO NETWORKS: PRODUCT PORTFOLIO
TABLE 151.WIND RIVER SYSTEMS, INC.: COMPANY SNAPSHOT
TABLE 152.LIGADO NETWORKS: PRODUCT PORTFOLIO
TABLE 153.WIND RIVER SYSTEMS, INC.: KEY STRATEGIC MOVES AND DEVELOPMENTS
LIST OF FIGURES
FIGURE 01.KEY MARKET SEGMENTS
FIGURE 02.EXECUTIVE SUMMARY
FIGURE 03.EXECUTIVE SUMMARY
FIGURE 04.TOP IMPACTING FACTORS
FIGURE 05.TOP INVESTMENT POCKETS
FIGURE 06.TOP WINNING STRATEGIES, BY YEAR, 2018–2021*
FIGURE 07.TOP WINNING STRATEGIES, BY DEVELOPMENT, 2018–2020*
FIGURE 08.TOP WINNING STRATEGIES, BY COMPANY, 2018–2021*
FIGURE 09.LOW-TO-HIGH BARGAINING POWER OF SUPPLIERS
FIGURE 10.MODERATE-TO-HIGH THREAT OF NEW ENTRANTS
FIGURE 11.LOW – TO- MODERATE THREAT OF SUBSTITUTES
FIGURE 12.LOW -TO-HIGH INTENSITY OF RIVALRY
FIGURE 13.LOW-TO-MODERATE BARGAINING POWER OF BUYERS
FIGURE 14.KEY PLAYER POSITIONING (2020)
FIGURE 15.5G IN DEFENSE MARKET SHARE, BY COMMUNICATION INFRASTRUCTURE, 2020–2030 (%)
FIGURE 16.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR SMALL CELL, BY COUNTRY, 2020 & 2030 (%)
FIGURE 17.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR MACRO CELL, BY COUNTRY, 2020 & 2030 (%)
FIGURE 18.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR RADIO ACCESS NETWORK (RAN), BY COUNTRY, 2020 & 2030 (%)
FIGURE 19.5G IN DEFENSE MARKET SHARE, BY CORE NETWORK TECHNOLOGY, 2020–2030 (%)
FIGURE 20.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR SOFTWARE-DEFINED NETWORKING (SDN), BY COUNTRY, 2020 & 2030 (%)
FIGURE 21.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR FOG COMPUTING (FC), BY COUNTRY, 2020 & 2030 (%)
FIGURE 22.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR MOBILE EDGE COMPUTING (MEC), BY COUNTRY, 2020 & 2030 (%)
FIGURE 23.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR NETWORK FUNCTIONS VIRTUALIZATION (NFV), BY COUNTRY, 2020 & 2030 (%)
FIGURE 24.5G IN DEFENSE MARKET SHARE, BY NETWORK TYPE, 2020–2030 (%)
FIGURE 25.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR ENHANCED MOBILE BROADBAND (EMBB), BY COUNTRY, 2020 & 2030 (%)
FIGURE 26.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR ULTRA-RELIABLE LOW-LATENCY COMMUNICATIONS (URLLC), BY COUNTRY, 2020 & 2030 (%)
FIGURE 27.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR MASSIVE MACHINE TYPE COMMUNICATIONS (MMTC), BY COUNTRY, 2020 & 2030 (%)
FIGURE 28.5G IN DEFENSE MARKET SHARE, BY CHIPSET, 2020–2030 (%)
FIGURE 29.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR APPLICATION-SPECIFIC INTEGRATED CIRCUIT (ASIC) CHIPSET, BY COUNTRY, 2020 & 2030 (%)
FIGURE 30.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR RADIO FREQUENCY INTEGRATED CIRCUIT (RFIC) CHIPSET, BY COUNTRY, 2020 & 2030 (%)
FIGURE 31.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR MILLIMETER WAVE (MMWAVE) CHIPSET, BY COUNTRY, 2020 & 2030 (%)
FIGURE 32.5G IN DEFENSE MARKET SHARE, BY PLATFORM, 2020–2030 (%)
FIGURE 33.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR LAND, BY COUNTRY, 2020 & 2030 (%)
FIGURE 34.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR NAVAL, BY COUNTRY, 2020 & 2030 (%)
FIGURE 35.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET FOR AIRBORNE, BY COUNTRY, 2020 & 2030 (%)
FIGURE 36.5G IN DEFENSE MARKET, BY REGION, 2020–2030 (%)
FIGURE 37.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET, BY COUNTRY, 2020–2030 (%)
FIGURE 38.U.S. 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 39.CANADA 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 40.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET, BY COUNTRY, 2020–2030 (%)
FIGURE 41.GERMANY 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 42.UK 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 43.FRANCE 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 44.RUSSIA 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 45.REST OF EUROPE 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 46.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET, BY COUNTRY, 2020–2030 (%)
FIGURE 47.CHINA 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 48.JAPAN 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 49.INDIA 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 50.SOUTH KOREA 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 51.REST OF ASIA PACIFIC 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 52.COMPARATIVE SHARE ANALYSIS OF 5G IN DEFENSE MARKET, BY COUNTRY, 2020–2030 (%)
FIGURE 53.LATIN AMERICA 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 54.MIDDLE EAST 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 55.AFRICA 5G IN DEFENSE MARKET, 2020–2030 ($MILLION)
FIGURE 56.TELEFONAKTIEBOLAGET LM ERICSSON: REVENUE, 2017–2019 ($MILLION)
FIGURE 57.TELEFONAKTIEBOLAGET LM ERICSSON: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 58.TELEFONAKTIEBOLAGET LM ERICSSON: REVENUE SHARE BY REGION, 2019 (%)
FIGURE 59.HUAWEI INVESTMENT & HOLDING CO., LTD.: REVENUE, 2017–2019 ($MILLION)
FIGURE 60.HUAWEI INVESTMENT & HOLDING CO., LTD.: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 61.HUAWEI INVESTMENT & HOLDING CO., LTD.: REVENUE SHARE BY REGION, 2019 (%)
FIGURE 62.NOKIA CORPORATION: REVENUE, 2017–2019 ($MILLION)
FIGURE 63.NOKIA CORPORATION: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 64.NOKIA CORPORATION: REVENUE SHARE BY REGION, 2019 (%)
FIGURE 65.SAMSUNG ELECTRONICS CO., LTD.: REVENUE, 2017–2019 ($MILLION)
FIGURE 66.SAMSUNG ELECTRONICS CO., LTD.: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 67.SAMSUNG ELECTRONICS CO., LTD.: REVENUE SHARE BY REGION, 2019 (%)
FIGURE 68.NEC CORPORATION: REVENUE, 2017–2019 ($MILLION)
FIGURE 69.NEC CORPORATION: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 70.NEC CORPORATION: REVENUE SHARE BY REGION, 2019 (%)
FIGURE 71.THALES GROUP: REVENUE, 2017–2019 ($MILLION)
FIGURE 72.THALES GROUP: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 73.THALES GROUP: REVENUE SHARE BY REGION, 2019 (%)
FIGURE 74.L3HARRIS TECHNOLOGIES, INC.: REVENUE, 2017–2019 ($MILLION)
FIGURE 75.L3HARRIS TECHNOLOGIES, INC.: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 76.L3HARRIS TECHNOLOGIES, INC.: REVENUE SHARE BY REGION, 2019 (%)
FIGURE 77.RAYTHEON TECHNOLOGIES CORPORATION: REVENUE, 2017–2019 ($MILLION)
FIGURE 78.RAYTHEON TECHNOLOGIES CORPORATION: REVENUE SHARE BY SEGMENT, 2019 (%)
FIGURE 79.RAYTHEON TECHNOLOGIES CORPORATION: REVENUE SHARE BY REGION, 2019 (%)
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