5G in Defense Market By Communication Infrastructure (Small Cell, Macro Cell, Radio Access Network) By Core Network Technology (Software-defined Networking, Fog Computing, Mobile Edge Computing, Network Functions Virtualizations) By Network Type (Enhanced Mobile Broadband {eMBB}, Ultra-Reliable Low-Latency Communications {URLLC}, Massive Machine Type Communications {MMTC}) By Chipset (Application-Specific Integrated Circuit (ASIC) Chipset, Radio Frequency Integrated Circuit (RFIC) Chipset, Millimeter Wave (mmWave) Chipset) By Platform (Land, Naval, Airborne) By Operational Frequency (High, Low, Medium) By End Use (Aircraft, Airport, Homeland Security) By Company, By Region, Forecast & Opportunities, 2021-2031F

Forecast Period	2027-2031
Market Size (2025)	USD 2.26 Billion
CAGR (2026-2031)	20.12%
Fastest Growing Segment	Airport
Largest Market	North America
Market Size (2031)	USD 6.79 Billion

Market Overview

The Global 5G in Defense Market will grow from USD 2.26 Billion in 2025 to USD 6.79 Billion by 2031 at a 20.12% CAGR. The Global 5G in Defense Market involves the utilization of fifth-generation cellular network technology to provide high-speed, low-latency, and secure connectivity for military applications, including autonomous systems, smart logistics, and tactical command centers. The primary drivers propelling this market are the critical need for real-time data processing to enhance situational awareness and the requirement for massive machine-type communications to support the expanding internet of military things. According to the GSMA, in 2024, global 5G connections surpassed 1.5 billion, demonstrating the rapid maturation of the commercial ecosystem that defense agencies are leveraging to accelerate the integration of these advanced capabilities into their operations.

One significant challenge that could impede market expansion is the complexity of spectrum allocation and coexistence. The potential for signal interference between commercial 5G networks and legacy military radar or avionics systems often necessitates rigorous testing and geographic restrictions, thereby slowing the pace of widespread deployment and interoperability.

Key Market Drivers

Increasing Government Investments in Defense Digital Modernization are fundamentally reshaping the sector as nations allocate substantial funding to integrate commercial wireless technologies into military infrastructure. Defense agencies are prioritizing spending on contract vehicles that allow for the rapid procurement of 5G capabilities, ensuring that tactical edge networks can support data-intensive applications like artificial intelligence and unmanned systems. This financial commitment is evident in major procurement initiatives designed to replace legacy systems with secure, high-speed connectivity. According to GovCon Wire, November 2024, Verizon was awarded a position on the U.S. Navy’s Spiral 4 contract vehicle, which has a total ceiling value of $2.7 billion to deliver wireless services and devices, including 5G solutions, over the next decade. Such investments are further bolstered by specific allocations for private networks; according to RCR Wireless, September 2025, system integrator Future Technologies secured over $50 million in new Department of Defense contracts specifically to deploy private 5G networks for modernizing base infrastructure.

A Strategic Shift Toward Network-Centric Warfare Capabilities is concurrently driving market demand, as military doctrines increasingly rely on the ability to connect sensors, shooters, and decision-makers in real-time across multi-domain environments. This operational imperative necessitates 5G networks that ensure interoperability among allied forces and provide the low latency required for situational awareness in contested theaters. The practical application of this shift is being actively validated through large-scale multinational exercises that test the resilience of commercial cellular technology in combat scenarios. According to Defence Industry Europe, May 2025, Nokia successfully trialed its 5G AirScale radio and standalone core technology during the Joint Viking 2025 exercise in Norway, which involved more than 10,000 troops from nine nations, demonstrating the critical role of 5G in coordinating complex joint operations.

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Key Market Challenges

The complexity of spectrum allocation and coexistence presents a formidable barrier to the expansion of the Global 5G in Defense Market. Because commercial 5G networks frequently operate within frequency bands that are adjacent to or overlapping with those used by legacy military systems, such as radar and avionics, there is a substantial risk of harmful electromagnetic interference. This technical conflict compels defense agencies to implement rigorous compatibility assessments and establish large geographic exclusion zones where 5G deployment is restricted or heavily modified. These necessary but time-consuming precautions directly delay the operational readiness of high-speed connectivity in tactical environments and stall the broader integration of autonomous systems that rely on continuous coverage.

The significant resources required to validate these coexistence capabilities illustrate the severity of this impediment. According to the National Spectrum Consortium, in 2024, a specialized project valued at $25 million was awarded to demonstrate spectrum sharing technologies specifically designed to mitigate interference between 5G signals and military radar systems. This allocation of capital and engineering effort toward testing and mitigation, rather than immediate infrastructure rollout, highlights how spectrum challenges force a more cautious and protracted adoption timeline. Consequently, the market experiences slower growth as stakeholders must prioritize technical de-confliction over the rapid acquisition of advanced network capabilities.

Key Market Trends

The Integration of Non-Terrestrial Networks and Low-Earth Orbit Satellites is emerging to extend connectivity beyond terrestrial limitations. Defense agencies are linking space-based assets with tactical units to ensure resilient communication in remote environments where ground infrastructure is compromised. This convergence enables continuous data transmission across multi-layered networks, essential for forward-deployed forces to maintain operational readiness. Highlighting this demand, according to Viasat, December 2024, in the 'Viasat Awarded up to $568 Million IDIQ Contract from General Services Administration' press release, the company secured a contract with a $568 million ceiling to deliver satellite and networking capabilities for U.S. defense forces.

The Adoption of Open RAN Architectures for Vendor Interoperability is transforming the market by dismantling reliance on proprietary hardware. This shift enables defense departments to diversify supply chains and integrate components from multiple manufacturers, effectively mitigating vendor lock-in risks. By decoupling hardware from software, military organizations can accelerate upgrades and tailor performance to specific mission needs. Validating this trajectory, according to the U.S. Department of Defense, November 2024, in the 'DOD Awards Project to Develop Open Radio Access Network Prototype at Fort Bliss' announcement, Hughes Network Systems was awarded a $6.5 million contract to deploy a standalone 5G Open RAN prototype for tactical testing.

Segmental Insights

Based on market analysis, the Airport segment is identified as the fastest-growing category in the Global 5G in Defense Market, driven by the extensive modernization of military airbases into smart, connected facilities. Defense organizations are increasingly deploying private 5G networks to optimize ground operations, including autonomous logistics, asset tracking, and predictive maintenance of aircraft. This expansion is supported by the critical need for high-speed, low-latency connectivity to facilitate real-time data processing for perimeter security and surveillance systems. Furthermore, the integration of massive Internet of Things (IoT) capabilities enables seamless coordination between ground support units and command centers, fueling significant investment in this infrastructure.

Regional Insights

North America maintains the leading position in the global 5G in defense market, primarily due to substantial investments initiated by the United States Department of Defense. The region benefits from extensive collaboration between government agencies and private telecommunications providers to strengthen military communication networks. The U.S. government prioritizes the integration of 5G into base operations and tactical decision-making processes to enhance operational efficiency. This strategic focus on spectrum sharing and infrastructure modernization accelerates the adoption of advanced connectivity solutions, solidifying the region's dominance in the defense sector.

Recent Developments

• In December 2025, L3Harris Technologies hosted a comprehensive demonstration for government officials, showcasing a resilient network capability that included 5G gateway solutions and software-defined tactical radios. The event illustrated how multiple agencies could communicate instantly across different domains using a unified system, even in degraded or contested environments. Key technologies such as handheld systems and advanced data devices were utilized to maintain connectivity for manned and unmanned assets. This development emphasized the role of interoperable 5G architectures in enhancing national security and supporting the rapid response requirements of modern defense operations.
• In September 2025, Nokia expanded its defense portfolio by launching two advanced tactical communication products: the Nokia Mission-Safe Phone and an upgraded Banshee 5G Tactical Radio. The new smartphone was engineered for resilience and security to support defense forces in harnessing 5G capabilities on the battlefield, while the portable tactical radio offered enhanced bandwidth and lower latency for rapid deployment. These product launches were designed to facilitate real-time data sharing and improved situational awareness for military personnel. The initiative highlighted the company's strategy to adapt its commercial 5G technology to meet the rigorous performance and security standards of the global defense market.
• In March 2025, Lockheed Martin successfully integrated military-grade 5G solutions from Nokia and private network technologies from Verizon into its 5G.MIL Hybrid Base Station. This collaboration demonstrated the seamless interoperability of commercial 5G technology with tactical defense communications, a critical requirement for Joint All-Domain Command and Control operations. The integration verified that the hybrid base station could effectively manage and route data between diverse network types, ensuring reliable connectivity for military assets in contested environments. This technological breakthrough marked a significant step forward in deploying secure, high-performance 5G networks for mission-critical defense applications.
• In March 2024, Ericsson established the Ericsson Federal Technologies Group (EFTG), a new entity dedicated to delivering 5G-driven digital transformation to the United States government and defense agencies. This strategic expansion aimed to meet the increasing demand for secure and resilient 5G infrastructure within the defense sector, supporting the modernization of complex communications and multi-domain operations. The new organization focused on providing commercial 5G technologies that adhered to federal requirements, including support for Open RAN-ready capabilities and equipment manufactured in the United States. This development underscored the company's commitment to leveraging its connectivity expertise for national security applications.

Key Market Players

• Telefonaktiebolaget LM Ericsson
• Huawei Technologies Co. Ltd.
• Nokia Networks
• Thales Group
• L3Harris Technologies Inc.
• Raytheon Technologies Corporation
• Qualcomm Technologies Inc.
• Analog Devices Inc.
• Intel Corporation
• Cisco Systems Inc.

By Communication Infrastructure	By Core Network Technology	By Network Type	By Chipset	By Platform	By Operational Frequency	By End Use	By Region
Small Cell Macro Cell Radio Access Network	Software-defined Networking Fog Computing Mobile Edge Computing Network Functions Virtualizations	Enhanced Mobile Broadband {eMBB} Ultra-Reliable Low-Latency Communications {URLLC} Massive Machine Type Communications {MMTC}	Application-Specific Integrated Circuit (ASIC) Chipset Radio Frequency Integrated Circuit (RFIC) Chipset Millimeter Wave (mmWave) Chipset	Land Naval Airborne	High Low Medium	Aircraft Airport Homeland Security	North America Europe Asia Pacific South America Middle East & Africa

Report Scope:

In this report, the Global 5G in Defense Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• 5G in Defense Market, By Communication Infrastructure:

• Small Cell
• Macro Cell
• Radio Access Network

• 5G in Defense Market, By Core Network Technology:

• Software-defined Networking
• Fog Computing
• Mobile Edge Computing
• Network Functions Virtualizations

• 5G in Defense Market, By Network Type:

• Enhanced Mobile Broadband {eMBB}
• Ultra-Reliable Low-Latency Communications {URLLC}
• Massive Machine Type Communications {MMTC}

• 5G in Defense Market, By Chipset:

• Application-Specific Integrated Circuit (ASIC) Chipset
• Radio Frequency Integrated Circuit (RFIC) Chipset
• Millimeter Wave (mmWave) Chipset

• 5G in Defense Market, By Platform:

• Land
• Naval
• Airborne

• 5G in Defense Market, By Operational Frequency:

• High
• Low
• Medium

• 5G in Defense Market, By End Use:

• Aircraft
• Airport
• Homeland Security

• 5G in Defense Market, By Region:

• North America
• United States
• Canada
• Mexico
• Europe
• France
• United Kingdom
• Italy
• Germany
• Spain
• Asia Pacific
• China
• India
• Japan
• Australia
• South Korea
• South America
• Brazil
• Argentina
• Colombia
• Middle East & Africa
• South Africa
• Saudi Arabia
• UAE