5G 인프라 시장 규모, 점유율, 성장, 세계의 산업 분석 : 유형별, 용도별, 지역별 인사이트 및 예측(2026-2034년)
5G Infrastructure Market Size, Share, Growth and Global Industry Analysis By Type & Application, Regional Insights and Forecast to 2026-2034
상품코드:1933395
리서치사:Fortune Business Insights Pvt. Ltd.
발행일:2026년 01월
페이지 정보:영문 120 Pages
라이선스 & 가격 (부가세 별도)
한글목차
5G 인프라 시장 성장 요인
세계 5G 인프라 시장은 2025년 474억 4,000만 달러로 평가되었고, 2026년에는 680억 7,000만 달러에 달할 것으로 예측됩니다. 또한 2034년까지 7,390억 4,000만 달러로 확대될 것으로 예상되며, 예측 기간 동안 34.70%의 연평균 복합 성장률(CAGR)을 보일 것으로 예측됩니다. 2025년에는 아시아태평양이 38.08%의 점유율로 시장을 주도할 것으로 예상되며, 중국, 한국, 일본 등의 국가에서 대규모 5G 도입이 이를 견인할 것으로 예측됩니다. 5G 인프라는 무선 액세스 네트워크(RAN), 코어 네트워크, 전송 기술을 포함하며, 높은 처리량, 초저지연, 높은 이동성, 고밀도 연결을 실현하도록 설계되었습니다. 5G의 도입은 통신사, 기업, 소비자에게 큰 기회를 창출하고 있으며, 스마트시티, 의료, 자동차, 소매, 금융 등 다양한 분야의 용도를 지원하고 있습니다.
시장 동향
5G 인프라의 주요 트렌드 중 하나는 네트워크 슬라이싱(Network Slicing)의 도입입니다. 단일 네트워크를 여러 개의 전용 슬라이스로 가상화하여 서로 다른 트래픽 유형을 지원하는 기술입니다. 이를 통해 공급자는 IoT 팩토리, 스마트홈, 커넥티드카 등 특정 용도를 위한 맞춤형 네트워크를 제공할 수 있으며, 미션 크리티컬 서비스의 보안과 신뢰성을 보장할 수 있습니다. 네트워크 슬라이싱은 서로 다른 이동성 및 연결성 요구 사항을 가진 여러 디바이스를 지원하기 위해 전 세계 IoT 생태계 전반에 걸쳐 도입이 진행되고 있습니다.
또 다른 트렌드는 커버리지와 용량의 균형을 맞추기 위한 중대역 스펙트럼(1-6GHz)의 도입과 소프트웨어 정의 네트워크(SDN), 네트워크 기능 가상화(NFV), 엣지 컴퓨팅 등 코어 및 전송 솔루션의 통합입니다. 통신사들은 또한 산업용 5G 네트워크를 위한 프라이빗 5G 네트워크에 집중하고 있으며, 기업 전반의 5G 기술 채택을 가속화하고 있습니다.
시장 성장 촉진요인
IoT 연결 기기 증가는 5G 도입의 주요 촉진요인입니다. 2025년까지 800억 개 이상의 IoT 기기가 연결될 것으로 예상되며, 제조업, 물류, 의료, 스마트시티 등의 분야로 확산되고 있습니다. 5G 인프라는 인더스트리 4.0, 자율주행차, 원격의료, AR/VR 용도의 실시간 운영에 필요한 초저지연, 초신뢰성 연결을 제공합니다.
초저지연에 대한 필요성은 시장 수요를 더욱 증가시키고 있습니다. 5G는 원격 로봇 수술, 자동화 제조, 운전 지원 등 미션 크리티컬한 용도에서 실시간 통신을 가능하게 하여 더 빠른 데이터 전송과 업무 효율을 향상시킬 수 있습니다.
시장 성장 억제요인
5G 인프라 시장은 성장과 동시에 사이버 보안 위협 증가라는 문제에 직면해 있습니다. 연결 기기 증가와 직접적인 셀룰러 네트워크 연결로 인해 네트워크는 고도의 사이버 공격에 노출되어 보안 대책이 충분히 견고하지 않으면 보급을 저해할 수 있습니다.
부문 분석
통신 인프라별: 시장은 RAN(무선 액세스 네트워크), 전송, 핵심기술로 구분됩니다. RAN은 2026년 42.06%의 점유율을 차지할 것으로 예상되며, C-RAN/V-RAN, 스몰셀, 매시브 MIMO 등의 하위 부문을 포함합니다. 스몰셀은 고밀도 지역에서의 네트워크 용량 확장 능력으로 인해 높은 수요가 있습니다. SDN은 중앙 집중식 관리와 최적화된 연결성을 제공하며 전송 기술을 주도하고, NFV와 모바일 엣지 컴퓨팅은 저지연 IoT 용도를 지원하며 핵심 기술의 성장을 견인합니다.
주파수 대역별: 시장은 저대역(1GHz 미만), 중대역(1-6GHz), 고대역(24-40GHz)으로 분류됩니다. 2026년 중대역 부문은 46.67%의 점유율을 차지할 것으로 예상되며, 균형 잡힌 커버리지와 높은 데이터 속도를 제공할 것입니다. 고 대역폭 스펙트럼은 밀집된 환경에서 초고속 5G 용도를 지원하기 위해 빠르게 성장하고 있습니다.
네트워크 아키텍처별: 비독립형(NSA)과 독립형(SA) 아키텍처로 구분됩니다. NSA는 2026년 68.88%의 점유율을 차지할 것으로 예상되며, 초기 5G 구축을 상징합니다. 반면 SA는 진정한 5G 속도와 클라우드 연계형 핵심 서비스를 제공하기 때문에 빠른 성장이 예상됩니다.
최종 사용자별: 주거, 상업, 산업, 정부로 구분됩니다. 2026년에는 스트리밍, 게임, 스마트홈 용도를 위한 초고속 인터넷 수요에 힘입어 주택 부문이 36.61%의 점유율로 선두를 차지할 것으로 예측됩니다. 산업 사용자는 인더스트리 4.0의 도입과 커넥티드 제조 솔루션으로 인해 가장 높은 CAGR을 나타낼 것으로 예측됩니다.
지역별 인사이트
아시아태평양은 중국, 일본, 인도를 필두로 2025년 261억 9,000만 달러, 2026년 380억 8,000만 달러 시장 규모로 세계 시장을 주도할 것으로 예측됩니다. 중국만 하더라도 2025년까지 4억 5,000만 개 이상의 5G 연결 수를 달성하고, 2026년에는 188억 4,000만 달러에 이를 것으로 예측됩니다. 일본과 인도도 5G 인프라에 많은 투자를 하고 있으며, 스마트시티와 산업용 IoT 도입을 지원하고 있습니다.
유럽은 꾸준한 성장이 예상되며, 지원적인 정책 및 규제 프레임워크의 혜택을 받아 2026년까지 독일이 26억 달러, 영국이 29억 5,000만 달러에 이를 것으로 예측됩니다.
북미는 높은 5G 보급률과 네트워크 확장에 힘입어 2026년까지 미국 시장이 89억 2,000만 달러에 달할 것으로 예상되며, 큰 점유율을 차지할 것으로 예측됩니다.
중동 및 아프리카은 스마트시티, 자율주행차, IoT 생태계에 대한 정부 주도의 노력과 투자로 인해 가장 높은 CAGR을 나타낼 것으로 예측됩니다.
주요 기업
5G 인프라 시장의 주요 기업으로는 Ericsson, Huawei, Nokia, Nokia, ZTE, Samsung, NEC, Mavenir, Fujitsu, Qualcomm, Rohde & Schwarz. Companies 등이 있습니다. 각 업체들은 시장 지위를 강화하기 위해 5G 스몰셀, 통합 코어 네트워크, 대역간 캐리어 어그리게이션, 클라우드 기반 구축과 같은 첨단 솔루션 개발에 주력하고 있습니다. 최근 동향으로는 Siemens의 프라이빗 5G 네트워크, Cisco와 NTT Data의 프라이빗 5G 서비스, Qualcomm과 Viettel의 5G RAN 솔루션 등을 들 수 있습니다.
목차
제1장 서론
제2장 주요 요약
제3장 시장 역학
제4장 경쟁 구도
제5장 세계의 5G 인프라 시장 규모 추정·예측, 부문별, 2021년-2034년
제6장 북미의 5G 인프라 시장 규모 추정·예측, 부문별, 2021년-2034년
제7장 남미의 5G 인프라 시장 규모 추정·예측, 부문별, 2021년-2034년
제8장 유럽의 5G 인프라 시장 규모 추정·예측, 부문별, 2021년-2034년
제9장 중동 및 아프리카의 5G 인프라 시장 규모 추정·예측, 부문별, 2021년-2034년
제10장 아시아태평양의 5G 인프라 시장 규모 추정·예측, 부문별, 2021년-2034년
제11장 주요 10개사 기업 개요
제12장 주요 포인트
LSH
영문 목차
영문목차
Growth Factors of 5G infrastructure Market
The global 5G infrastructure market was valued at USD 47.44 billion in 2025 and is projected to reach USD 68.07 billion in 2026, eventually expanding to USD 739.04 billion by 2034, representing a CAGR of 34.70% during the forecast period. Asia Pacific dominated the market in 2025 with a 38.08% share, driven by extensive 5G deployment in countries such as China, South Korea, and Japan. 5G infrastructure encompasses Radio Access Network (RAN), core network, and transport technology, designed to deliver high throughput, ultra-low latency, high mobility, and dense connectivity. The rollout of 5G is creating significant opportunities for telecom operators, enterprises, and consumers, supporting applications across smart cities, healthcare, automotive, retail, and finance.
Market Trends
A major trend in 5G infrastructure is the adoption of network slicing, a technique that virtualizes a single network into multiple dedicated slices to support different traffic types. This allows providers to deliver customized networks for specific applications such as IoT factories, smart homes, and connected vehicles, ensuring security and reliability for mission-critical services. Network slicing is increasingly implemented across the global IoT ecosystem, supporting multiple devices with varying mobility and connectivity requirements.
Another trend is the deployment of mid-band spectrum (1-6 GHz) to balance coverage and capacity, along with the integration of core and transport solutions like Software-Defined Networking (SDN), Network Function Virtualization (NFV), and edge computing. Telecom operators are also focusing on private 5G networks for industrial use cases, accelerating the adoption of 5G technology across enterprises.
Market Drivers
The growing number of IoT-connected devices is a key driver for 5G adoption. Over 80 billion IoT devices are estimated to be connected by 2025, spanning sectors such as manufacturing, logistics, healthcare, and smart cities. 5G infrastructure provides ultra-reliable, low-latency connections necessary for real-time operations in Industry 4.0, autonomous vehicles, telemedicine, and AR/VR applications.
The need for ultra-low latency further boosts market demand. 5G enables real-time communication for mission-critical applications like remote robotic surgeries, automated manufacturing, and assisted driving, providing faster data transmission and enhanced operational efficiency.
Market Restraints
Despite its growth, the 5G infrastructure market faces challenges such as increased cybersecurity threats. The high number of connected devices and direct cellular network connections exposes networks to advanced cyberattacks, potentially hampering adoption if security measures are not sufficiently robust.
Segmentation Analysis
By Communication Infrastructure: The market is divided into RAN, transport, and core technologies. RAN is expected to hold 42.06% share in 2026, with subsegments such as C-RAN/V-RAN, small cells, and massive MIMO. Small cells are in high demand due to their ability to increase network capacity in high-density areas. SDN dominates transport technology, providing centralized control and optimized connectivity, while NFV and mobile edge computing drive core technology growth, supporting low-latency IoT applications.
By Spectrum Band: The market is categorized into low band (<1 GHz), mid band (1-6 GHz), and high band (24-40 GHz). The mid-band segment holds 46.67% share in 2026, offering balanced coverage and high data rates. High-band spectrum is growing rapidly to support ultra-high-speed 5G applications in dense environments.
By Network Architecture: Divided into Non-Standalone (NSA) and Standalone (SA) architectures. NSA holds 68.88% share in 2026, representing the initial 5G rollouts, while SA is expected to grow rapidly to deliver true 5G speed and cloud-aligned core services.
By End-User: Segmented into residential, commercial, industrial, and government. The residential sector dominates with 36.61% share in 2026, driven by high-speed internet demand for streaming, gaming, and smart home applications. Industrial users are projected to record the highest CAGR due to Industry 4.0 adoption and connected manufacturing solutions.
Regional Insights
Asia Pacific led the market with a valuation of USD 26.19 billion in 2025 and USD 38.08 billion in 2026, driven by China, Japan, and India. China alone is projected to reach USD 18.84 billion by 2026 with over 450 million 5G connections by 2025. Japan and India are also investing heavily in 5G infrastructure, supporting smart cities and industrial IoT adoption.
Europe is expected to grow steadily, with Germany at USD 2.6 billion and the UK at USD 2.95 billion by 2026, benefiting from supportive policies and regulatory frameworks.
North America is projected to hold a significant share, with the U.S. market at USD 8.92 billion by 2026, driven by high 5G adoption and network expansion.
Middle East & Africa is expected to witness the highest CAGR due to government initiatives and investments in smart cities, autonomous vehicles, and IoT ecosystems.
Key Players
Major players in the 5G infrastructure market include Ericsson, Huawei, Nokia, ZTE, Samsung, NEC, Mavenir, Fujitsu, Qualcomm, and Rohde & Schwarz. Companies are focused on developing advanced solutions such as 5G small cells, integrated core networks, inter-band carrier aggregation, and cloud-based deployments to strengthen their market positions. Recent developments include Siemens' private 5G networks, Cisco & NTT Data's private 5G services, and Qualcomm & Viettel's 5G RAN solutions.
Conclusion
The global 5G infrastructure market is poised for rapid growth, expanding from USD 68.07 billion in 2026 to USD 739.04 billion by 2034, driven by IoT proliferation, ultra-low latency requirements, network slicing, and cloud-native architectures. Asia Pacific dominates the market, while Middle East & Africa shows the fastest growth. The adoption of 5G across residential, industrial, and commercial sectors, coupled with technological advancements and government support, ensures that 5G infrastructure will be a cornerstone of digital transformation worldwide.
Segmentation By Communication Infrastructure
RAN (Radio Access Network)
C-Ran/V-Ran
Small Cell
Massive MIMO
Transport Technology
Software-Defined Networking (SDN)
Network Slicing
Core Technology
Network Function Virtualization (NFV)
Mobile Edge Computing
By Spectrum Band
Low Band (<1 GHz)
Mid Band (1-6GHz)
High Band (24-40GHz)
By Network Architecture
Non-standalone
Standalone
By End User
Residential
Commercial
Industrial
Government
By Region
North America (By Communication Infrastructure, By Spectrum Band, By Network Architecture, By End User, and By Country)
U.S.
Canada
Mexico
South America (By Communication Infrastructure, By Spectrum Band, By Network Architecture, By End User, and By Country)
Brazil
Argentina
Rest of South America
Europe (By Communication Infrastructure, By Spectrum Band, By Network Architecture, By End User, and By Country)
U.K.
Germany
France
Italy
Spain
Rest of Europe
Middle East & Africa (By Communication Infrastructure, By Spectrum Band, By Network Architecture, By End User, and By Country)
GCC
South Africa
Rest of Middle East & Africa
Asia Pacific (By Communication Infrastructure, By Spectrum Band, By Network Architecture, By End User, and By Country)
China
Japan
India
South Korea
Southeast Asia
Rest of Asia Pacific
Table of Content
1. Introduction
1.1. Definition, By Segment
1.2. Research Methodology/Approach
1.3. Data Sources
2. Executive Summary
3. Market Dynamics
3.1. Macro and Micro Economic Indicators
3.2. Drivers, Restraints, Opportunities and Trends
4. Competition Landscape
4.1. Business Strategies Adopted by Key Players
4.2. Consolidated SWOT Analysis of Key Players
4.3. Global 5G Infrastructure Key Players Market Share/Ranking, 2025
5. Global 5G Infrastructure Market Size Estimates and Forecasts, By Segments, 2021-2034
5.1. Key Findings
5.2. By Communication Infrastructure (USD)
5.2.1. RAN (Radio Access Network)
5.2.1.1. C-Ran/V-Ran
5.2.1.2. Small Cell
5.2.1.3. Massive MIMO
5.2.2. Transport Technology
5.2.2.1. Software-Defined Networking (SDN)
5.2.2.2. Network Slicing
5.2.3. Core Technology
5.2.3.1. Network Function Virtualization (NFV)
5.2.3.2. Mobile Edge Computing
5.3. By Spectrum Band (USD)
5.3.1. Low Band (<1 GHz)
5.3.2. Mid Band (1-6GHz)
5.3.3. High Band (24-40GHz)
5.4. By Network Architecture (USD)
5.4.1. Non-standalone
5.4.2. Standalone
5.5. By End User (USD)
5.5.1. Residential
5.5.2. Commercial
5.5.3. Industrial
5.5.4. Government
5.6. By Region (USD)
5.6.1. North America
5.6.2. South America
5.6.3. Europe
5.6.4. Middle East & Africa
5.6.5. Asia Pacific
6. North America 5G Infrastructure Market Size Estimates and Forecasts, By Segments, 2021-2034
6.1. Key Findings
6.2. By Communication Infrastructure (USD)
6.2.1. RAN (Radio Access Network)
6.2.1.1. C-Ran/V-Ran
6.2.1.2. Small Cell
6.2.1.3. Massive MIMO
6.2.2. Transport Technology
6.2.2.1. Software-Defined Networking (SDN)
6.2.2.2. Network Slicing
6.2.3. Core Technology
6.2.3.1. Network Function Virtualization (NFV)
6.2.3.2. Mobile Edge Computing
6.3. By Spectrum Band (USD)
6.3.1. Low Band (<1 GHz)
6.3.2. Mid Band (1-6GHz)
6.3.3. High Band (24-40GHz)
6.4. By Network Architecture (USD)
6.4.1. Non-standalone
6.4.2. Standalone
6.5. By End User (USD)
6.5.1. Residential
6.5.2. Commercial
6.5.3. Industrial
6.5.4. Government
6.6. By Country (USD)
6.6.1. United States
6.6.2. Canada
6.6.3. Mexico
7. South America 5G Infrastructure Market Size Estimates and Forecasts, By Segments, 2021-2034
7.1. Key Findings
7.2. By Communication Infrastructure (USD)
7.2.1. RAN (Radio Access Network)
7.2.1.1. C-Ran/V-Ran
7.2.1.2. Small Cell
7.2.1.3. Massive MIMO
7.2.2. Transport Technology
7.2.2.1. Software-Defined Networking (SDN)
7.2.2.2. Network Slicing
7.2.3. Core Technology
7.2.3.1. Network Function Virtualization (NFV)
7.2.3.2. Mobile Edge Computing
7.3. By Spectrum Band (USD)
7.3.1. Low Band (<1 GHz)
7.3.2. Mid Band (1-6GHz)
7.3.3. High Band (24-40GHz)
7.4. By Network Architecture (USD)
7.4.1. Non-standalone
7.4.2. Standalone
7.5. By End User (USD)
7.5.1. Residential
7.5.2. Commercial
7.5.3. Industrial
7.5.4. Government
7.6. By Country (USD)
7.6.1. Brazil
7.6.2. Argentina
7.6.3. Rest of South America
8. Europe 5G Infrastructure Market Size Estimates and Forecasts, By Segments, 2021-2034
8.1. Key Findings
8.2. By Communication Infrastructure (USD)
8.2.1. RAN (Radio Access Network)
8.2.1.1. C-Ran/V-Ran
8.2.1.2. Small Cell
8.2.1.3. Massive MIMO
8.2.2. Transport Technology
8.2.2.1. Software-Defined Networking (SDN)
8.2.2.2. Network Slicing
8.2.3. Core Technology
8.2.3.1. Network Function Virtualization (NFV)
8.2.3.2. Mobile Edge Computing
8.3. By Spectrum Band (USD)
8.3.1. Low Band (<1 GHz)
8.3.2. Mid Band (1-6GHz)
8.3.3. High Band (24-40GHz)
8.4. By Network Architecture (USD)
8.4.1. Non-standalone
8.4.2. Standalone
8.5. By End User (USD)
8.5.1. Residential
8.5.2. Commercial
8.5.3. Industrial
8.5.4. Government
8.6. By Country (USD)
8.6.1. United Kingdom
8.6.2. Germany
8.6.3. France
8.6.4. Italy
8.6.5. Spain
8.6.6. Rest of Europe
9. Middle East & Africa 5G Infrastructure Market Size Estimates and Forecasts, By Segments, 2021-2034
9.1. Key Findings
9.2. By Communication Infrastructure (USD)
9.2.1. RAN (Radio Access Network)
9.2.1.1. C-Ran/V-Ran
9.2.1.2. Small Cell
9.2.1.3. Massive MIMO
9.2.2. Transport Technology
9.2.2.1. Software-Defined Networking (SDN)
9.2.2.2. Network Slicing
9.2.3. Core Technology
9.2.3.1. Network Function Virtualization (NFV)
9.2.3.2. Mobile Edge Computing
9.3. By Spectrum Band (USD)
9.3.1. Low Band (<1 GHz)
9.3.2. Mid Band (1-6GHz)
9.3.3. High Band (24-40GHz)
9.4. By Network Architecture (USD)
9.4.1. Non-standalone
9.4.2. Standalone
9.5. By End User (USD)
9.5.1. Residential
9.5.2. Commercial
9.5.3. Industrial
9.5.4. Government
9.6. By Country (USD)
9.6.1. GCC
9.6.2. South Africa
9.6.3. Rest of MEA
10. Asia Pacific 5G Infrastructure Market Size Estimates and Forecasts, By Segments, 2021-2034
10.1. Key Findings
10.2. By Communication Infrastructure (USD)
10.2.1. RAN (Radio Access Network)
10.2.1.1. C-Ran/V-Ran
10.2.1.2. Small Cell
10.2.1.3. Massive MIMO
10.2.2. Transport Technology
10.2.2.1. Software-Defined Networking (SDN)
10.2.2.2. Network Slicing
10.2.3. Core Technology
10.2.3.1. Network Function Virtualization (NFV)
10.2.3.2. Mobile Edge Computing
10.3. By Spectrum Band (USD)
10.3.1. Low Band (<1 GHz)
10.3.2. Mid Band (1-6GHz)
10.3.3. High Band (24-40GHz)
10.4. By Network Architecture (USD)
10.4.1. Non-standalone
10.4.2. Standalone
10.5. By End User (USD)
10.5.1. Residential
10.5.2. Commercial
10.5.3. Industrial
10.5.4. Government
10.6. By Country (USD)
10.6.1. China
10.6.2. Japan
10.6.3. India
10.6.4. South Korea
10.6.5. Southeast Asia
10.6.6. Rest of Asia Pacific
11. Company Profiles for Top 10 Players (Based on data availability in public domain and/or on paid databases)
11.1. Telefonaktiebolaget LM Ericsson
11.1.1. Overview
11.1.1.1. Key Management
11.1.1.2. Headquarters
11.1.1.3. Offerings/Business Segments
11.1.2. Key Details (Key details are consolidated data and not product/service specific)
11.1.2.1. Employee Size
11.1.2.2. Past and Current Revenue
11.1.2.3. Geographical Share
11.1.2.4. Business Segment Share
11.1.2.5. Recent Developments
11.2. Huawei Technologies Co., Ltd.
11.2.1. Overview
11.2.1.1. Key Management
11.2.1.2. Headquarters
11.2.1.3. Offerings/Business Segments
11.2.2. Key Details (Key details are consolidated data and not product/service specific)
11.2.2.1. Employee Size
11.2.2.2. Past and Current Revenue
11.2.2.3. Geographical Share
11.2.2.4. Business Segment Share
11.2.2.5. Recent Developments
11.3. Nokia
11.3.1. Overview
11.3.1.1. Key Management
11.3.1.2. Headquarters
11.3.1.3. Offerings/Business Segments
11.3.2. Key Details (Key details are consolidated data and not product/service specific)
11.3.2.1. Employee Size
11.3.2.2. Past and Current Revenue
11.3.2.3. Geographical Share
11.3.2.4. Business Segment Share
11.3.2.5. Recent Developments
11.4. ZTE Corporation
11.4.1. Overview
11.4.1.1. Key Management
11.4.1.2. Headquarters
11.4.1.3. Offerings/Business Segments
11.4.2. Key Details (Key details are consolidated data and not product/service specific)
11.4.2.1. Employee Size
11.4.2.2. Past and Current Revenue
11.4.2.3. Geographical Share
11.4.2.4. Business Segment Share
11.4.2.5. Recent Developments
11.5. Samsung Electronics Co., Ltd.
11.5.1. Overview
11.5.1.1. Key Management
11.5.1.2. Headquarters
11.5.1.3. Offerings/Business Segments
11.5.2. Key Details (Key details are consolidated data and not product/service specific)
11.5.2.1. Employee Size
11.5.2.2. Past and Current Revenue
11.5.2.3. Geographical Share
11.5.2.4. Business Segment Share
11.5.2.5. Recent Developments
11.6. NEC Corporation
11.6.1. Overview
11.6.1.1. Key Management
11.6.1.2. Headquarters
11.6.1.3. Offerings/Business Segments
11.6.2. Key Details (Key details are consolidated data and not product/service specific)
11.6.2.1. Employee Size
11.6.2.2. Past and Current Revenue
11.6.2.3. Geographical Share
11.6.2.4. Business Segment Share
11.6.2.5. Recent Developments
11.7. Mavenir
11.7.1. Overview
11.7.1.1. Key Management
11.7.1.2. Headquarters
11.7.1.3. Offerings/Business Segments
11.7.2. Key Details (Key details are consolidated data and not product/service specific)
11.7.2.1. Employee Size
11.7.2.2. Past and Current Revenue
11.7.2.3. Geographical Share
11.7.2.4. Business Segment Share
11.7.2.5. Recent Developments
11.8. Fujitsu
11.8.1. Overview
11.8.1.1. Key Management
11.8.1.2. Headquarters
11.8.1.3. Offerings/Business Segments
11.8.2. Key Details (Key details are consolidated data and not product/service specific)
11.8.2.1. Employee Size
11.8.2.2. Past and Current Revenue
11.8.2.3. Geographical Share
11.8.2.4. Business Segment Share
11.8.2.5. Recent Developments
11.9. Qualcomm Technologies, Inc.
11.9.1. Overview
11.9.1.1. Key Management
11.9.1.2. Headquarters
11.9.1.3. Offerings/Business Segments
11.9.2. Key Details (Key details are consolidated data and not product/service specific)
11.9.2.1. Employee Size
11.9.2.2. Past and Current Revenue
11.9.2.3. Geographical Share
11.9.2.4. Business Segment Share
11.9.2.5. Recent Developments
11.10. Rohde & Schwarz
11.10.1. Overview
11.10.1.1. Key Management
11.10.1.2. Headquarters
11.10.1.3. Offerings/Business Segments
11.10.2. Key Details (Key details are consolidated data and not product/service specific)
