The global 5G Infrastructure market is estimated to register an incredible CAGR of 42.5% during the review period. 5G or Fifth Era of remote standard that empowers associating everything all over the place, taking care of the steadily rising interest for quick digitization and quicker information transmission. 5G empowers interface vehicle, home, office, and discuss across the city with up to multiple times quicker information transmission speeds when contrasted with its ancestor 4G, which was intended for portable broadband administrations.
5G organization infrastructure includes a progression of full scale and little cell base stations that are hold edge registering capacities expected for usefulness of cutting-edge cell organizations. 5G infrastructure conveys quicker information transmission with lower inactivity and huge availability for end-use applications including IoT gadgets, semi-autonomous vehicles, expanded reality, among others driving savvy homes, brilliant urban areas, shrewd production lines, and strategic applications (for example, medical care).
A few elements adding to the development of 5G infrastructure market contain benefits presented by 5G organizations, rise number of portable clients, and fast improvements in IoT. Also, the public authority drives to send shrewd city projects and other public government assistance projects with the assistance of computerized change are supposed to support the market advancement to next even out.
Market Segmentation
Market segmentation into small and macro cells is based on communication infrastructure.
The 5G infrastructure market has been divided into network function virtualization (NFV) and software-defined networking (SDN) based on core network technologies.
The 5G infrastructure market is divided into 5G standalone and non-standalone segments based on network architecture.
The markets for 5G infrastructure are separated into bands below 6 GHz and bands above 6 GHz.
There are four end user segments in the 5G infrastructure market: residential, commercial, government, and industrial.
Regional Analysis
North America leads in 5G infrastructure because of dynamic Research and development, vigorous organization plan, and existences of key market players. The region's cutting-edge reception, including IoT and autonomous vehicles, benefits from 5G's dependable availability. Significant organizations like Qualcomm, Intel, Cisco, and AT&T drive 5G headways.
In Asia Pacific, 5G reception flourishes because of mechanical headways and joint efforts. Nations like Japan, China, South Korea, and Australia drive 5G development through Research and development, ventures, and organizations. 5G's concurrent gadget availability and low dormancy make it ideal for Asia Pacific, particularly in brilliant urban communities where a few nations, China, contribute vigorously. The Chinese government effectively advances 5G examination, making Asia Pacific the quickest developing 5G infrastructure market, offering immense open doors for creative metropolitan turns of events and innovative advancement.
Key Players
The key players in the global 5G infrastructure market are Nokia (Finland), Telefonaktiebolaget LM Ericsson (Sweden), Huawei Technologies Co., Ltd. (China), Enterprise Development LP (US), ZTE Corporation (China), SAMSUNG (South Korea), Cisco Systems, Inc. (US), CommScope, NEC Corporation (Japan), Inc. (US), Alpha Networks Inc. (Taiwan), Siklu Inc. (US), Mavenir (US), Airspan Networks (US), Comba Telecom Systems Holdings Ltd. (China), Hewlett Packard and F5, Inc. (US).
TABLE OF CONTENTS
TABLE OF CONTENTS
1. EXECUTIVE SUMMARY
1.1. MARKET ATTRACTIVENESS ANALYSIS
1.1.1. GLOBAL5G INFRASTRUCTURE MARKET, BY COMMUNICATION INFRASTRUCTURE
1.1.2. GLOBAL 5G INFRASTRUCTURE MARKET, BY NETWORK ARCHITECTURE
1.1.3. GLOBAL5G INFRASTRUCTURE MARKET, BY OPERATIONAL FREQUENCY
1.1.4. GLOBAL 5G INFRASTRUCTURE MARKET, BY CORE TECHNOLOGY
1.1.5. GLOBAL 5G INFRASTRUCTURE MARKET, BY END-USER
1.1.6. GLOBAL5G INFRASTRUCTURE MARKET, BY REGION
2. MARKET INTRODUCTION
2.1. DEFINITION
2.2. SCOPE OF THE STUDY
2.3. MARKET STRUCTURE
3. RESEARCH METHODOLOGY
3.1. RESEARCH PROCESS
3.2. PRIMARY RESEARCH
3.3. SECONDARY RESEARCH
3.4. MARKET SIZE ESTIMATION
3.5. LIST OF ASSUMPTIONS
4. MARKET DYNAMICS
4.1. INTRODUCTION
4.2. DRIVERS
4.2.1. BENEFITS OFFERED BY 5G NETWORKS
4.2.2. RISE NUMBER OF MOBILE USERS
4.2.3. RAPID DEVELOPMENTS IN IOT
4.3. RESTRAINT
4.3.1. MAJOR DELAYS IN SPECTRUM ALLOCATION
4.4. OPPORTUNITY
4.4.1. RISING DEMAND TO DEPLOY IIOT ACROSS INDUSTRY VERTICALS
4.5. CHALLENGES
4.5.1. HIGH COST OF DEPLOYMENT
4.6. IMPACT OF COVID-19
4.6.1. IMPACT ON COMPONENT MANUFACTURERS
4.6.2. IMPACT ON IT INDUSTRY
4.6.3. IMPACT ON TELECOM INDUSTRY
5. MARKET FACTOR ANALYSIS
5.1. VALUE CHAIN ANALYSIS/SUPPLY CHAIN ANALYSIS
5.2. PORTER'S FIVE FORCES MODEL
5.2.1. BARGAINING POWER OF SUPPLIERS
5.2.2. BARGAINING POWER OF BUYERS
5.2.3. THREAT OF NEW ENTRANTS
5.2.4. THREAT OF SUBSTITUTES
5.2.5. INTENSITY OF RIVALRY
6. GLOBAL5G INFRASTRUCTURE MARKET, BY COMMUNICATION INFRASTRUCTURE
6.1. INTRODUCTION
6.2. SMALL CELL
6.2.1. MICRO CELL
6.2.2. FEMTOCELL
6.2.3. PICO CELL
6.3. MACRO CELL
7. GLOBAL5G INFRASTRUCTURE MARKET, BY NETWORK ARCHITECTURE
7.1. INTRODUCTION
7.2. 5G NON-STANDALONE
7.3. 5G STANDALONE
8. GLOBAL 5G INFRASTRUCTURE MARKET, BY OPERATIONAL FREQUENCY
8.1. INTRODUCTION
8.2. SUB-6GHZ
8.3. ABOVE 24GHZ
9. GLOBAL 5G INFRASTRUCTURE MARKET, BY CORE TECHNOLOGY
9.1. INTRODUCTION
9.2. SOFTWARE-DEFINED NETWORKING (SDN)
9.3. NETWORK FUNCTION VIRTUALIZATION (NFV)
10. GLOBAL 5G INFRASTRUCTURE MARKET, BYEND-USER
10.1. INTRODUCTION
10.2. RESIDENTIAL
10.3. COMMERCIAL
10.4. INDUSTRIAL
10.5. GOVERNMENT
11. GLOBAL5G INFRASTRUCTURE MARKET, BY REGION
11.1. OVERVIEW
11.2. NORTH AMERICA
11.2.1. MARKET SIZE & ESTIMATES, BY COUNTRY, 2023-2030
11.2.2. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.2.3. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.2.4. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.2.5. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.2.6. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.2.7. US
11.2.7.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.2.7.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.2.7.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.2.7.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.2.7.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.2.8. CANADA
11.2.8.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.2.8.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.2.8.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.2.8.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.2.8.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.2.9. MEXICO
11.2.9.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.2.9.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.2.9.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.2.9.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.2.9.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.3. EUROPE
11.3.1. MARKET SIZE & ESTIMATES, BY COUNTRY, 2023-2030
11.3.2. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.3.3. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.3.4. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.3.5. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.3.6. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.3.7. GERMANY
11.3.7.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.3.7.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.3.7.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.3.7.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.3.7.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.3.8. UK
11.3.8.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.3.8.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.3.8.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.3.8.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.3.8.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.3.9. FRANCE
11.3.9.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.3.9.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.3.9.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.3.9.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.3.9.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.3.10. REST OF EUROPE
11.3.10.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.3.10.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.3.10.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.3.10.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.3.10.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.4. ASIA PACIFIC
11.4.1. MARKET SIZE & ESTIMATES, BY COUNTRY, 2023-2030
11.4.2. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.4.3. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.4.4. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.4.5. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.4.6. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.4.7. CHINA
11.4.7.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.4.7.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.4.7.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.4.7.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.4.7.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.4.8. JAPAN
11.4.8.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.4.8.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.4.8.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.4.8.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.4.8.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.4.9. INDIA
11.4.9.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.4.9.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.4.9.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.4.9.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.4.9.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.4.10. REST OF ASIA-PACIFIC
11.4.10.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.4.10.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.4.10.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.4.10.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.4.10.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.5. MIDDLE EAST & AFRICA
11.5.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.5.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.5.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.5.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.5.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
11.6. SOUTH AMERICA
11.6.1. MARKET SIZE & ESTIMATES, BY COMMUNICATION INFRASTRUCTURE, 2023-2030
11.6.2. MARKET SIZE & ESTIMATES, BY NETWORK ARCHITECTURE, 2023-2030
11.6.3. MARKET SIZE & ESTIMATES, BY OPERATIONAL FREQUENCY, 2023-2030
11.6.4. MARKET SIZE & ESTIMATES, BY CORE TECHNOLOGY, 2023-2030
11.6.5. MARKET SIZE & ESTIMATES, BY END-USER, 2023-2030
