MarkWide Research

Sale!

Small Cell 5G Network Market Analysis- Industry Size, Share, Research Report, Insights, Covid-19 Impact, Statistics, Trends, Growth and Forecast 2022-2030

Published Date: July, 2022
No of Pages: 169
Delivery Format: PDF + Excel

$2,950.00

Report Description

Small Cell 5G Network Market Insights for 2030

The market for 5G small cell size was estimated at $858.0 million by 2020 and is expected to grow to $19,628 by 2030, increasing at a rate of 37.1 per cent between 2021 and 2030. An increase in investments in infrastructure for 5G, along with the increase in funding for high-speed networks in several countries around the globe, is expected to fuel the development of the small cell 5G market.

The ongoing COVID-19 epidemic has increased the need for advanced networks due to the increase in remote working and a rise in mobile data. In addition, the development of the Citizens Broadband Radio Service (CBRS) band and Internet of Things (IoT) and the increase in demand for high-reliability, low-latency communications are significant to the expansion of the market. However, concerns about the backhaul of small cells and issues with small cell deployment are expected to hinder the market’s growth.

In 2020, the solutions segment led the market. Small 5G cell market. Small cell 5G technology is commonly used to connect various aspects of technology in network devices. This is why the growth in the need for small 5G cell solutions because it can converge diverse hyperdense network designs into modern, scalable, advanced architectures. This will drive the acceptance of small cell solutions. The services sector is anticipated to have the highest growth rates over the forecast time. A majority of industries prefer all-in-one solution solutions to address any need related to the evolution of services. Therefore, the rapid growth of digital transformation has led to the acceptance of the small cell 5G networks in different industries due to their capacity to boost the power of operator networks at various addresses and locations. This is an essential factor that is increasing the growth of this segment at a rapid rate.

Based on radio technology, the standalone segment was dominant in the expansion of the world’s market for small cell 5G networks. Mobile phones are a significant part of the market. And the increasing demand for content with high definition from consumers pushes service providers of networks to move from the lower generation of network services, namely, 3G, 2G, and 4G, to 5G.

Small cell stand-alone are mainly used for indoor wireless coverage. However, the non-standalone segment is anticipated to have the highest growth during the forecast time. The major factors driving the expansion of the non-standalone small cell 5G networks are the rapid digitization of diverse industries and increasing government initiatives to create connected networks. Digital transformation has increased the demand for fast connectivity across different sectors.

The report concentrates on the potential for growth, the restraints and the small cell 5G network study of market shares. The study offers Porter’s five force analysis on the tiny cell 5G industry to comprehend the effects of various elements like the bargaining ability of suppliers, the competitive strength of rivals, the threat of new players, threats from substitutes and the bargaining power of consumers on the small cell 5G market developments.

Segment Analysis

The 5G small cell market forecast for networks is classified into radio technology, component frequency band cell type, application end-user and region. Based on components, the market is divided into solutions and services.

Based on the radio technology, it’s classified as standalone or non-standalone. In terms of the frequency band, it can be classified as a low band, mid-band millimetre-wave. The cell type is classified into picocells, femtocells and microcells. The areas included in the study are outdoor and indoor applications. Based on the end-user, the market is divided into commercial, residential, industrial intelligent city and transportation and logistics, government and defence and many more. Regionally, it is studied over North America, Europe, Asia-Pacific, and LAMEA.

What is the Impact of the COVID-19 Pandemic Small Cell 5G Network Market

The small cells 5G market is expected to increase to $858.00 million by 2020 and $19,628.00 million by 2030, resulting in an annual rate of 37.1 per cent. The estimate for 2030 will be less than pre-COVID-19 estimates. The COVID-19 virus has had minimal impact on the development of the world’s market for small cell 5G networks due in part to both the public and private sectors of emerging nations cooperating to accelerate the construction of 5G networks in the wake of the epidemic. In Thailand, mobile network operators (MNO) are collaborating to offer five-G network services to hospitals. The Eastern Economic Corridor (EEC), a specific development zone in Thailand, stipulates that 5G coverage must be around half of the region by 2020. This means that equipment installation will begin this year in industrial zones.

The governments of various developing economies are working to improve industries’ automation systems, which is expected to provide opportunities for 5G smaller cells. Additionally, the countries are also focusing on other advancements connected to 5G technology, including data storage.

Additionally, the emergence of COVID-19 has increased the speed of digitization of all industries that will require more excellent reliability, speed and more powerful fifth-generation networks to offer more connectivity. Additionally, the need for seamless connections will remain at the forefront of the Internet of Things applications because this is essential for many smart city functions. Although the emergence of COVID-19 caused delays in the construction of 5G infrastructure in some parts of China and Europe, the effect seems to have been minimal. On the other hand, in certain countries, the disease offers many opportunities to accelerate the deployment of 5G. For example, the government’s lockdown and the travel restrictions have made it much easier to build physical infrastructures, such as antennas and fibre. According to the information from CXO, the expectations for 5G technology were higher than the previous year, and the rise of smart cities in emerging economies will likely boost small-cell 5G deployments.

Top factors that impact

A rise in the trend for remote work due to the outbreak of COVID-19 is fueling the introduction of 5G’s small cell networks in industries around the world. This is expected to accelerate the growth in the market over the forecast time. Additionally, factors like an increasing network density, the rise of mobile data usage, and the development of the Citizens Broadband Radio Service (CBRS) band will boost the expansion of the world’s small cell 5G market. Additionally, the increase in investments in infrastructure for 5G by various countries encourages the market growth. However, the concerns regarding 5G small cell backhaul and problems with deployment of small cells will likely hinder the market for small cell 5G networks expansion. However, the rise of the Internet of Things (IoT) and the rise in demand for low-latency, ultra-reliable communications are likely to create significant opportunities for the development of the global market over the next few years.

The rise in mobile data traffic

Mobile data traffic refers to internet content transferred to mobile devices, including tablets and smartphones. A constant rise in the amount of mobile data being transmitted worldwide is leading to the expansion of the industry. Mobile traffic worldwide is predicted to increase by 5 times the growth rate and reach 136EB per month until 2024. Additionally, in 2024 5G networks are anticipated to handle nearly one-third of mobile data traffic worldwide. In light of the significant increase in mobile data, demand for technologically advanced telecommunications networks is likely to grow significantly.

Needs for network enhancement to grow because of the exponential growth in mobile data traffic is anticipated to boost demand for 5G networks with small cells. Introducing the 5G network will offer a high-speed quality network to the consumers. Additionally, in 2018, mobile data traffic increased by 71% year-over-year worldwide, reaching over 140 Exabytes in the year. Furthermore, as per Cisco VNI’s Global Mobile Data Traffic Forecast, 2018-2022, mobile data traffic is predicted to increase by a CVGR that is 46% between 2018 through 2022. This is more than twice the increase in worldwide IP fixed traffic over the same time. In 2022, mobile traffic will account for 20% of all IP traffic.

The emergence of the Internet of Things (IoT)

While the 4G IoT technologies are being used to meet IoT requirements, the technologies precisely fit specific applications with low latency, bandwidth, and reliability requirements. The performance and capacity of these 4G IoT technologies are lower than what is expected for 5G but enough to create new business models that incorporate connectivity. Small cells in 5G are essential to enable 5G IoT scenarios since they can be used at high density. They also serve as the preferred option to accommodate the limited transmission range for millimetre wave-based small cell networks.

The need for 5G infrastructure is expected to increase in the coming years to help support IoT usage cases, such as massive IoT that requires extensive connections with up to 1 million units per kilometre, with lower data rates per device, which is expected to create enormous opportunities for expansion of the market globally.

It is predicted that the overall IoT market size could reach a level of $11 trillion in 2025. Additionally, 5G can support 10 times more connectivity per square mile. This is vital since it will have billions of IoT devices that need to be connected. Connecting more devices leads to less equipment within the network, more efficient deployment, and quicker deployment times are anticipated to make it more necessary for small cell 5G deployment.

Small Cell 5G Network Market Report Scope and Segmentation

ATTRIBUTESDETAILS
ESTIMATED YEAR2022
BASE YEAR2021
FORECAST YEAR2030
HISTORICAL YEAR2017-2021
UNITValue (USD Million/Billion)
BY REGIONNorth America, Europe, Asia Pacific, Latin America, Middle East and Africa

Asia-Pacific is predicted to be one of the most critical regions.

Principal Benefits for Stakeholders

  • This research includes the 5G small cell market analysis, trend analysis and forecasts for the future to estimate the likely investment pockets.
  • The report details the essential drivers, limitations and market for small cell 5G networks. Potential.
  • The 5G small cell market size is analyzed quantitatively from 2020 until 2030 to show the financial competence of the sector.
  • Porter’s Five Forces analysis highlights the potential of buyers and suppliers in the small cell 5G network market.

Market Segments Key Market Segments

  • By INTEREST
    • INDOOR Applications
    • Outdoor APPLICATION
  • BY COMPONENT
    • Solution
  • Services
      • Professional Services
      • Consulting Services
    • Training and Support Services
    • Implementation & Integration Service
    • Managed Services
  • By the time you finish using your account,
    • RESIDENTIAL
    • COMMERCIAL
    • INDUSTRIAL
    • SMART CITY
    • TRANSPORTATION and LOGISTICS
    • GOVERNMENT AND DEFENSES
    • OTHERS
  • BY REGION
  • North America
    • US
    • Canada
    • Mexico
  • Europe
    • Germany
    • Italy
    • France
    • UK
    • Spain
    • Poland
    • Russia
    • The Netherlands
    • Norway
    • Czech Republic
    • Rest of Europe
  • Asia Pacific
    • China
    • Japan
    • India
    • South Korea
    • Indonesia
    • Malaysia
    • Thailand
    • Singapore
    • Australia & New Zealand
    • Rest of Asia Pacific
  • South America
    • Brazil
    • Argentina
    • Colombia
    • Rest of South America
  • The Middle East & Africa
    • Saudi Arabia
    • UAE
    • South Africa
    • Northern Africa
    • Rest of MEA
  • BY Radio Technology
    • Non-standalone
    • Standalone
  • BY FREQUENCY BAND
    • Low band
    • Mid-band
    • millimetre-wave
  • BY CELL Type
    • Femtocells
    • Picocells
    • Microcells

The Key Market Player

  • ALTIOSTAR NETWORKS, INC
  • AVIAT NETWORKS, INC
  • BAICELLS TECHNOLOGIES
  • BLINQ Network works
  • CAMBIUM NETWORKS CORPORATION
  • CASA SYSTEMS INC
  • CERAGON Network works LTD
  • COMBA TELECOM Systems Holdings LTD
  • CONTROL INC
  • SHENZHEN GONGJIN ELECTRONICS CO., LTD
  • IP.ACCESS LTD
  • PATEL, INC
  • QUELL INC
  • RADISYS CORPORATION
  • RADWIN

Table of Contents

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.Secondary research
1.4.2.Primary research
1.4.3.Analyst tools & models
1.4.4.ASP calculation approaches

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

3.3.MARKET EVOLUTION/INDUSTRY ROADMAP
3.4.PORTERS FIVE FORCES ANALYSIS

3.4.1.Moderate-to-high bargaining power of suppliers
3.4.2.Moderate-to-high bargaining power of Buyers
3.4.3.Moderate-to-high threat of substitutes
3.4.4.Moderate-to-high threat of new entrants
3.4.5.High competitive rivalry

3.5.MARKET DYNAMICS

3.5.1.Drivers

3.5.1.1.Increase in network densification
3.5.1.2.Rise in mobile data traffic
3.5.1.3.Emergence of citizens broadband radio service (CBRS) band
3.5.1.4.Increase in investment in 5G infrastructure by numerous countries
3.5.1.5.Rapid development of 5G infrastructure in the wake of the COVID-19 pandemic

3.5.2.Restraints

3.5.2.1.Concerns related to fiber backhaul
3.5.2.2.Small cell deployment challenges

3.5.3.Opportunities

3.5.3.1.Emergence of Internet of Things (IoT)
3.5.3.2.Increase in demand for ultra-reliable, low-latency communications

3.6.COVID-19 IMPACT ANALYSIS ON GLOBAL SMALL CELL 5G NETWORK MARKET

3.6.1.Impact on market size
3.6.2.Consumer trends, preferences, and budget impact
3.6.3.Regulatory framework
3.6.4.Economic impact
3.6.5.Key player strategies to tackle negative impact
3.6.6.Opportunity window

3.7.5G ROLLOUT TRENDS ANALYSIS
3.8.VALUE CHAIN ANALYSIS
3.9.GOVERNMENT REGULATIONS PERTAINING TO SMALL CELL 5G ROLLOUT
3.10.RACE ANALYSIS

CHAPTER 4:SMALL CELL 5G NETWORK MARKET, BY COMPONENT

4.1.OVERVIEW
4.2.SOLUTION

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.SERVICE

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
4.3.4.Professional Services

4.3.4.1.Market size and forecast
4.3.4.2.Consulting Services

4.3.4.2.1.Market size and forecast
4.3.4.2.2.Competitive Landscape

4.3.4.3.Training and Support Services

4.3.4.3.1.Market size and forecast

4.3.4.4.Competitive Landscape

4.3.5.Implementation and Integration Service

4.3.5.1.Market size and forecast
4.3.5.2.Competitive Landscape

4.3.6.Managed Services

4.3.6.1.Market size and forecast
4.3.6.2.Competitive Landscape

CHAPTER 5:SMALL CELL 5G NETWORK MARKET, BY RADIO TECHNOLOGY

5.1.OVERVIEW
5.2.NON-STANDALONE

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.STANDALONE

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

CHAPTER 6:SMALL CELL 5G NETWORK MARKET, BY FREQUENCY BAND

6.1.OVERVIEW
6.2.LOW-BAND

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.MID-BAND

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.MILLIMETER WAVE

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:SMALL CELL 5G NETWORK MARKET, BY CELL TYPE

7.1.OVERVIEW
7.2.FEMTOCELLS

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.PICOCELLS

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.MICROCELLS

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:SMALL CELL 5G NETWORK MARKET, BY APPLICATION

8.1.OVERVIEW
8.2.INDOOR APPLICATIONS

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.OUTDOOR APPLICATION

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

CHAPTER 9:SMALL CELL 5G NETWORK MARKET, BY END USER

9.1.OVERVIEW
9.2.RESIDENTIAL

9.2.1.Key market trends, growth factors, and opportunities
9.2.2.Market size and forecast, by region
9.2.3.Market analysis, by country

9.3.COMMERCIAL

9.3.1.Key market trends, growth factors, and opportunities
9.3.2.Market size and forecast, by region
9.3.3.Market size and forecast, by commercial segment types
9.3.4.Market analysis, by country

9.4.INDUSTRIAL

9.4.1.Key market trends, growth factors, and opportunities
9.4.2.Market size and forecast, by region
9.4.3.Market size and forecast, by industrial
9.4.4.Market analysis, by country

9.5.SMART CITY

9.5.1.Key market trends, growth factors, and opportunities
9.5.2.Market size and forecast, by region
9.5.3.Market analysis, by country

9.6.TRANSPORTATION AND LOGISTICS

9.6.1.Key market trends, growth factors, and opportunities
9.6.2.Market size and forecast, by region
9.6.3.Market analysis, by country

9.7.GOVERNMENT AND DEFENSES

9.7.1.Key market trends, growth factors, and opportunities
9.7.2.Market size and forecast, by region
9.7.3.Market analysis, by country

9.8.OTHERS

9.8.1.Key market trends, growth factors, and opportunities
9.8.2.Market size and forecast, by region
9.8.3.Market analysis, by country

CHAPTER 10:SMALL CELL 5G NETWORK MARKET, BY REGION

10.1.OVERVIEW
10.2.NORTH AMERICA

10.2.1.Key market trends, growth factors and opportunities
10.2.2.Market size and forecast, by component
10.2.3.Market size and forecast, by radio technology
10.2.4.Market size and forecast, by frequency band
10.2.5.Market size and forecast, by cell type
10.2.6.Market size and forecast, by application
10.2.7.Market size and forecast, by end user
10.2.8.Market analysis by country

10.2.8.1.U.S.

10.2.8.1.1.Market size and forecast, by component
10.2.8.1.2.Market size and forecast, by radio technology
10.2.8.1.3.Market size and forecast, by frequency band
10.2.8.1.4.Market size and forecast, by cell type
10.2.8.1.5.Market size and forecast, by application
10.2.8.1.6.Market size and forecast, by end user

10.2.8.2.Canada

10.2.8.2.1.Market size and forecast, by component
10.2.8.2.2.Market size and forecast, by radio technology
10.2.8.2.3.Market size and forecast, by frequency band
10.2.8.2.4.Market size and forecast, by cell type
10.2.8.2.5.Market size and forecast, by application
10.2.8.2.6.Market size and forecast, by end user

10.3.EUROPE

10.3.1.Key market trends, growth factors and opportunities
10.3.2.Market size and forecast, by component
10.3.3.Market size and forecast, by radio technology
10.3.4.Market size and forecast, by frequency band
10.3.5.Market size and forecast, by cell type
10.3.6.Market size and forecast, by application
10.3.7.Market size and forecast, by end user
10.3.8.Market analysis by country

10.3.8.1.Germany

10.3.8.1.1.Market size and forecast, by component
10.3.8.1.2.Market size and forecast, by radio technology
10.3.8.1.3.Market size and forecast, by frequency band
10.3.8.1.4.Market size and forecast, by cell type
10.3.8.1.5.Market size and forecast, by application
10.3.8.1.6.Market size and forecast, by end user

10.3.8.2.France

10.3.8.2.1.Market size and forecast, by component
10.3.8.2.2.Market size and forecast, by radio technology
10.3.8.2.3.Market size and forecast, by frequency band
10.3.8.2.4.Market size and forecast, by cell type
10.3.8.2.5.Market size and forecast, by application
10.3.8.2.6.Market size and forecast, by end user

10.3.8.3.UK

10.3.8.3.1.Market size and forecast, by component
10.3.8.3.2.Market size and forecast, by radio technology
10.3.8.3.3.Market size and forecast, by frequency band
10.3.8.3.4.Market size and forecast, by cell type
10.3.8.3.5.Market size and forecast, by application
10.3.8.3.6.Market size and forecast, by end user

10.3.8.4.Russia

10.3.8.4.1.Market size and forecast, by component
10.3.8.4.2.Market size and forecast, by radio technology
10.3.8.4.3.Market size and forecast, by frequency band
10.3.8.4.4.Market size and forecast, by cell type
10.3.8.4.5.Market size and forecast, by application
10.3.8.4.6.Market size and forecast, by end user

10.3.8.5.Italy

10.3.8.5.1.Market size and forecast, by component
10.3.8.5.2.Market size and forecast, by radio technology
10.3.8.5.3.Market size and forecast, by frequency band
10.3.8.5.4.Market size and forecast, by cell type
10.3.8.5.5.Market size and forecast, by application
10.3.8.5.6.Market size and forecast, by end user

10.3.8.6.Rest of Europe

10.3.8.6.1.Market size and forecast, by component
10.3.8.6.2.Market size and forecast, by radio technology
10.3.8.6.3.Market size and forecast, by frequency band
10.3.8.6.4.Market size and forecast, by cell type
10.3.8.6.5.Market size and forecast, by application
10.3.8.6.6.Market size and forecast, by end user

10.4.ASIA-PACIFIC

10.4.1.Key market trends, growth factors and opportunities
10.4.2.Market size and forecast, by component
10.4.3.Market size and forecast, by radio technology
10.4.4.Market size and forecast, by frequency band
10.4.5.Market size and forecast, by cell type
10.4.6.Market size and forecast, by application
10.4.7.Market size and forecast, by end user
10.4.8.Market analysis by country

10.4.8.1.Japan

10.4.8.1.1.Market size and forecast, by component
10.4.8.1.2.Market size and forecast, by radio technology
10.4.8.1.3.Market size and forecast, by frequency band
10.4.8.1.4.Market size and forecast, by cell type
10.4.8.1.5.Market size and forecast, by application
10.4.8.1.6.Market size and forecast, by end user

10.4.8.2.China

10.4.8.2.1.Market size and forecast, by component
10.4.8.2.2.Market size and forecast, by radio technology
10.4.8.2.3.Market size and forecast, by frequency band
10.4.8.2.4.Market size and forecast, by cell type
10.4.8.2.5.Market size and forecast, by application
10.4.8.2.6.Market size and forecast, by end user

10.4.8.3.India

10.4.8.3.1.Market size and forecast, by component
10.4.8.3.2.Market size and forecast, by radio technology
10.4.8.3.3.Market size and forecast, by frequency band
10.4.8.3.4.Market size and forecast, by cell type
10.4.8.3.5.Market size and forecast, by application
10.4.8.3.6.Market size and forecast, by end user

10.4.8.4.South Korea

10.4.8.4.1.Market size and forecast, by component
10.4.8.4.2.Market size and forecast, by radio technology
10.4.8.4.3.Market size and forecast, by frequency band
10.4.8.4.4.Market size and forecast, by cell type
10.4.8.4.5.Market size and forecast, by application
10.4.8.4.6.Market size and forecast, by end user

10.4.8.5.Indonesia

10.4.8.5.1.Market size and forecast, by component
10.4.8.5.2.Market size and forecast, by radio technology
10.4.8.5.3.Market size and forecast, by frequency band
10.4.8.5.4.Market size and forecast, by cell type
10.4.8.5.5.Market size and forecast, by application
10.4.8.5.6.Market size and forecast, by end user

10.4.8.6.Rest of Asia-Pacific

10.4.8.6.1.Market size and forecast, by component
10.4.8.6.2.Market size and forecast, by radio technology
10.4.8.6.3.Market size and forecast, by frequency band
10.4.8.6.4.Market size and forecast, by cell type
10.4.8.6.5.Market size and forecast, by application
10.4.8.6.6.Market size and forecast, by end user

10.5.LAMEA

10.5.1.Key market trends, growth factors and opportunities
10.5.2.Market size and forecast, by component
10.5.3.Market size and forecast, by radio technology
10.5.4.Market size and forecast, by frequency band
10.5.5.Market size and forecast, by cell type
10.5.6.Market size and forecast, by application
10.5.7.Market size and forecast, by end user
10.5.8.Market analysis by country

10.5.8.1.Brazil

10.5.8.1.1.Market size and forecast, by component
10.5.8.1.2.Market size and forecast, by radio technology
10.5.8.1.3.Market size and forecast, by frequency band
10.5.8.1.4.Market size and forecast, by cell type
10.5.8.1.5.Market size and forecast, by application
10.5.8.1.6.Market size and forecast, by end user

10.5.8.2.Saudi Arabia

10.5.8.2.1.Market size and forecast, by component
10.5.8.2.2.Market size and forecast, by radio technology
10.5.8.2.3.Market size and forecast, by frequency band
10.5.8.2.4.Market size and forecast, by cell type
10.5.8.2.5.Market size and forecast, by application
10.5.8.2.6.Market size and forecast, by end user

10.5.8.3.South Africa

10.5.8.3.1.Market size and forecast, by component
10.5.8.3.2.Market size and forecast, by radio technology
10.5.8.3.3.Market size and forecast, by frequency band
10.5.8.3.4.Market size and forecast, by cell type
10.5.8.3.5.Market size and forecast, by application
10.5.8.3.6.Market size and forecast, by end user

10.5.8.4.Turkey

10.5.8.4.1.Market size and forecast, by component
10.5.8.4.2.Market size and forecast, by radio technology
10.5.8.4.3.Market size and forecast, by frequency band
10.5.8.4.4.Market size and forecast, by cell type
10.5.8.4.5.Market size and forecast, by application
10.5.8.4.6.Market size and forecast, by end user

10.5.8.5.United Arab Emirates

10.5.8.5.1.Market size and forecast, by component
10.5.8.5.2.Market size and forecast, by radio technology
10.5.8.5.3.Market size and forecast, by frequency band
10.5.8.5.4.Market size and forecast, by cell type
10.5.8.5.5.Market size and forecast, by application
10.5.8.5.6.Market size and forecast, by end user

10.5.8.6.Egypt

10.5.8.6.1.Market size and forecast, by component
10.5.8.6.2.Market size and forecast, by radio technology
10.5.8.6.3.Market size and forecast, by frequency band
10.5.8.6.4.Market size and forecast, by cell type
10.5.8.6.5.Market size and forecast, by application
10.5.8.6.6.Market size and forecast, by end user

10.5.8.7.Rest of Africa

10.5.8.7.1.Market size and forecast, by component
10.5.8.7.2.Market size and forecast, by radio technology
10.5.8.7.3.Market size and forecast, by frequency band
10.5.8.7.4.Market size and forecast, by cell type
10.5.8.7.5.Market size and forecast, by application
10.5.8.7.6.Market size and forecast, by end user

10.5.8.8.Rest of Middle East

10.5.8.8.1.Market size and forecast, by component
10.5.8.8.2.Market size and forecast, by radio technology
10.5.8.8.3.Market size and forecast, by frequency band
10.5.8.8.4.Market size and forecast, by cell type
10.5.8.8.5.Market size and forecast, by application
10.5.8.8.6.Market size and forecast, by end user

10.5.8.9.Rest of Latin America

10.5.8.9.1.Market size and forecast, by component
10.5.8.9.2.Market size and forecast, by radio technology
10.5.8.9.3.Market size and forecast, by frequency band
10.5.8.9.4.Market size and forecast, by cell type
10.5.8.9.5.Market size and forecast, by application
10.5.8.9.6.Market size and forecast, by end user

CHAPTER 11:COMPETITIVE LANDSCAPE

11.1.COMPETITIVE DASHBOARD
11.2.KEY DEVELOPMENTS

11.2.1.New product launches
11.2.2.Partnership
11.2.3.Acquisition
11.2.4.Business Expansion
11.2.5.Product development
11.2.6.Collaboration
11.2.7.Agreement

CHAPTER 12:COMPANY PROFILES

12.1.ALTIOSTAR NETWORKS, INC.

12.1.1.Company overview
12.1.2.Key executive
12.1.3.Company snapshot
12.1.4.Product portfolio
12.1.5.Key strategic moves and developments

12.2.AVIAT NETWORKS, INC.

12.2.1.Company overview
12.2.2.Key executive
12.2.3.Company snapshot
12.2.4.Product portfolio
12.2.5.R&D Expenditure
12.2.6.Business performance
12.2.7.Key strategic moves and developments

12.3.BAICELLS TECHNOLOGIES

12.3.1.Company overview
12.3.2.Key executive
12.3.3.Company snapshot
12.3.4.Product portfolio
12.3.5.Key strategic moves and developments

12.4.BLINQ NETWORKS

12.4.1.Company overview
12.4.2.Key executive
12.4.3.Company snapshot
12.4.4.Product portfolio
12.4.5.Key strategic moves and developments

12.5.CAMBIUM NETWORKS CORPORATION

12.5.1.Company overview
12.5.2.Key executive
12.5.3.Company snapshot
12.5.4.Operating business segments
12.5.5.Product portfolio
12.5.6.R&D Expenditure
12.5.7.Business performance
12.5.8.Key strategic moves and developments

12.6.CASA SYSTEMS, INC.

12.6.1.Company overview
12.6.2.Key executive
12.6.3.Company snapshot
12.6.4.Product portfolio
12.6.5.R&D expenditure
12.6.6.Business performance
12.6.7.Key strategic moves and developments

12.7.CERAGON NETWORKS LTD.

12.7.1.Company overview
12.7.2.Key executive
12.7.3.Company snapshot
12.7.4.Product portfolio
12.7.5.R&D expenditure
12.7.6.Business performance
12.7.7.Key strategic moves and developments

12.8.COMBA TELECOM SYSTEMS HOLDINGS LTD.

12.8.1.Company overview
12.8.2.Key executive
12.8.3.Company snapshot
12.8.4.Product portfolio
12.8.5.R&D expenditure
12.8.6.Business performance
12.8.7.Key strategic moves and developments

12.9.CONTELA INC.

12.9.1.Company overview
12.9.2.Key executive
12.9.3.Company snapshot
12.9.4.Product portfolio
12.9.5.Key strategic moves and developments

12.10.SHENZHEN GONGJIN ELECTRONICS CO., LTD

12.10.1.Company overview
12.10.2.Key executive
12.10.3.Company snapshot
12.10.4.Product portfolio
12.10.5.Key strategic moves and developments

12.11.IP.ACCESS LTD

12.11.1.Company overview
12.11.2.Key executive
12.11.3.Company snapshot
12.11.4.Product portfolio
12.11.5.Key strategic moves and developments

12.12.PCTEL, INC.

12.12.1.Company overview
12.12.2.Key executive
12.12.3.Company snapshot
12.12.4.Operating business segments
12.12.5.Product por

Major Companies

  • ALTIOSTAR NETWORKS, INC
  • AVIAT NETWORKS, INC
  • BAICELLS TECHNOLOGIES
  • BLINQ Network works
  • CAMBIUM NETWORKS CORPORATION
  • CASA SYSTEMS INC
  • CERAGON Network works LTD
  • COMBA TELECOM Systems Holdings LTD
  • CONTROL INC
  • SHENZHEN GONGJIN ELECTRONICS CO., LTD
  • IP.ACCESS LTD
  • PATEL, INC
  • QUELL INC
  • RADISYS CORPORATION
  • RADWIN

Major Segmentation

  • By INTEREST
    • INDOOR Applications
    • Outdoor APPLICATION
  • BY COMPONENT
    • Solution
  • Services
      • Professional Services
      • Consulting Services
    • Training and Support Services
    • Implementation & Integration Service
    • Managed Services
  • By the time you finish using your account,
    • RESIDENTIAL
    • COMMERCIAL
    • INDUSTRIAL
    • SMART CITY
    • TRANSPORTATION and LOGISTICS
    • GOVERNMENT AND DEFENSES
    • OTHERS

Why Choose MWR

Quality Research

Our goal is to provide high-quality data that stimulates growth and creates a win-win situations

Unlimited User Access 

We offer Corporate User license access on all our reports in which you can share the report with your entire team without any restrictions

Free Company Inclusion 

We give you an option to include 3-4 additional company players of your choice in our report without any extra charges

Post Sale Assistance

Unlimited post sales service with an account manager dedicated to making sure that all your needs are met

Covid-19 Impact Analysis

All our research report includes latest Covid-19 Impact and its analysis

Download Free Sample PDF

444 Alaska Avenue

Suite #BAA205 Torrance, CA 90503 USA

+1 424 360 2221

24/7 Customer Support

Download Free Sample PDF