In-building Wireless Market

Category : Information & Communication Technology Reports | Delivery Format : PDF,PPT | Publisher: Reports and Insights | Pages : 307

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In-building Wireless Market Overview

The report is titled as ‘In-building Learning Market: Opportunity Analysis and Future Assessment 2020-2028’. An overview of conceptual frameworks, analytical approaches of the in-building wireless market is the main objective of the report, which further consists of the market opportunity and insights of the data involved in the making of the respective market. The in-building wireless market is expected to grow at a significant rate in the near future.

The in-building wireless market is expected to reach US$ 23.2 Bn by 2028 from US$ 10.1 Bn in 2020, at a CAGR of 11.0% during the forecast period of 2020 to 2028.

In-building Wireless Introduction

In-building wireless can be referred to as a communication solution that can be used to sustain connectivity within a building where signals from the center substructure are not accessible. In-building wireless solutions are gaining massive traction in the global markets among the network providers who are striving for improved delivery of services to their focus clients in the most stringent and discerning signal environment.

The traditional disseminated antenna systems (DAS) based in-building wireless has shifted its major attention from offering good signal coverage within a building towards approaching the elevated capacity for bandwidth-consuming services like info-centric services.

In-building Wireless Market Dynamics

In the modern age, the users’ demand for universal and uninterrupted connections for bandwidth greedy applications has developed a need to amplify the range of cellular networks indoors. Although in-building settings are exclusively difficult due to the “muddle” in the form of elevator shafts, cement walls, metal and, a little while ago, low-E glass, which adversely affect the growth of a wireless signal.

The in-building wireless solutions suggests communications services that provide connectivity to the depths and core of a building and any other commercial areas where signals from center infrastructure are unable to be received. Owing to the bandwidth-intensive applications, the demand for enhanced connectivity and improved network services has elevated significantly throughout the years. Attributing to which, the in-building wireless solutions are expected to observe huge demand in the near future, thereby propelling the growth of the global in-building wireless market.

In addition to that, most of the commercial as well as residential areas are dependent on the internet connection for their regular operations, and thus they are already equipping the area with the in-building wireless solutions. Therefore, the global in-building wireless market is expected to grow significantly over the forecast period.

In-building Wireless Market Segmentation

The global in-building wireless market is segmented on the basis of component, business model, venue, end-user and region. The component segment of the in-building wireless market is divided into infrastructure and services. The infrastructure segment is further divided into DAS and small cells. Furthermore, the business model segment is divided into service providers, enterprises, and neutral host operators. On the basis of venue, the market is segmented into large venues, medium venues, and small venues. Lastly, on the basis of end-user, the market is divided into government, manufacturing, transportation and logistics, education, retail, hospitality, healthcare, and others.

In-building Wireless Market Key Players

The global in-building wireless market is dominated by Nokia, Ericsson, Huawei, ZTE, NEC, CommScope, Corning, Axell Wireless, Comba Telecom, Samsung, SOLiD, Dali Wireless, Zinwave, ADRF, ip.access, Airspan, Contela, Fujitsu, BTI Wireless, Bird, Accelleran, Baicells Technologies, Qucell, Casa Systems, CommAgility, Galtronics, G-Wave Solutions, HUBER+SUHNER, JMA Wireless, Microlab, Nextivity, Sarcomm, PCTEL, Whoop Wireless, and Westell Technologies, among others.

MMC Overview on In-building Wireless Market Report

The non-identical approach of Reports and Insights stands with conceptual methods backed up with the data analysis. The novel market understanding approach makes up the standard of the assessment results that give a better opportunity for the customers to put their effort.

A research report on the in-building wireless market by Reports and Insights is an in-depth and extensive study of the market based on the necessary data crunching and statistical analysis. It provides a brief view of the dynamics flowing through the market, which includes the factors that support the market and the factors that are acting as impedance for the growth of the market.

Furthermore, the report includes the various trends and opportunities in the respective market in different regions for a better understanding of readers that helps to analyze the potential of the market.

Factors that are benchmarked while estimating the market

Various factors that are benchmarked while estimating the market growth includes (but not restricted to):

New product designs and launches

Current product compliance

Reimbursement

Concerns for use of in-building wireless

Advantages of in-building wireless

Actions taken by the manufacturer and respective regulatory authorities also impact the market growth of the segment. These factors are understood at regional level and in major countries globally for providing regional insights of the product segment in the report. This helps our clients to make informed decisions.

A mix of top-down and bottom-up approach is followed to arrive and validate our market value estimations. For a product segment like wherein one/two manufacturer(s) dominates the market, it’s products sales, previous growth rates and market expansion plans are considered to generate market share in the global market.


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1.    Global In-building Wireless Market Report Overview

1.1.    Introduction

1.2.    Report Description

1.3.    Methodology

2.    Global In-building Wireless Market Overview

2.1.    Introduction

2.1.1.    Introduction

2.1.2.    Market Taxonomy

2.2.    Executive Summary

2.3.    Global In-building Wireless Market Snapshot

2.4.    Global In-building Wireless Market Size and Forecast, 2020–2028

2.4.1.    Introduction

2.4.2.    Market Value Forecast And Annual Growth Rate (AGR) Comparison (2020–2028)

2.5.    Global In-building Wireless Market Dynamics

2.5.1.    Drivers

2.5.2.    Restraints

2.5.3.    Opportunity

2.5.4.    Trends

2.6.    Porter’s Five Forces Model

2.7.    SWOT Analysis

3.    In-building Wireless Assessment and Analysis

3.1.    In-building Wireless Impact Analysis 

3.2.    Actions to encourage use of In-building Wireless

3.3.    In-building Wireless Promotional Strategy Recommendation

3.4.    Road Map Analysis

3.5.    GAP Analysis

3.6.    Potential Analysis

4.    Covid-19 Impact on In-building Wireless Market

5.    Global In-building Wireless Market, By Component

5.1.    Introduction

5.1.1.    Annual Growth Rate Comparison, By Component

5.1.2.    BPS Analysis, By Component

5.2.    Market Revenue (US$ Mn) and Forecast, By Component

5.2.1.    Infrastructure

5.2.1.1.    DAS

5.2.1.2.    Small Cells

5.2.2.    Services

5.3.    Global In-building Wireless Market Attractiveness Index, By Component

6.    Global In-building Wireless Market, By Business Model

6.1.    Introduction

6.1.1.    Annual Growth Rate Comparison, By Business Model

6.1.2.    BPS Analysis, By Business Model

6.2.    Market Revenue (US$ Mn) and Forecast, By Business Model

6.2.1.    Service Providers

6.2.2.    Enterprises

6.2.3.    Neutral Host Operators

6.3.     Global In-building Wireless Market Attractiveness Index, By Business Model

7.    Global In-building Wireless Market, By Venue

7.1.    Introduction

7.1.1.    Annual Growth Rate Comparison, By Venue

7.1.2.    BPS Analysis, By Venue

7.2.    Market Revenue (US$ Mn) and Forecast, By Venue

7.2.1.    Large Venues

7.2.2.    Medium Venues

7.2.3.    Small Venues

7.3.    Global In-building Wireless Market Attractiveness Index, By Venue

8.    Global In-building Wireless Market, By End-Users

8.1.    Introduction

8.1.1.    Annual Growth Rate Comparison, By End-Users

8.1.2.    BPS Analysis, By End-Users

8.2.    Market Revenue (US$ Mn) and Forecast, By End-Users

8.2.1.    Government

8.2.2.    Manufacturing

8.2.3.    Transportation and Logistics

8.2.4.    Education

8.2.5.    Retail

8.2.6.    Hospitality

8.2.7.    Healthcare

8.2.8.    Others

8.3.     Global In-building Wireless Market Attractiveness Index, By End-Users

9.    Global In-building Wireless Market, By Region

9.1.    Introduction

9.1.1.    Annual Growth Rate Comparison, By Region

9.1.2.    BPS Analysis, By Region

9.2.    Market Revenue (US$ Mn) and Forecast, By Region

9.2.1.    North America

9.2.2.    Latin America

9.2.3.    Europe

9.2.4.    Asia Pacific

9.2.5.    Middle East 

9.2.6.    Africa

9.3.    Global In-building Wireless Market Attractiveness Index, By Region

10.    North America In-building Wireless Market Analysis and Forecast, 2020–2028

10.1.    Introduction

10.1.1.    Annual Growth Rate Comparison, By Country

10.1.2.    BPS Analysis, By Country

10.2.    Market Revenue (US$ Mn) and Forecast, By Country

10.2.1.    U.S. In-building Wireless Market

10.2.2.    Canada In-building Wireless Market

10.3.    North America In-building Wireless Market, By Component

10.3.1.    Infrastructure

10.3.1.1.    DAS

10.3.1.2.    Small Cells

10.3.2.    Services

10.4.    North America In-building Wireless Market Revenue (US$ Mn) and Forecast, By Business Model

10.4.1.    Service Providers

10.4.2.    Enterprises

10.4.3.    Neutral Host Operators

10.5.    North America In-building Wireless Market Revenue (US$ Mn) and Forecast, By Venue

10.5.1.    Large Venues

10.5.2.    Medium Venues

10.5.3.    Small Venues

10.6.    North America In-building Wireless Market Revenue (US$ Mn) and Forecast, By End-Users

10.6.1.    Government

10.6.2.    Manufacturing

10.6.3.    Transportation and Logistics

10.6.4.    Education

10.6.5.    Retail

10.6.6.    Hospitality

10.6.7.    Healthcare

10.6.8.    Others

10.6.9.    

10.7.    North America In-building Wireless Market Attractiveness Index

10.7.1.    By Country

10.7.2.    By Component

10.7.3.    By Business Model

10.7.4.    By Venue

10.7.5.    By End-Users

11.    Latin America In-building Wireless Market Analysis and Forecast, 2020–2028

11.1.    Introduction

11.1.1.    Annual Growth Rate Comparison, By Country

11.1.2.    BPS Analysis, By Country

11.2.    Market (US$ Mn) Forecast, By Country

11.2.1.    Brazil In-building Wireless Market

11.2.2.    Mexico In-building Wireless Market

11.2.3.    Rest of Latin America In-building Wireless Market

11.3.    Latin America In-building Wireless Market, By Component

11.3.1.    Infrastructure

11.3.1.1.    DAS

11.3.1.2.    Small Cells

11.3.2.    Services

11.4.    Latin America In-building Wireless Market Revenue (US$ Mn) and Forecast, By Business Model

11.4.1.    Service Providers

11.4.2.    Enterprises

11.4.3.    Neutral Host Operators

11.5.    Latin America In-building Wireless Market Revenue (US$ Mn) and Forecast, By Venue

11.5.1.    Large Venues

11.5.2.    Medium Venues

11.5.3.    Small Venues

11.6.    Latin America In-building Wireless Market Revenue (US$ Mn) and Forecast, By End-Users

11.6.1.    Government

11.6.2.    Manufacturing

11.6.3.    Transportation and Logistics

11.6.4.    Education

11.6.5.    Retail

11.6.6.    Hospitality

11.6.7.    Healthcare

11.6.8.    Others

11.6.9.    

11.7.    Latin America In-building Wireless Market Attractiveness Index

11.7.1.    By Country

11.7.2.    By Component

11.7.3.    By Business Model

11.7.4.    By Venue

11.7.5.    By End-Users

12.    Europe In-building Wireless Market Analysis and Forecast, 2020–2028

12.1.    Introduction

12.1.1.    Annual Growth Rate Comparison, By Country

12.1.2.    BPS Analysis, By Country

12.2.    Market (US$ Mn) Forecast, By Country

12.2.1.    U.K. In-building Wireless Market

12.2.2.    Germany In-building Wireless Market

12.2.3.    Italy In-building Wireless Market

12.2.4.    France In-building Wireless Market

12.2.5.    Spain In-building Wireless Market

12.2.6.    Russia In-building Wireless Market

12.2.7.    Rest of Europe In-building Wireless Market

12.3.    Europe In-building Wireless Market, By Component

12.3.1.    Infrastructure

12.3.1.1.    DAS

12.3.1.2.    Small Cells

12.3.2.    Services

12.4.    Europe In-building Wireless Market Revenue (US$ Mn) and Forecast, By Business Model

12.4.1.    Service Providers

12.4.2.    Enterprises

12.4.3.    Neutral Host Operators

12.5.    Europe In-building Wireless Market Revenue (US$ Mn) and Forecast, By Venue

12.5.1.    Large Venues

12.5.2.    Medium Venues

12.5.3.    Small Venues

12.6.    Europe In-building Wireless Market Revenue (US$ Mn) and Forecast, By End-Users

12.6.1.    Government

12.6.2.    Manufacturing

12.6.3.    Transportation and Logistics

12.6.4.    Education

12.6.5.    Retail

12.6.6.    Hospitality

12.6.7.    Healthcare

12.6.8.    Others

12.7.    Europe In-building Wireless Market Attractiveness Index

12.7.1.    By Country

12.7.2.    By Component

12.7.3.    By Business Model

12.7.4.    By Venue

12.7.5.    By End-Users

13.    Asia Pacific In-building Wireless Market Analysis and Forecast, 2020–2028

13.1.    Introduction

13.1.1.    Annual Growth Rate Comparison, By Country

13.1.2.    BPS Analysis, By Country

13.2.    Market (US$ Mn) Forecast, By Country

13.2.1.    China In-building Wireless Market

13.2.2.    India In-building Wireless Market

13.2.3.    Japan In-building Wireless Market

13.2.4.    Australia and New Zealand In-building Wireless Market

13.2.5.    South Korea In-building Wireless Market

13.2.6.    Rest of Asia Pacific In-building Wireless Market

13.3.    Asia Pacific In-building Wireless Market, By Component

13.3.1.    Infrastructure

13.3.1.1.    DAS

13.3.1.2.    Small Cells

13.3.2.    Services

13.4.    Asia Pacific In-building Wireless Market Revenue (US$ Mn) and Forecast, By Business Model

13.4.1.    Service Providers

13.4.2.    Enterprises

13.4.3.    Neutral Host Operators

13.5.    Asia Pacific In-building Wireless Market Revenue (US$ Mn) and Forecast, By Venue

13.5.1.    Large Venues

13.5.2.    Medium Venues

13.5.3.    Small Venues

13.6.    Asia Pacific In-building Wireless Market Revenue (US$ Mn) and Forecast, By End-Users

13.6.1.    Government

13.6.2.    Manufacturing

13.6.3.    Transportation and Logistics

13.6.4.    Education

13.6.5.    Retail

13.6.6.    Hospitality

13.6.7.    Healthcare

13.6.8.    Others

13.7.    Asia Pacific In-building Wireless Market Attractiveness Index

13.7.1.    By Country

13.7.2.    By Component

13.7.3.    By Business Model

13.7.4.    By Venue

13.7.5.    By End-Users

14.    Middle East In-building Wireless Market Analysis and Forecast, 2020–2028

14.1.    Introduction

14.1.1.    Annual Growth Rate Comparison, By Country

14.1.2.    BPS Analysis, By Country

14.2.    Market (US$ Mn) Forecast, By Country

14.2.1.    GCC Countries In-building Wireless Market

14.2.2.    Israel In-building Wireless Market

14.2.3.    Rest of Middle East In-building Wireless Market

14.3.    Middle East In-building Wireless Market, By Component

14.3.1.    Infrastructure

14.3.1.1.    DAS

14.3.1.2.    Small Cells

14.3.2.    Services

14.4.    Middle East In-building Wireless Market Revenue (US$ Mn) and Forecast, By Business Model

14.4.1.    Service Providers

14.4.2.    Enterprises

14.4.3.    Neutral Host Operators

14.5.    Middle East In-building Wireless Market Revenue (US$ Mn) and Forecast, By Venue

14.5.1.    Large Venues

14.5.2.    Medium Venues

14.5.3.    Small Venues

14.6.    Middle East In-building Wireless Market Revenue (US$ Mn) and Forecast, By End-Users

14.6.1.    Government

14.6.2.    Manufacturing

14.6.3.    Transportation and Logistics

14.6.4.    Education

14.6.5.    Retail

14.6.6.    Hospitality

14.6.7.    Healthcare

14.6.8.    Others

14.7.    Middle East In-building Wireless Market Attractiveness Index

14.7.1.    By Country

14.7.2.    By Component

14.7.3.    By Business Model

14.7.4.    By Venue

14.7.5.    By End-Users

15.    Africa In-building Wireless Market Analysis and Forecast, 2020–2028

15.1.    Introduction

15.1.1.    Annual Growth Rate Comparison, By Country

15.1.2.    BPS Analysis, By Country

15.2.    Market (US$ Mn) Forecast, By Country

15.2.1.    South Africa Countries In-building Wireless Market

15.2.2.    Egypt In-building Wireless Market

15.2.3.    North Africa In-building Wireless Market

15.2.4.    Rest of Africa In-building Wireless Market

15.3.    Africa In-building Wireless Market, By Component

15.3.1.    Infrastructure

15.3.1.1.    DAS

15.3.1.2.    Small Cells

15.3.2.    Services

15.4.    Africa In-building Wireless Market Revenue (US$ Mn) and Forecast, By Business Model

15.4.1.    Service Providers

15.4.2.    Enterprises

15.4.3.    Neutral Host Operators

15.5.    Africa In-building Wireless Market Revenue (US$ Mn) and Forecast, By Venue

15.5.1.    Large Venues

15.5.2.    Medium Venues

15.5.3.    Small Venues

15.6.    Africa In-building Wireless Market Revenue (US$ Mn) and Forecast, By End-Users

15.6.1.    Government

15.6.2.    Manufacturing

15.6.3.    Transportation and Logistics

15.6.4.    Education

15.6.5.    Retail

15.6.6.    Hospitality

15.6.7.    Healthcare

15.6.8.    Others

15.7.    Africa In-building Wireless Market Attractiveness Index

15.7.1.    By Country

15.7.2.    By Component

15.7.3.    By Business Model

15.7.4.    By Venue

15.7.5.    By End-Users

16.    Competitive Landscape

16.1.    Company Profiles

16.1.1.    Nokia

16.1.1.1.    Company Overview

16.1.1.2.    Financial Overview

16.1.1.3.    Key Developments

16.1.1.4.    Strategies

16.1.1.5.    Product Portfolio

16.1.2.    Ericsson

16.1.3.    Huawei

16.1.4.    ZTE

16.1.5.    NEC

16.1.6.    CommScope

16.1.7.    Corning

16.1.8.    Axell Wireless

16.1.9.    Comba Telecom

16.1.10.    Samsung

16.1.11.    SOLiD

16.1.12.    Dali Wireless

16.1.13.    Zinwave

16.1.14.    ADRF

16.1.15.    ip.access

16.1.16.    Airspan

16.1.17.    Contela

16.1.18.    Fujitsu

16.1.19.    BTI Wireless

16.1.20.    Bird

16.1.21.    Accelleran

16.1.22.    Baicells Technologies

16.1.23.    Qucells

16.1.24.    Casa Systems

16.1.25.    CommAgility

16.1.26.    Galtronics

16.1.27.    G-Wave Solutions

16.1.28.    HUBER+SUHNER

16.1.29.    JMA Wireless

16.1.30.    Microlab

16.1.31.    Nextivity

16.1.32.    Sarcomm

16.1.33.    PCTEL

16.1.34.    Whoop Wireless

16.1.35.    Westell Technologies

17.    Acronyms

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Frequently Asked Questions

The in-building wireless market is expected to reach US$ 23.2 Bn by 2028 from US$ 10.1 Bn in 2020, at a CAGR of 11.0% during the forecast period of 2020 to 2028

Demand for enhanced connectivity and improved network services are key factors driving the growth of market

The global in-building wireless market is segmented on the basis of component, business model, venue, end-user and region.

Nokia, Ericsson, Huawei, ZTE, NEC, CommScope, Corning, Axell Wireless, Comba Telecom, Samsung, SOLiD, Dali Wireless, Zinwave, ADRF, ip.access, Airspan, Contela, Fujitsu, BTI Wireless, Bird, Accelleran, Baicells Technologies, Qucell, Casa Systems, CommAgility, Galtronics, G-Wave Solutions, HUBER+SUHNER, JMA Wireless, Microlab, Nextivity, Sarcomm, PCTEL, Whoop Wireless, and Westell Technologies are the key participating players in the market