Global Wireless Brain Sensors Market

Analysis and Forecast, 2021-2030

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Report Description

Market Report Coverage - Wireless Brain Sensors
Forecast Period: 2021-2030
CAGR During Forecast Period: 10.53%

Market Report Coverage - Wireless Brain Sensors

Base Year

2019

Market Size in 2019

$144.6 Million

Forecast Period

2021-2030

Value Projection and Estimation by 2030

$362.0 Million

CAGR During Forecast Period

10.53%

Number of Tables

39

Number of Pages

270

Number of Figures

164

Research Hours

1000

 

 

Market Segmentation

•    Application (Sleep Disorders, Neurophysiology, Brain-Computer Interface, Cognitive Neuroscience, Neuromarketing, and Others)

•    End User (Research and Academic Institutes, and Labs, Hospitals, Home Care Settings, and Others)

Regional Segmentation

•    North America

•    Europe

•    Asia-Pacific

•    Latin America

•    Middle East and Africa

Growth Drivers

•    Use of Wireless Brain Sensors for the Diagnosis of Sleep Disorders

•    Growing Incidence of Neurological Disorders

•    Increasing Applications of Advanced Sensors in Neurological Devices

•    Growing Geriatric Population

Market Restraints

•    Stringent Regulatory Policies

•    Regional Expansion and Increasing Adoption of Wireless Brain Sensors in Emerging Economies

Market Opportunities

•    Technological Advancements in Wireless Brain Sensors Market

•    Regional Expansion and Increasing Adoption of Wireless Brain Sensors in Emerging Economies

Key Companies Profiled

Compumedics Limited, Wearable Sensing, Medtronic Plc, Natus Medical Incorporated, Brain Scientific, Inc, and Nihon Kohden Corporation, EMOTIV, Advanced Brain Monitoring, Inc, Brain Products GmbH, NeuroSky, Neuroelectrics, Cadwell Industries, Inc, Jordan Neuroscience, Inc, BrainScope Company, Inc, and Muse, among others

Key Questions Answered in this Report:

How has COVID-19 impacted the global wireless brain sensors market?

•    How has COVID-19 impacted the global wireless brain sensors market?
•    What are the key regulations for the development, commercialization, and adoption of wireless brain sensors?
•    Which are the leading players that currently hold significant dominance in the global wireless brain sensors market?
•    What are the key strategies incorporated by the players of the global wireless brain sensors market to sustain the competition and retain their supremacy? 
•    What is the patent landscape of the wireless brain sensors market?
•    What are the key technological developments on which the current industry leaders are spending their major share of research and development (R&D) investment?
•    What is the current market potential of wireless brain sensors, and what factors decide the growth potential of wireless brain sensors for the forecast period?
•    What is the current revenue contribution of different products, and how would it evolve in the forecast period? 
•    Which application contributes to the highest CAGR (%) in the global wireless brain sensors market?
•    How does the end-user perception impact the growth of the global wireless brain sensors market? 
•    Which countries contribute to a major share of the current demand, and which countries hold significant scope for expansion for business activities by players of the global wireless brain sensors market?
•    What are the drivers, restraints, and opportunities in the global wireless brain sensors market?

Market Overview

The market size of the global wireless brain sensors market was valued at $142.8 million in 2020.

Global Wireless Brain Sensors Market Forecast (2021-2030)

Global Wireless Brain Sensors Market

Key USPs of the Report

Following are some of the key contents of the report:

•    Funding Scenario
This section encompasses a description of the current funding landscape in the global wireless brain sensors space for key players.

•    Regulatory Approved Products
This section includes information on regulatory approved wireless brain sensor products in the market. 

•    Business Model Analysis 
This section comprises information on the key business models deployed in the market by leading players.

•    Impact of COVID-19
This section of the report encompasses the following:
o    Short-, Mid-, and Long-Term Impact on Wireless Brain Sensors Market
o    Regional Impact of COVID-19 Industry
o    Entry Barriers and Opportunities for the Companies in Global Wireless Brain Sensors Market

In addition, the report provides:

•    A detailed analysis and growth forecast (2021-2030) for different market segments
•    Recent developments and trends in the global market landscape
•    Factors promoting and inhibiting the market growth 
•    Case studies to assess the delivery models and strategies adopted by some of the highly funded players in the market

Expert Quote

“In order to gain a competitive share in the wireless brain sensor market, various small-scale and mid-scale companies are collaborating with government organizations and private investors to have significant funding for the development and commercialization of technically advanced wireless brain sensor products across different regions of the world. Ceribell, Inc, BrainScope, and Neural Analytics are some companies which received more than $10 million funding from finance and private investors for their products”.

Scope of the Global Wireless Brain Sensor Market

The purpose of the study is to enable the reader to gain a holistic view of the global wireless brain sensors market by each of the segments mentioned above in the table. 

The report constitutes an in-depth analysis of the global wireless brain sensors market, including a thorough analysis of the applications. The study also provides market and business-related information on various applications and end users. 

Key Companies in the Global Wireless Brain Sensor Market

Some of the key players contributing to the global wireless brain sensors market include Compumedics Limited, Wearable Sensing, Medtronic Plc, Natus Medical Incorporated, Brain Scientific, Inc, and Nihon Kohden Corporation, EMOTIV, Advanced Brain Monitoring, Inc, Brain Products GmbH, NeuroSky, Neuroelectrics, Cadwell Industries, Inc, Jordan Neuroscience, Inc, BrainScope Company, Inc, and Muse.

Table of Contents

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Product Definition

2.1    Scope of the Study
2.2    Inclusion Criteria of the Report
2.3    Exclusion Criteria of the Report
2.4    Key Questions Answered in the Report
2.5    Forecast Period Selection Criteria

3.1    Research Methodology
3.2    Primary Data Sources
3.3    Secondary Data Sources
3.4    Data and Prediction Modeling
3.5    Selection Criteria for Company Profiles
3.6    Brief Overview of Market Estimation Process
3.7    Data Validation
3.8    Assumptions and Limitations

4.1    Long-, Mid-, and Short-Term Impact on Wireless Brain Sensors Market
4.2    Regional Impact of COVID-19 Industry
         4.2.1    North America
         4.2.2    Europe
         4.2.3    Asia-Pacific
         4.2.4    Rest-of-the-World
4.3    Entry Barriers and Opportunities for the Companies in Global Wireless Brain Sensors Market

5.1    Industry Supply Chain
         5.1.1    Wireless Brain Sensors Manufacturers
         5.1.2    Distributors
         5.1.3    End Users
5.2    Regulatory Framework
         5.2.1    Regulations in North America
                     5.2.1.1    U.S.
                     5.2.1.2    Canada
         5.2.2    Regulations in Europe
         5.2.3    Regulations in Asia-Pacific
                     5.2.3.1    National Medical Products Administration (NMPA)
                     5.2.3.2    Pharmaceutical and Medical Device Agency (PMDA)
                     5.2.3.3    Therapeutic Goods Administration (TGA)
5.3    Consortium and Associations for Global Wireless Brain Sensors Market
5.4    Funding Scenario
5.5    Regulatory Approved Wireless Brain Sensors Products
5.6    Research-Grade Wireless Brain Sensors Products
5.7    Patent Analysis

6.1    Assumptions and Limitations
6.2    Key Findings and Opportunity Assessment
         6.2.1    Key Findings
         6.2.2    Opportunity Assessment
6.3    Historical Trends
6.4    Market Dynamics
6.5    Impact Analysis
         6.5.1    Market Drivers
                     6.5.1.1    Use of Wireless Brain Sensors for the Diagnosis of Sleep Disorders
                     6.5.1.2    Growing Prevalence of Neurological Disorders
                     6.5.1.3    Increasing Applications of Advanced Sensors in Neurological Devices
                     6.5.1.4    Surge in Geriatric Population
         6.5.2    Market Restraints
                     6.5.2.1    Stringent Regulatory Policies
                     6.5.2.2    Risk of Product Recalls and High Cost of the Devices
         6.5.3    Market Opportunities
                     6.5.3.1    Technological Advancements in Wireless Brain Sensors Market
                     6.5.3.2    Regional Expansion and Increasing Adoption of Wireless Brain Sensors in Emerging Economies

7.1    Key Developments and Strategies
         7.1.1    New Offerings
         7.1.2    Partnerships, Alliances, and Business Expansions
         7.1.3    Funding Activities
         7.1.4    Regulatory and Legal Standards
         7.1.5    Mergers and Acquisitions
7.2    Market Share Analysis (by Company)

8.1    Sleep Disorders
8.2    Neurophysiology
8.3    Brain-Computer Interface
8.4    Cognitive Neuroscience
8.5    Neuromarketing
8.6    Others

9.1    Research and Academic Institutes, and Labs
9.2    Hospitals
9.3    Homecare Settings
9.4    Others

10.1    North America Wireless Brain Sensors Market
           10.1.1    North America Wireless Brain Sensors Market (by Application)
           10.1.2    North America Wireless Brain Sensors (by End User)
           10.1.3    North America Wireless Brain Sensors Market (by Country)
                         10.1.3.1    U.S.
                                          10.1.3.1.1    U.S. Wireless Brain Sensors (by End User)
                         10.1.3.2    Canada
                                          10.1.3.2.1    Canada Wireless Brain Sensors (by End User)
10.2    Europe Wireless Brain Sensors Market
           10.2.1    Europe Wireless Brain Sensors Market (by Application)
           10.2.2    Europe Wireless Brain Sensors (by End User)
           10.2.3    Europe Wireless Brain Sensors Market (by Country)
                         10.2.3.1    Germany
                                          10.2.3.1.1    Germany Wireless Brain Sensors (by End User)
                         10.2.3.2    U.K.
                                          10.2.3.2.1    U.K. Wireless Brain Sensors (by End User)
                         10.2.3.3    France
                                          10.2.3.3.1    France Wireless Brain Sensors (by End User)
                         10.2.3.4    Italy
                                          10.2.3.4.1    Italy Wireless Brain Sensors (by End User)
                         10.2.3.5    Spain
                                          10.2.3.5.1    Spain Wireless Brain Sensors (by End User)
                         10.2.3.6    Rest-of-Europe
                                          10.2.3.6.1    Rest-of-Europe Wireless Brain Sensors (by End User)
10.3    Asia-Pacific Wireless Brain Sensors Market
           10.3.1    Asia-Pacific Wireless Brain Sensors Market (by Application)
           10.3.2    Asia-Pacific Wireless Brain Sensors (by End User)
           10.3.3    Asia-Pacific Wireless Brain Sensors Market (by Country)
                         10.3.3.1    China
                                          10.3.3.1.1    China Wireless Brain Sensors (by End User)
                         10.3.3.2    Japan
                                          10.3.3.2.1    Japan Wireless Brain Sensors (by End User)
                         10.3.3.3    Australia
                                          10.3.3.3.1    Australia Wireless Brain Sensors (by End User)
                         10.3.3.4    South Korea
                                          10.3.3.4.1    South Korea Wireless Brain Sensors (by End User)
                         10.3.3.5    India
                                          10.3.3.5.1    India Wireless Brain Sensors (by End User)
                         10.3.3.6    Rest-of-Asia-Pacific
                                          10.3.3.6.1    Rest-of-Asia-Pacific Wireless Brain Sensors (by End User)
10.4    Latin America Wireless Brain Sensors Market
           10.4.1    Latin America Wireless Brain Sensors Market (by Application)
           10.4.2    Latin America Wireless Brain Sensors (by End User)
           10.4.3    Latin America Wireless Brain Sensors Market (by Country)
                         10.4.3.1    Brazil
                                          10.4.3.1.1    Brazil Wireless Brain Sensors Market (by End User)
                         10.4.3.2    Mexico
                                          10.4.3.2.1    Mexico Wireless Brain Sensors (by End User)
                         10.4.3.3    Rest-of-Latin America
                                          10.4.3.3.1    Rest-of-Latin America Wireless Brain Sensors (by End User)
10.5    Middle East and Africa Wireless Brain Sensors Market
           10.5.1    Middle East and Africa Wireless Brain Sensors Market (by Application)
           10.5.2    Middle East and Africa Wireless Brain Sensors (by End User)
           10.5.3    Middle East and Africa Wireless Brain Sensors Market (by Country)
                         10.5.3.1    Middle East
                                          10.5.3.1.1    Middle East Wireless Brain Sensors (by End User)
                         10.5.3.2    Africa
                                          10.5.3.2.1    Africa Wireless Brain Sensors (by End User)

11.1    Advanced Brain Monitoring, Inc.
          11.1.1    Company Overview
          11.1.2    Role of Advanced Brain Monitoring, Inc. in Global Wireless Brain Sensors Market
          11.1.3    Recent Development
          11.1.4    SWOT Analysis
11.2    Brain Products GmbH
          11.2.1    Company Overview
          11.2.2    Role of Brain Products GmbH in Global Wireless Brain Sensors Market
          11.2.3    SWOT Analysis
11.3    Brain Scientific, Inc.
          11.3.1    Company Overview
          11.3.2    Role of Brain Scientific, Inc. in Global Wireless Brain Sensors Market
          11.3.3    Financials
          11.3.4    Recent Developments
          11.3.5    SWOT Analysis
11.4    BrainScope Company, Inc.
          11.4.1    Company Overview
          11.4.2    Role of BrainScope Company, Inc. in Global Wireless Brain Sensors Market
          11.4.3    Recent Development
          11.4.4    SWOT Analysis
11.5    Cadwell Industries, Inc.
          11.5.1    Company Overview
          11.5.2    Role of Cadwell Industries, Inc. in Global Wireless Brain Sensors Market
          11.5.3    SWOT Analysis
11.6    Compumedics Limited
          11.6.1    Company Overview
          11.6.2    Role of Compumedics Limited in Global Wireless Brain Sensors Market
          11.6.3    Financials
          11.6.4    Recent Developments
          11.6.5    SWOT Analysis
11.7    EMOTIV
          11.7.1    Company Overview
          11.7.2    Role of EMOTIV in Global Wireless Brain Sensors Market
          11.7.3    Recent Development
          11.7.4    SWOT Analysis
11.8    Jordan NeuroScience, Inc.
          11.8.1    Company Overview
          11.8.2    Role of Jordan NeuroScience, Inc. in Global Wireless Brain Sensors Market
          11.8.3    SWOT Analysis
11.9    Medtronic Plc
          11.9.1    Company Overview
          11.9.2    Role of Medtronic Plc in Global Wireless Brain Sensors Market
          11.9.3    Financials
          11.9.4    SWOT Analysis
11.10    Muse
             11.10.1    Company Overview
             11.10.2    Role of Muse in Global Wireless Brain Sensors Market
             11.10.3    Recent Development
             11.10.4    SWOT Analysis
11.11    Natus Medical Incorporated
             11.11.1    Company Overview
             11.11.2    Role of Natus Medical Incorporated in Global Wireless Brain Sensors Market
             11.11.3    Financials
             11.11.4    Recent Developments
             11.11.5    SWOT Analysis
11.12    NeuroSky
             11.12.1    Company Overview
             11.12.2    Role of NeuroSky in Global Wireless Brain Sensors Market
             11.12.3    SWOT Analysis
11.13    Neuroelectrics
             11.13.1    Company Overview
             11.13.2    Role of Neuroelectrics in Global Wireless Brain Sensors Market
             11.13.3    Recent Development
             11.13.4    SWOT Analysis
11.14    Nihon Kohden Corporation
             11.14.1    Company Overview
             11.14.2    Role of Nihon Kohden Corporation in Global Wireless Brain Sensors Market
             11.14.3    Financials
             11.14.4    Recent Developments
             11.14.5    SWOT Analysis
11.15    Wearable Sensing
             11.15.1    Company Overview
             11.15.2    Role of Wearable Sensing in Global Wireless Brain Sensors Market
             11.15.3    SWOT Analysis

Table 1:    Impact Analysis of Market Drivers and Restraints
Table 4.1:    Vaccines Approved for COVID-19
Table 4.2:    COVID-19 Vaccines Granted for Emergency Use in North America
Table 4.3:    Healthcare Expenditure During FY2020 Across Various Regions in Europe
Table 4.4:    COVID-19 Vaccines Granted for Emergency Use in Europe
Table 4.5:    COVID-19 Vaccines Granted for Emergency Use in Asia-Pacific
Table 4.6:    COVID-19 Vaccines Granted for Emergency Use in Rest-of-the-World
Table 5.1:    Global Wireless Brain Sensors Market (Associations and Consortiums)
Table 5.2:    Funding Scenario for the Development of Wireless Brain Sensors Products in the Market
Table 5.3:    List of Some Regulatory Approved Wireless Brain Sensors Products in the Market
Table 5.4:    List of Some Research-Grade Wireless Brain Sensors Products
Table 6.1:    Impact Analysis of Market Drivers and Challenges
Table 8.1:    Major Sleep Disorder Wireless Brain Sensors Products
Table 8.2:    Major Neurophysiology Wireless Brain Sensors Products
Table 8.3:    Major Brain-Computer Interface Wireless Brain Sensors Products
Table 8.4:    Major Cognitive Neuroscience Wireless Brain Sensors Products
Table 8.5:    Major Neuromarketing Wireless Brain Sensors Products
Table 8.6:    Major Others Wireless Brain Sensors Products
Table 10.1:    Prevalence of Major Neurological Disorders Globally, 2015-2019
Table 10.2:    Prevalence of Major Neurological Disorders in North America,  2015-2019
Table 10.3:    Major Neurological Disorders in the U.S., 2015-2019
Table 10.4:    Major Neurological Disorders in Canada, 2015-2019
Table 10.5:    Major Neurological Disorders in Europe, 2015-2019
Table 10.6:    Prevalence of Major Neurological Disorders in Germany, 2015-2019
Table 10.7:    Prevalence of Major Neurological Disorders in the U.K., 2015-2019
Table 10.8:    Prevalence of Major Neurological Disorders in France, 2015-2019
Table 10.9:    Prevalence of Major Neurological Disorders in Italy, 2015-2019
Table 10.10:    Prevalence of Major Neurological Disorders in Spain, 2015-2019
Table 10.11:    Prevalence of Major Neurological Disorders in Asia-Pacific, 2015-2019
Table 10.12:    Prevalence of Major Neurological Disorders in China, 2015-2019
Table 10.13:    Prevalence of Major Neurological Disorders in Japan, 2015-2019
Table 10.14:    Prevalence of Major Neurological Disorders in Australia, 2015-2019
Table 10.15:    Prevalence of Major Neurological Disorders in South Korea,  2015-2019
Table 10.16:    Prevalence of Some of the Neurological Disorders in India, 2015-2019
Table 10.17:    Prevalence of Major Neurological Disorders in Latin America, 2015-2019
Table 10.18:    Prevalence of Major Neurological Disorders in Brazil, 2015-2019
Table 10.19:    Prevalence of Major Neurological Disorders in Mexico, 2015-2019
Table 10.20:    Prevalence of Major Neurological Disorders in the Middle East and North Africa, 2015-2019
Table 10.21:    Prevalence of Major Neurological Disorders in Africa, 2015-2019

Figure 1:    Global Wireless Brain Sensors Market Value, 2019-2030
Figure 2:    Impact of COVID-19 on Global Wireless Brain Sensors Market
Figure 3:    Share of Neurological Disorders Causing Global Deaths, 2005, 2015, and 2030
Figure 4:    Global Wireless Brain Sensors Market (by Application), Share Analysis, 2020 and 2030
Figure 5:    Global Wireless Brain Sensors Market (by End Users), Share Analysis, 2020 and 2030
Figure 6:    Global Wireless Brain Sensors Market (by Region), 2020
Figure 7:    Key Strategies Incorporated by the Key Players in the Wireless Brain Sensors Market (January 2017-December 2020)
Figure 8:    Market Share Analysis for the Global Wireless Brain Sensors Market (by Company), 2019
Figure 2.1:    Global Wireless Brain Sensors: Market Segmentation
Figure 3.1:    Wireless Brain Sensors Market Research Methodology
Figure 3.2:    Primary Research
Figure 3.3:    Secondary Research
Figure 3.4:    Considered Factors for Data Prediction and Modeling
Figure 3.5:    Total Number of Companies Profiled
Figure 3.6:    Assumptions and Limitations
Figure 4.1:    Long-, Mid-, and Short-Term Impact of COVID-19 on Wireless Brain Sensors Market
Figure 4.2:    Global Wireless Brain Sensors Market: Challenges and Opportunities
Figure 5.1:    Global Wireless Brain Sensors Market Supply Chain Analysis
Figure 5.2:    Total Patents Filed Annually, January 2018-December 2020
Figure 6.1:    Market Dynamics
Figure 6.2:    Some Instances of Product Launch and Collaboration for Sleep Disorders
Figure 6.3:    Number and Percentage of DALYs for Different Neurological Disorders, 2015
Figure 6.4:    Number and Percentage of DALYs for Different Neurological Disorders, 2030
Figure 6.5:    Some Regulatory Authorities Which Regulates the Medical Device
Figure 7.1:    Share of Key Developments and Strategies, January 2017 to December 2020
Figure 7.2:    New Offerings (by Company), January 2017 to December 2020
Figure 7.3:    Partnerships, Alliances, and Business Expansions (by Company), January 2017-December 2020
Figure 7.4:    Funding Activities (by Company), January 2017-December 2020
Figure 7.5:    Regulatory and Legal Standards (by Company), January 2017-December 2020
Figure 7.6:    Mergers and Acquisitions (by Company), January 2017-December 2020
Figure 7.7:    Market Share Analysis for Global Wireless Brain Sensors Market (by Company), 2019
Figure 8.1:    Global Wireless Brain Sensors Market (by Application)
Figure 8.2:    Global Wireless Brain Sensors Market (by Application), Market Share, 2020
Figure 8.3:    Global Wireless Brain Sensors Market (by Application), 2019-2030
Figure 8.4:    Global Wireless Brain Sensors Market (Sleep Disorder), $Million, 2019-2030
Figure 8.5:    Sleep Disorder Wireless Brain Sensors Market (by Region), 2019-2030
Figure 8.6:    Global Wireless Brain Sensors Market (Neurophysiology), $Million, 2019-2030
Figure 8.7:    Neurophysiology Wireless Brain Sensors Market (by Region), 2019-2030
Figure 8.8:    Global Wireless Brain Sensors Market (Brain-Computer Interface), $Million, 2019-2030
Figure 8.9:    Brain-Computer Interface Wireless Brain Sensors Market (by Region), 2019-2030
Figure 8.10:    Global Wireless Brain Sensors Market (Cognitive Neuroscience), $Million, 2019-2030
Figure 8.11:    Cognitive Neuroscience Wireless Brain Sensors Market (by Region),  2019-2030
Figure 8.12:    Global Wireless Brain Sensors Market (Neuromarketing), $Million, 2019-2030
Figure 8.13:    Neuromarketing Wireless Brain Sensors Market (by Region), 2019-2030
Figure 8.14:    Global Wireless Brain Sensors Market (Others), $Million, 2019-2030
Figure 8.15:    Others Wireless Brain Sensors Market (by Region), 2019-2030
Figure 9.1:    Segmentation of Wireless Brain Sensors Market (by End User)
Figure 9.2:    Global Wireless Brain Sensors Market (by End User), Market Share, 2020
Figure 9.3:    Global Wireless Brain Sensors Market (by End User), 2019-2030
Figure 9.4:    Wireless Brain Sensors Market (Research and Academic Institutes, and Labs), 2019-2030
Figure 9.5:    Wireless Brain Sensors Market (Hospitals), 2019-2030
Figure 9.6:    Wireless Brain Sensors Market (Homecare Settings), 2019-2030
Figure 9.7:    Wireless Brain Sensors Market (Others), 2019-2030
Figure 10.1:    Global Wireless Brain Sensors Market (by Region), 2020
Figure 10.2:    Global Wireless Brain Sensors Market (by Region), $Million, 2019-2030
Figure 10.3:    North America Wireless Brain Sensors Market, $Million, 2019-2030
Figure 10.4:    North America: Market Dynamics
Figure 10.5:    North America Wireless Brain Sensors Market (by Application), $Million, 2019-2030
Figure 10.6:    North America Wireless Brain Sensors Market (by End User), $Million, 2019-2030
Figure 10.7:    North America Wireless Brain Sensors Market (by Country), 2020 and 2030
Figure 10.8:    U.S. Wireless Brain Sensors Market, 2019-2030
Figure 10.9:    U.S. Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.10:    Canada Wireless Brain Sensors Market, 2019-2030
Figure 10.11:    Canada Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.12:    Europe Wireless Brain Sensors Market, $Million, 2019-2030
Figure 10.13:    Europe: Market Dynamics
Figure 10.14:    Europe Wireless Brain Sensors Market (by Application), 2019-2030
Figure 10.15:    Europe Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.16:    Europe Wireless Brain Sensors Market (by Country), 2020 and 2030
Figure 10.17:    Germany Wireless Brain Sensors Market, 2019-2030
Figure 10.18:    Germany Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.19:    U.K. Wireless Brain Sensors Market, 2019-2030
Figure 10.20:    U.K. Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.21:    France Wireless Brain Sensors Market, 2019-2030
Figure 10.22:    France Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.23:    Italy Wireless Brain Sensors Market, 2019-2030
Figure 10.24:    Italy Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.25:    Spain Wireless Brain Sensors Market, 2019-2030
Figure 10.26:    Spain Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.27:    Rest-of-Europe Wireless Brain Sensors Market, 2019-2030
Figure 10.28:    Rest-of-Europe Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.29:    Asia-Pacific Wireless Brain Sensors Market, $Million, 2019-2030
Figure 10.30:    Asia-Pacific: Market Dynamics
Figure 10.31:    Asia-Pacific Wireless Brain Sensors Market (by Application), 2019-2030
Figure 10.32:    Asia-Pacific Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.33:    Asia-Pacific Wireless Brain Sensors Market (by Country), 2020 and 2030
Figure 10.34:    China Wireless Brain Sensors Market, 2019-2030
Figure 10.35:    China Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.36:    Japan Wireless Brain Sensors Market, 2019-2030
Figure 10.37:    Japan Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.38:    Australia Wireless Brain Sensors Market, 2019-2030
Figure 10.39:    Australia Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.40:    South Korea Wireless Brain Sensors Market, 2019-2030
Figure 10.41:    South Korea Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.42:    India Wireless Brain Sensors Market, 2019-2030
Figure 10.43:    India Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.44:    Rest-of-Asia-Pacific Wireless Brain Sensors Market, 2019-2030
Figure 10.45:    Rest-of-Asia-Pacific Wireless Brain Sensors Market (by End User),  2019-2030
Figure 10.46:    Latin America Wireless Brain Sensors Market, $Million, 2019-2030
Figure 10.47:    Latin America: Market Dynamics
Figure 10.48:    Latin America Wireless Brain Sensors Market (by Application), 2019-2030
Figure 10.49:    Latin America Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.50:    Latin America Wireless Brain Sensors Market (by Country), 2020 and 2030
Figure 10.51:    Brazil Wireless Brain Sensors Market, 2019-2030
Figure 10.52:    Brazil Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.53:    Mexico Wireless Brain Sensors Market, 2019-2030
Figure 10.54:    Mexico Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.55:    Rest-of-Latin America Wireless Brain Sensors Market, 2019-2030
Figure 10.56:    Rest-of-Latin America Wireless Brain Sensors Market (by End User),  2019-2030
Figure 10.57:    Middle East and Africa Wireless Brain Sensors Market, $Million, 2019-2030
Figure 10.58:    Middle East and Africa: Market Dynamics
Figure 10.59:    Middle East and Africa Wireless Brain Sensors Market (by Application), 2019-2030
Figure 10.60:    Middle East and Africa Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.61:    Middle East and Africa Wireless Brain Sensors Market (by Country), 2020 and 2030
Figure 10.62:    Middle East Wireless Brain Sensors Market, 2019-2030
Figure 10.63:    Middle East Wireless Brain Sensors Market (by End User), 2019-2030
Figure 10.64:    Africa Wireless Brain Sensors Market, 2019-2030
Figure 10.65:    Africa Wireless Brain Sensors Market (by End User), 2019-2030
Figure 11.1:    Advanced Brain Monitoring, Inc. - Product Portfolio for Global Wireless Brain Sensors Market
Figure 11.2:    SWOT Analysis – Advanced Brain Monitoring, Inc.
Figure 11.3:    Brain Products GmbH - Product Portfolio for Global Wireless Brain Sensors Market
Figure 11.4:    SWOT Analysis – Brain Products GmbH
Figure 11.5:    Brain Scientific, Inc.: Overall Product Offerings
Figure 11.6:    Brain Scientific, Inc.: Overall Financials, 2018-2019
Figure 11.7:    Brain Scientific, Inc.: R&D Expenditure, 2017-2019
Figure 11.8:    Brain Scientific, Inc.: SWOT Analysis
Figure 11.9:    BrainScope Company, Inc.- Product Portfolio for Global Wireless Brain Sensors Market
Figure 11.10:    SWOT Analysis – BrainScope Company, Inc.
Figure 11.11:    Cadwell Industries, Inc.: Global Wireless Brain Sensors Market
Figure 11.12:    Cadwell Industries, Inc.: SWOT Analysis
Figure 11.13:    Compumedics Limited: Global Wireless Brain Sensors Market
Figure 11.14:    Compumedics Limited: Overall Financials, 2018-2020
Figure 11.15:    Compumedics Limited: Revenue (by Region), 2018-2020
Figure 11.16:    Compumedics Limited: SWOT Analysis
Figure 11.17:    EMOTIV - Product Portfolio for Global Wireless Brain Sensors Market
Figure 11.18:    SWOT Analysis – EMOTIV
Figure 11.19:    Jordan NeuroScience, Inc.- Product Portfolio for Global Wireless Brain Sensors Market
Figure 11.20:    SWOT Analysis – Jordan NeuroScience, Inc.
Figure 11.21:    Medtronic Plc: Global Wireless Brain Sensors Market
Figure 11.22:    Medtronic Plc: Overall Financials, 2018-2020
Figure 11.23:    Medtronic Plc: Revenue (by Segment), 2018-2020
Figure 11.24:    Medtronic Plc: Revenue (by Region), 2018-2020
Figure 11.25:    Medtronic Plc.: R&D Expenditure, 2018-2020
Figure 11.26:    Medtronic Plc: SWOT Analysis
Figure 11.27:    Muse - Product Portfolio for Global Wireless Brain Sensors Market
Figure 11.28:    SWOT Analysis – Muse
Figure 11.29:    Natus Medical Incorporated: Global Wireless Brain Sensors Market
Figure 11.30:    Natus Medical Incorporated: Overall Financials, 2017-2019
Figure 11.31:    Natus Medical Incorporated: Revenue (by End Market), 2017-2019
Figure 11.32:    Natus Medical Incorporated: Revenue (by Region), 2017-2019
Figure 11.33:    Natus Medical Incorporated: R&D Expenditure, 2017-2019
Figure 11.34:    Natus Medical Incorporated: SWOT Analysis
Figure 11.35:    NeuroSky - Product Portfolio for Global Wireless Brain Sensors Market
Figure 11.36:    SWOT Analysis – NeuroSky
Figure 11.37:    Neuroelectrics - Product Portfolio for Global Wireless Brain Sensors Market
Figure 11.38:    SWOT Analysis – Neuroelectrics
Figure 11.39:    Nihon Kohden Corporation: Overall Product Portfolio
Figure 11.40:    Nihon Kohden Corporation Overall Financials, 2017-2019
Figure 11.41:    Nihon Kohden Corporation: Revenue (by Product and Services), 2017-2019
Figure 11.42:    Nihon Kohden Corporation: Revenue (by Region), 2017-2019
Figure 11.43:    Nihon Kohden Corporation: R&D Expenditure, 2017-2019
Figure 11.44:    Nihon Kohden Corporation: SWOT Analysis
Figure 11.45:    Wearable Sensing: Global Wireless Brain Sensors Market
Figure 11.46:    Wearable Sensing: SWOT Analysis

Report Description

Market Report Coverage - Wireless Brain Sensors

Base Year

2019

Market Size in 2019

$144.6 Million

Forecast Period

2021-2030

Value Projection and Estimation by 2030

$362.0 Million

CAGR During Forecast Period

10.53%

Number of Tables

39

Number of Pages

270

Number of Figures

164

Research Hours

1000

 

 

Market Segmentation

•    Application (Sleep Disorders, Neurophysiology, Brain-Computer Interface, Cognitive Neuroscience, Neuromarketing, and Others)

•    End User (Research and Academic Institutes, and Labs, Hospitals, Home Care Settings, and Others)

Regional Segmentation

•    North America

•    Europe

•    Asia-Pacific

•    Latin America

•    Middle East and Africa

Growth Drivers

•    Use of Wireless Brain Sensors for the Diagnosis of Sleep Disorders

•    Growing Incidence of Neurological Disorders

•    Increasing Applications of Advanced Sensors in Neurological Devices

•    Growing Geriatric Population

Market Restraints

•    Stringent Regulatory Policies

•    Regional Expansion and Increasing Adoption of Wireless Brain Sensors in Emerging Economies

Market Opportunities

•    Technological Advancements in Wireless Brain Sensors Market

•    Regional Expansion and Increasing Adoption of Wireless Brain Sensors in Emerging Economies

Key Companies Profiled

Compumedics Limited, Wearable Sensing, Medtronic Plc, Natus Medical Incorporated, Brain Scientific, Inc, and Nihon Kohden Corporation, EMOTIV, Advanced Brain Monitoring, Inc, Brain Products GmbH, NeuroSky, Neuroelectrics, Cadwell Industries, Inc, Jordan Neuroscience, Inc, BrainScope Company, Inc, and Muse, among others

Key Questions Answered in this Report:

•    How has COVID-19 impacted the global wireless brain sensors market?
•    What are the key regulations for the development, commercialization, and adoption of wireless brain sensors?
•    Which are the leading players that currently hold significant dominance in the global wireless brain sensors market?
•    What are the key strategies incorporated by the players of the global wireless brain sensors market to sustain the competition and retain their supremacy? 
•    What is the patent landscape of the wireless brain sensors market?
•    What are the key technological developments on which the current industry leaders are spending their major share of research and development (R&D) investment?
•    What is the current market potential of wireless brain sensors, and what factors decide the growth potential of wireless brain sensors for the forecast period?
•    What is the current revenue contribution of different products, and how would it evolve in the forecast period? 
•    Which application contributes to the highest CAGR (%) in the global wireless brain sensors market?
•    How does the end-user perception impact the growth of the global wireless brain sensors market? 
•    Which countries contribute to a major share of the current demand, and which countries hold significant scope for expansion for business activities by players of the global wireless brain sensors market?
•    What are the drivers, restraints, and opportunities in the global wireless brain sensors market?

Market Overview

Global Wireless Brain Sensors Market Forecast (2021-2030)

Global Wireless Brain Sensors Market

Key USPs of the Report

Following are some of the key contents of the report:

•    Funding Scenario
This section encompasses a description of the current funding landscape in the global wireless brain sensors space for key players.

•    Regulatory Approved Products
This section includes information on regulatory approved wireless brain sensor products in the market. 

•    Business Model Analysis 
This section comprises information on the key business models deployed in the market by leading players.

•    Impact of COVID-19
This section of the report encompasses the following:
o    Short-, Mid-, and Long-Term Impact on Wireless Brain Sensors Market
o    Regional Impact of COVID-19 Industry
o    Entry Barriers and Opportunities for the Companies in Global Wireless Brain Sensors Market

In addition, the report provides:

•    A detailed analysis and growth forecast (2021-2030) for different market segments
•    Recent developments and trends in the global market landscape
•    Factors promoting and inhibiting the market growth 
•    Case studies to assess the delivery models and strategies adopted by some of the highly funded players in the market

Expert Quote

“In order to gain a competitive share in the wireless brain sensor market, various small-scale and mid-scale companies are collaborating with government organizations and private investors to have significant funding for the development and commercialization of technically advanced wireless brain sensor products across different regions of the world. Ceribell, Inc, BrainScope, and Neural Analytics are some companies which received more than $10 million funding from finance and private investors for their products”.

Scope of the Global Wireless Brain Sensor Market

The purpose of the study is to enable the reader to gain a holistic view of the global wireless brain sensors market by each of the segments mentioned above in the table. 

The report constitutes an in-depth analysis of the global wireless brain sensors market, including a thorough analysis of the applications. The study also provides market and business-related information on various applications and end users. 

Key Companies in the Global Wireless Brain Sensor Market

Some of the key players contributing to the global wireless brain sensors market include Compumedics Limited, Wearable Sensing, Medtronic Plc, Natus Medical Incorporated, Brain Scientific, Inc, and Nihon Kohden Corporation, EMOTIV, Advanced Brain Monitoring, Inc, Brain Products GmbH, NeuroSky, Neuroelectrics, Cadwell Industries, Inc, Jordan Neuroscience, Inc, BrainScope Company, Inc, and Muse.

FAQ's

Q. What is the estimated growth rate for wireless brain sensors market in the coming years?

The wireless brain sensors market was estimated at $144.6 million in 2019 and is expected to grow at a CAGR of 10.53% during the forecast period from 2021 to 2030.

Q. What are the possible drivers that can boost the growth of the wireless brain sensors market?

The factors responsible for driving the growth of the market include use of wireless brain sensors for the diagnosis of sleep disorders, growing incidence of neurological disorders, increasing applications of advanced sensors in neurological devices, and growing geriatric population.

Q. What are the different types of application for which wireless brain sensors are used?

Different applications for which wireless brain sensors can be used include sleep disorders, neurophysiology, brain-computer interface, cognitive neuroscience, neuromarketing, and others.

Q. Which end-user industries are using the wireless brain sensors?

The end-user industries that can utilize information wireless brain sensors include research and academic institutes, and labs, hospitals, home care settings, and others.

Q. Which are the top market players operating in the wireless brain sensors market?

Key companies operating in the market wireless brain sensors market Compumedics Limited, Wearable Sensing, Medtronic Plc, Natus Medical Incorporated, Brain Scientific, Inc, and Nihon Kohden Corporation, EMOTIV, Advanced Brain Monitoring, Inc, Brain Products GmbH, NeuroSky, Neuroelectrics, Cadwell Industries, Inc, Jordan Neuroscience, Inc, BrainScope Company, Inc, and Muse, among others.

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