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Wireless Brain Sensors Market Report and Forecast 2024-2032

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    Report

  • 140 Pages
  • September 2023
  • Region: Global
  • Expert Market Research
  • ID: 5895177
The global wireless brain sensors market was valued at USD 609.4 million in 2023, driven by the increasing prevalence of neurological disorders across the globe. The market size is anticipated to grow at a CAGR of 9.5% during the forecast period of 2024-2032 to achieve a value of USD 1,380.2 million by 2032.

Wireless Brain Sensors: Introduction

Wireless brain sensors are advanced electronic devices used to monitor and record brain activity without the need for wired connections. These sensors are designed to provide real-time, non-invasive measurements of brain signals, allowing for remote monitoring and analysis. They offer numerous advantages over traditional wired sensors, including increased mobility, reduced discomfort for patients, and enhanced flexibility in data collection.

Wireless brain sensors find applications in various fields, including healthcare, research, and gaming. In healthcare, these sensors are utilized in hospitals, clinics, and home healthcare settings to monitor patients with neurological disorders and assist in treatment planning. They are also incorporated into brain-computer interfaces (BCIs) for controlling assistive devices and neurorehabilitation.

Key Trends in the Global Wireless Brain Sensors Market

The wireless brain sensors market has been witnessing several key trends that are shaping its growth and development. Here are some of the notable trends in the market:

  • Advancements in Sensor Technology: There has been significant progress in sensor technology used in wireless brain sensors. Sensors are becoming more miniaturized, lightweight, and power-efficient, allowing for comfortable and prolonged use.
  • Integration with Wearable Devices: Wireless brain sensors are increasingly being integrated with wearable devices such as headsets, headbands, and smartwatches. This integration offers seamless and continuous monitoring of brain activity in various settings, including home-based monitoring and real-world environments.
  • Remote Patient Monitoring and Telemedicine: The rise of telemedicine and remote patient monitoring has significantly influenced the wireless brain sensors market. These sensors enable healthcare professionals to remotely monitor patients with neurological conditions and analyze brain activity data without the need for in-person visits.
  • Increasing Focus on Brain-Computer Interfaces (BCIs): Brain-computer interfaces have gained significant attention in recent years, and wireless brain sensors play a crucial role in enabling BCIs. BCIs allow individuals to control external devices or communicate directly with computers using their brain signals.
  • Growth in Research Applications: The use of wireless brain sensors in research has been expanding rapidly. Researchers are leveraging these sensors to study brain function, cognitive processes, and neurological disorders. Wireless sensors offer flexibility and mobility in data collection, enabling studies in naturalistic environments and longitudinal research designs.

Global Wireless Brain Sensors Market Segmentations

The market can be categorized into product, disease, end user and region.

Market Breakup by Product

  • Electroencephalography (EEG) devices
  • Sleep Monitoring Devices
  • Magnetoencephalography (MEG) Devices
  • Others

Market Breakup by Disease

  • Alzheimer's Disease
  • Traumatic Brain Injury
  • Epilepsy
  • Sleep Disorders
  • Others

Market Breakup by End User

  • Hospitals
  • Research and Academic Institute/Laboratories
  • Homecare Settings
  • Others

Market Breakup by Region

  • North America
  • Europe
  • Asia Pacific
  • Latin America
  • Middle East and Africa

Global Wireless Brain Sensors Market Overview

The wireless brain sensors market is a rapidly growing segment within the broader neurology and neurotechnology industry. These sensors are designed to monitor and record brain activity without the need for wired connections, providing greater flexibility and convenience in various healthcare and research applications. The wireless brain sensors market has been experiencing significant growth in recent years and is expected to continue expanding. Factors driving this growth include advancements in wireless technology, increasing prevalence of neurological disorders, rising demand for remote patient monitoring, and the growing adoption of wearable devices.

North America dominates the wireless brain sensors market due to factors such as the presence of key market players, advanced healthcare infrastructure, high R&D investments, and favourable reimbursement policies. Europe holds a significant market share, driven by advancements in healthcare technology and increasing research activities. The Asia Pacific region is expected to witness substantial growth due to rising healthcare expenditure, increasing awareness about neurological disorders, and a growing geriatric population.

Key Players in the Global Wireless Brain Sensors Market

The key features of the market report include patent analysis, grants analysis, clinical trials analysis, funding and investment analysis, partnerships, and collaborations analysis by the leading key players.

The major companies in wireless brain sensors market are as follows:

  • NeuroSky
  • Emotiv
  • Advanced Brain Monitoring
  • Koninklijke Philips N.V.
  • Medtronic Corporation
  • Muse
  • Natus Medical Incorporated
  • Cadwell Industries
  • NeuroWave Systems Inc.
  • BrainScope
The publisher always strives to provide you with the latest information. The numbers in the article are only indicative and may be different from the actual report.

Table of Contents

1 Preface
1.1 Objectives of the Study
1.2 Key Assumptions
1.3 Report Coverage - Key Segmentation and Scope
1.4 Research Methodology
2 Executive Summary
3 Global Wireless Brain Sensors Market Overview
3.1 Global Wireless Brain Sensors Market Historical Value (2017-2023)
3.2 Global Wireless Brain Sensors Market Forecast Value (2024-2032)
4 Global Wireless Brain Sensors Market Landscape
4.1 Global Wireless Brain Sensors: Developers Landscape
4.1.1 Analysis by Year of Establishment
4.1.2 Analysis by Company Size
4.1.3 Analysis by Region
4.2 Global Wireless Brain Sensors: Product Landscape
4.2.1 Analysis by Type
4.2.2 Analysis by Technology
4.2.3 Analysis by Applications
5 Global Wireless Brain Sensors Market Dynamics
5.1 Market Drivers and Constraints
5.2 SWOT Analysis
5.3 Porter’s Five Forces Model
5.4 Key Demand Indicators
5.5 Key Price Indicators
5.6 Industry Events, Initiatives, and Trends
5.7 Value Chain Analysis
6 Global Wireless Brain Sensors Market Segmentation
6.1 Global Wireless Brain Sensors Market by Product
6.1.1 Market Overview
6.1.2 Electroencephalography (EEG) Devices
6.1.3 Sleep Monitoring Devices
6.1.4 Magnetoencephalography (MEG) Devices
6.1.5 Others
6.2 Global Wireless Brain Sensors Market by Disease
6.2.1 Market Overview
6.2.2 Alzheimer's Disease
6.2.3 Traumatic Brain Injury
6.2.4 Epilepsy
6.2.5 Sleep Disorders
6.2.6 Others
6.3 Global Wireless Brain Sensors Market by End User
6.3.1 Market Overview
6.3.2 Hospitals
6.3.3 Research and Academic Institute/Laboratories
6.3.4 Homecare Settings
6.3.5 Others
6.4 Global Wireless Brain Sensors Market by Region
6.4.1 Market Overview
6.4.2 North America
6.4.3 Europe
6.4.4 Asia Pacific
6.4.5 Latin America
6.4.6 Middle East and Africa
7 North America Wireless Brain Sensors Market
7.1 Market Share by Country
7.2 United States of America
7.3 Canada
8 Europe Wireless Brain Sensors Market
8.1 Market Share by Country
8.2 United Kingdom
8.3 Germany
8.4 France
8.5 Italy
8.6 Others
9 Asia Pacific Wireless Brain Sensors Market
9.1 Market Share by Country
9.2 China
9.3 Japan
9.4 India
9.5 ASEAN
9.6 Australia
9.7 Others
10 Latin America Wireless Brain Sensors Market
10.1 Market Share by Country
10.2 Brazil
10.3 Argentina
10.4 Mexico
10.5 Others
11 Middle East and Africa Wireless Brain Sensors Market
11.1 Market Share by Country
11.2 Saudi Arabia
11.3 United Arab Emirates
11.4 Nigeria
11.5 South Africa
11.6 Others
12 Regulatory Framework
12.1 Regulatory Overview
12.1.1 US FDA
12.1.2 EU EMA
12.1.3 INDIA CDSCO
12.1.4 JAPAN PMDA
12.1.5 Others
13 Patent Analysis
13.1 Analysis by Type of Patent
13.2 Analysis by Publication year
13.3 Analysis by Issuing Authority
13.4 Analysis by Patent Age
13.5 Analysis by CPC Analysis
13.6 Analysis by Patent Valuation
13.7 Analysis by Key Players
14 Grants Analysis
14.1 Analysis by year
14.2 Analysis by Amount Awarded
14.3 Analysis by Issuing Authority
14.4 Analysis by Grant Application
14.5 Analysis by Funding Institute
14.6 Analysis by NIH Departments
14.7 Analysis by Recipient Organization
15 Clinical Trials Analysis
15.1 Analysis by Trial Registration Year
15.2 Analysis by Trial Status
15.3 Analysis by Trial Phase
15.4 Analysis by Therapeutic Area
15.5 Analysis by Geography
16 Funding and Investment Analysis
16.1 Analysis by Funding Instances
16.2 Analysis by Type of Funding
16.3 Analysis by Funding Amount
16.4 Analysis by Leading Players
16.5 Analysis by Leading Investors
16.6 Analysis by Geography
17 Partnership and Collaborations Analysis
17.1 Analysis by Partnership Instances
17.2 Analysis by Type of Partnership
17.3 Analysis by Leading Players
17.4 Analysis by Geography
18 Supplier Landscape
18.1 NeuroSky
18.1.1 Financial Analysis
18.1.2 Product Portfolio
18.1.3 Demographic Reach and Achievements
18.1.4 Mergers and Acquisitions
18.1.5 Certifications
18.2 Emotiv
18.2.1 Financial Analysis
18.2.2 Product Portfolio
18.2.3 Demographic Reach and Achievements
18.2.4 Mergers and Acquisitions
18.2.5 Certifications
18.3 Advanced Brain Monitoring
18.3.1 Financial Analysis
18.3.2 Product Portfolio
18.3.3 Demographic Reach and Achievements
18.3.4 Mergers and Acquisitions
18.3.5 Certifications
18.4 Koninklijke Philips N.V.
18.4.1 Financial Analysis
18.4.2 Product Portfolio
18.4.3 Demographic Reach and Achievements
18.4.4 Mergers and Acquisitions
18.4.5 Certifications
18.5 Medtronic Corporation
18.5.1 Financial Analysis
18.5.2 Product Portfolio
18.5.3 Demographic Reach and Achievements
18.5.4 Mergers and Acquisitions
18.5.5 Certifications
18.6 Muse
18.6.1 Financial Analysis
18.6.2 Product Portfolio
18.6.3 Demographic Reach and Achievements
18.6.4 Mergers and Acquisitions
18.6.5 Certifications
18.7 Natus Medical Incorporated
18.7.1 Financial Analysis
18.7.2 Product Portfolio
18.7.3 Demographic Reach and Achievements
18.7.4 Mergers and Acquisitions
18.7.5 Certifications
18.8 Cadwell Industries
18.8.1 Financial Analysis
18.8.2 Product Portfolio
18.8.3 Demographic Reach and Achievements
18.8.4 Mergers and Acquisitions
18.8.5 Certifications
18.9 NeuroWave Systems Inc.
18.9.1 Financial Analysis
18.9.2 Product Portfolio
18.9.3 Demographic Reach and Achievements
18.9.4 Mergers and Acquisitions
18.9.5 Certifications
18.10 BrainScope
18.10.1 Financial Analysis
18.10.2 Product Portfolio
18.10.3 Demographic Reach and Achievements
18.10.4 Mergers and Acquisitions
18.10.5 Certifications
19 Key Opinion Leaders (KOL) Insights (Additional Insight)
20 Company Competitiveness Analysis (Additional Insight)
20.1 Very Small Companies
20.2 Small Companies
20.3 Mid-Sized Companies
20.4 Large Companies
20.5 Very Large Companies
21 Payment Methods (Additional Insight)
21.1 Government Funded
21.2 Private Insurance
21.3 Out-of-Pocket

Companies Mentioned

  • NeuroSky
  • Emotiv
  • Advanced Brain Monitoring
  • Koninklijke Philips N.V.
  • Medtronic Corporation
  • Muse
  • Natus Medical Incorporated
  • Cadwell Industries
  • NeuroWave Systems Inc.
  • BrainScope

Methodology

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