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Wireless Brain Sensors Market Report Scope & Overview:

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The Wireless Brain Sensors Market was valued at USD 517.9 Million in 2023 and is expected to reach USD 1258.2 million by 2032, growing at a CAGR of 10.4% over the forecast period 2024-2032.

The report on the wireless brain sensors market includes key insights and trends on the incidence and prevalence of neurological disorders which is one of the key drivers for the demand for wireless brain sensors. It analyzes market adoption trends, device shipment volumes, and healthcare expenditure on neurological monitoring by government and private spending. The report highlights technological advancements, such as AI integration and real-time monitoring, along with regulatory compliance insights (FDA, CE) and market barriers by region. Such findings provide a data-driven insight perspective to help manufacturers, investors, and providers to strategically plan their next steps in development in manufacturing strategy, investment priorities, or healthcare planning strategy. The global wireless brain sensors market is expanding rapidly due to the rise in neurological disorders and traumatic brain injury cases. As per the World Health Organization, 1 billion people across the globe have a neurological disorder. The rising adoption of advanced technologies in healthcare, coupled with government initiatives to promote research and development in neuroscience, is fueling market expansion

Market Dynamics

Drivers

  • Advancements in wireless technology have revolutionized brain monitoring, offering greater convenience and mobility compared to traditional wired sensors.

Wireless technology is revolutionizing brain monitoring, enabling mobility and convenience not provided by standard wired systems. In this light, recent ingenuity paved the way for small, convenient, wearable apparatuses for real-time, noninvasive monitoring of neural activity. For instance, in November 2024, a clinical trial in the UK introduced a graphene-based brain-computer interface (BCI) device. This implantable chip aids doctors during brain tumor surgeries as it can help distinguish between cancerous and healthy brain tissues by sensing a wide range of electrical signals. This advancement is particularly significant, considering that over 12,700 individuals are diagnosed with brain tumors annually in the UK, resulting in more than 5,000 deaths.

In the consumer electronics sector, October 2024 saw the introduction of the MW75 Neuro, a pair of smart headphones developed by Neurable. These headphones incorporate electroencephalography (EEG) sensors to monitor the user's focus by analyzing brain waves. Available for $699, they are intended for daily wear, with 12 EEG sensors built into the earpads to record brain activity. All collected data is sent to a companion app through which users can gain insight to improve their work routines and their mental wellness. Additionally, wireless brain sensors are now being integrated with wearable devices, making them applicable in multiple non-clinical contexts. For example, companies such as Elemind and StimScience have created headbands that use auditory and electrical stimuli, respectively, to enhance the quality of sleep. These devices aim to accelerate sleep onset and enhance overall sleep duration by modulating brain activity.

Restraints:

  • High costs associated with wireless brain sensors pose challenges for widespread adoption, especially in developing regions.

The high cost of wireless brain sensors greatly limits their widespread usage, especially in developing areas. These devices represent the ideal of monitoring neurological diseases, and their manufacturing needs high technology and leads to the most expensive cost. MW75 Neuro, a set of head-tracking smart headphones developed by Neurable, uses electroencephalography (EEG) to read and track brain waves this model is up for preorder in the U.S. for USD 699. Such high costs pose challenges for both healthcare providers and patients, especially in areas with limited financial resources. The high cost of these sensors often leads to budget constraints in healthcare facilities, limiting their availability and use of these monitoring tools. Consequently, the high cost remains a significant barrier to the broader utilization of wireless brain sensors in clinical practice and research.

Opportunities:

  • Integration with wearable devices like smartwatches and headsets allows for seamless, real-time brain activity monitoring, leading to personalized healthcare solutions.

Wireless brain sensors integrated with wearable devices hold great potential for personalized health care. These days high-tech products exist that can measure, and even improve, brain function in real time. For instance, the 'For Me Buds,' introduced in February 2025, are smart earbuds designed to improve sleep quality. These earbuds use high-tech sensors to take heart rate and motion measurements, analyze brain activity, and play sounds appropriate for certain sleep stages. As well as AI-generated sleep reports, the company’s accompanying app provides personalized guidance. Priced under $200, they are set to ship in March 2025.

Similarly, companies like Elemind and StimScience have developed headbands that use auditory and electrical stimuli, respectively, to induce sleep. Elemind’s device sends pulsed sounds through EEG, whereas StimScience uses alternating currents of electricity. Preliminary studies show these devices decrease the time to fall asleep and improve sleep time. In the world of cognitive enhancement, MW75 Neuro headphones by Neurable combine electroencephalography (EEG) and artificial intelligence to monitor the wearer's attention through brain waves. Costs $699. Available for preorder in the U.S.; Spring 2025 in Europe and UK. They do this by helping their users to better their work habits based on their focus levels and suggesting breaks to avoid burnout.

Challenges:

  • Data security and privacy concerns arise from the wireless transmission of sensitive brain activity data, necessitating robust encryption and protection measures.

The introduction of wireless brain sensors to consumer devices like Neurable's MW75 Neuro headphones raised data security and privacy concerns They use sensitive neural data, such as electroencephalography (EEG) signals, to track user concentration and mental states. When processing such sensitive information, the utmost security protocol must be installed to safeguard against data breaches. For example, Neurable will convert raw EEG data into anonymized focus metrics in 2024, delete the original data from the device, and encrypt the processed data before it goes to the cloud. Despite these precautions, experts like Professor Jennifer Chandler from the University of Ottawa highlight potential risks, citing cases where personal health data from devices have been used in legal proceedings, such as a 2016 incident in Ohio where pacemaker data contributed to felony charges. This highlights the urgent need for robust data protection measures, as well as clear best practices, that communicate how neural information may be used, to protect user privacy and to minimize unwanted uses.

Segment analysis

By Product

In 2023, the segment of electroencephalography (EEG) devices dominated the wireless brain sensors market and accounted for the highest revenue share of 33%. This stronghold is due to various aspects, such as the rising burden of neurological disorders and the demand for advanced non-invasive brain monitoring approaches. Cost-effective and reliable techniques such as brain activity measurement using EEG devices are one of the fundamental equipment, clinical and research in nature. The U.S. Food and Drug Administration (FDA) is actively encouraging the development and approval of EEG devices, emphasizing their need for neurological conditions. National drug regulators, including the FDA, have approved several new EEG devices, including wireless and portable devices, in recent years, contributing to the growth of the market. For example, in 2022, the FDA granted 510(k) clearance to a novel wireless EEG headset designed for at-home use, expanding access to brain monitoring technology.

In addition, the growing adoption of EEG devices is attributed to government programs that promote brain research. The U.S. government launched the Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative with millions of dollars of funding for the development of new tools and technologies with which to study the function of the brain. This initiative has directly contributed to advancements in EEG technology and its applications in various neurological conditions.

By End Use

The multispecialty hospitals segment dominated the wireless brain sensors market and held the largest revenue share of 45% in 2023. The major factors driving its significant market share are the increasing number of neurological disorders and the rising demand for advanced diagnostic and monitoring tools in hospitals.

Multispecialty hospitals are at the forefront of adopting cutting-edge medical technologies, including wireless brain sensors, to enhance patient care and improve treatment outcomes. The operation of wireless brain sensors in multispecialty hospitals has been aided by government initiatives and investments. For example, the U.S. Department of Health and Human Services (HHS) has adopted programs to encourage the use of innovative medical technologies in hospitals. For fiscal year 2023, the HHS distributed $81.7 billion to improve the delivery of healthcare services in various healthcare settings, such as multispecialty hospitals, and to encourage the integration of advanced medical technologies.

By Application

Traumatic Brain Injuries (TBI) dominated the market, accounting for a revenue share of 31% in 2023. The extensive market share is due to the vast prevalence of TBIs and the significant requirement for advanced tools to monitor and diagnose the same in a timely manner. Traumatic brain injuries are a major public health problem, with millions documented globally each year. According to the Centers for Disease Control and Prevention (CDC), in the United States, TBIs accounted for an estimated 2.5 million emergency department visits, hospitalizations, and deaths in 2022. Such ubiquitous prevalence has led to the demand for advanced monitoring technologies such as wireless brain sensors to be used in helping improve patient outcomes, which will, in turn, reduce the long-term effect of TBIs.

Government organizations and agencies have acknowledged the need to address TBI, establishing programs and conducting initiatives to support the research, development, training, and care of TBI patients. NINDS (National Institute of Neurological Disorders and Stroke) has invested significant funding in TBI research and development validation of new diagnostic and monitoring tools. NINDS allocates all of this funding specifically to TBI research for FY23, NINDS has committed USD 125 million specifically to TBI research, which is the Government's commitment to moving forward the care of TBI patients.

Regional analysis

In 2023, North America held the leading share of about 40% of the wireless brain sensors market. This dominance can be attributed to the presence of advanced healthcare infrastructure, a high adoption rate of innovative medical technologies, and substantial investment in neuroscience research activities in the region. Trendsetters for the cosmetic and clinical use of wireless brain sensors have largely been based in the United States. Through various initiatives and funding programs, the U.S. government has been a key market growth catalyst. The National Institutes of Health (NIH) budgeted USD 2.4 billion for brain research in fiscal year 2023, most of which is focused on developing better neuroimaging and monitoring technologies.

Asia Pacific will continue to see the fastest growth in this market, with a significant CAGR from 2024 to 2032. This rapid rise is attributed to high healthcare expenditure, increased awareness regarding neurological disorders, and support from government organizations for healthcare infrastructure in countries such as China and India. For example, China’s 14th Five-Year Plan for 2021-2025 focuses on developing the biotechnology and medical device sectors and is expected to increase the adoption of advanced medical technologies including wireless brain sensors. In Japan, the government has rolled out a “Healthcare 2035” strategy with plans to utilize state-of-the-art technologies to better manage the nation's aging population and rising incidence of neurological disorders. Such initiatives are expected to boost the wireless brain sensors market in the region during the forecast period.

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Recent developments

  • In June 2024, Neuroelectrics announced FDA clearance for a new wireless EEG headset for epilepsy monitoring in the home setting. This game-changing device enables long-term, continuous EEG monitoring outside the clinical environment, with potentially transformative effects on the management of epilepsy.

  • In September 2024, EMOTIV announced the release of a next-generation wireless brain-computing interface system enhanced through AI-based algorithms for better signal processing and behaviour interpretation. This technology could maintain more precise and reliable brain activity measurements both in the clinic and research applications.

Key Players

Key Service Providers/Manufacturers

  • Emotiv (EPOC+, Insight)

  • Paradromics (Connexus Direct Data Interface, Cortical Module)

  • BrainGate (BrainGate Neural Interface System, BrainGate2)

  • NeuroSky (MindWave, MindSet)

  • Neuralink (N1 Implant, Neuralink USB-C Dongle)

  • Blackrock Neurotech (NeuroPort Array, CerePlex Exilis)

  • OpenBCI (Ultracortex Mark IV, Ganglion Board)

  • MindMaze (MindMotion PRO, MindMotion GO)

  • Neurable (Enten, Neurable Software Development Kit)

  • Kernel (Kernel Flow, Kernel Flux)

  • Natus Medical Incorporated (Quantum Amplifier, Nicolet EEG Wireless Amplifier)

  • Compumedics Limited (Grael HD-EEG, Somté PSG)

  • Advanced Brain Monitoring (B-Alert X10, Sleep Profiler)

  • ANT Neuro (eego sports, waveguard connect)

  • g.tec medical engineering GmbH (g.Nautilus, g.HIamp)

  • Wearable Sensing (DSI-24, DSI-VR300)

  • Brain Products GmbH (actiCHamp Plus, LiveAmp)

  • BioSemi (ActiveTwo, ActiveTwo AD-box)

  • Mitsar Co., Ltd. (EEG-202, SmartBCI)

  • Cadwell Industries, Inc. (Arc EEG, Easy III)

 

Wireless Brain Sensors Market Report Scope

Report Attributes Details
Market Size in 2023 USD 517.2 Million 
Market Size by 2032 USD 1258.2 Million 
CAGR CAGR of 10.4% From 2024 to 2032
Base Year 2023
Forecast Period 2024-2032
Historical Data 2020-2022
Report Scope & Coverage Market Size, Segments Analysis, Competitive  Landscape, Regional Analysis, DROC & SWOT Analysis, Forecast Outlook
Key Segments • By Product (Electroencephalography (EEG) Devices, Transcranial Doppler (TCD) Devices, Sleep Monitoring Devices, Intracranial Pressure (ICP) Monitors, Others)
• By Application (Dementia, Parkinson's Disease, Epilepsy, Traumatic Brain Injuries, Others)
• By End Use (Multispecialty Hospitals, Research Institutes, Others)
Regional Analysis/Coverage North America (US, Canada, Mexico), Europe (Eastern Europe [Poland, Romania, Hungary, Turkey, Rest of Eastern Europe] Western Europe] Germany, France, UK, Italy, Spain, Netherlands, Switzerland, Austria, Rest of Western Europe]), Asia Pacific (China, India, Japan, South Korea, Vietnam, Singapore, Australia, Rest of Asia Pacific), Middle East & Africa (Middle East [UAE, Egypt, Saudi Arabia, Qatar, Rest of Middle East], Africa [Nigeria, South Africa, Rest of Africa], Latin America (Brazil, Argentina, Colombia, Rest of Latin America)
Company Profiles NeuroSky, EMOTIV, Advanced Brain Monitoring Inc., Koninklijke Philips N.V., Medtronic, InteraXon Inc., Natus Medical Incorporated, Cadwell Industries Inc., NeuroWave Systems Inc., BrainScope, Neuroelectrics, Neuronetrix Solutions LLC, Muse, Abbott Laboratories, NICO Corporation, CureMetrix, Cerebrotech Medical Systems, Neuralink, Blackrock Neurotech, G.T.E.S., Neurescue, Elekta, Boston Scientific, BrainCo.

Frequently Asked Questions

Ans. The projected market size for the Wireless Brain Sensors Market is USD 1258.2 Million by 2032.

Ans: The North American region dominated the Wireless Brain Sensors Market in 2023.

Ans. The CAGR of the Wireless Brain Sensors Market is 10.4% During the forecast period of 2024-2032.

Ans:  The major key players in the market are NeuroSky, EMOTIV, Advanced Brain Monitoring Inc., Koninklijke Philips N.V., Medtronic, InteraXon Inc., Natus Medical Incorporated, Cadwell Industries Inc., NeuroWave Systems Inc., BrainScope, Neuroelectrics, Neuronetrix Solutions LLC, Muse, Abbott Laboratories, NICO Corporation, CureMetrix, Cerebrotech Medical Systems, Neuralink, Blackrock Neurotech, G.T.E.S., Neurescue, Elekta, Boston Scientific, BrainCo., and others in the final report.

Ans:  The multispecialty hospitals end use segment dominated the Wireless Brain Sensors Market.

Table of Contents

1. Introduction

1.1 Market Definition

1.2 Scope (Inclusion and Exclusions)

1.3 Research Assumptions

2. Executive Summary

2.1 Market Overview

2.2 Regional Synopsis

2.3 Competitive Summary

3. Research Methodology

3.1 Top-Down Approach

3.2 Bottom-up Approach

3.3. Data Validation

3.4 Primary Interviews

4. Market Dynamics Impact Analysis

4.1 Market Driving Factors Analysis

4.1.1 Drivers

4.1.2 Restraints

4.1.3 Opportunities

4.1.4 Challenges

4.2 PESTLE Analysis

4.3 Porter’s Five Forces Model

5. Statistical Insights and Trends Reporting

5.1 Incidence & Prevalence of Neurological Disorders (2023-2032)

5.2 Device Shipment Volume & Production Trends (2020-2032)

5.3 Healthcare Expenditure on Neurological Monitoring (2023)

5.4 Technological Advancements & Feature Innovations

5.5 Regulatory Compliance & Market Barriers (By Region)

6. Competitive Landscape

6.1 List of Major Companies, By Region

6.2 Market Share Analysis, By Region

6.3 Product Benchmarking

6.3.1 Product specifications and features

6.3.2 Pricing

6.4 Strategic Initiatives

6.4.1 Marketing and promotional activities

6.4.2 Distribution and Supply Chain Strategies

6.4.3 Expansion plans and new product launches

6.4.4 Strategic partnerships and collaborations

6.5 Technological Advancements

6.6 Market Positioning and Branding

7. Wireless Brain Sensors Market Segmentation, By Product

7.1 Chapter Overview

7.2 Electroencephalography (EEG) Devices

7.2.1 Electroencephalography (EEG) Devices Market Trends Analysis (2020-2032)

7.2.2 Electroencephalography (EEG) Devices Market Size Estimates and Forecasts to 2032 (USD Million)

7.3 Intracranial Pressure (ICP) Monitors

7.3.1 Intracranial Pressure (ICP) Monitors Market Trends Analysis (2020-2032)

7.3.2 Intracranial Pressure (ICP) Monitors Market Size Estimates and Forecasts to 2032 (USD Million)

7.4 Transcranial Doppler (TCD) Devices

7.4.1 Transcranial Doppler (TCD) Devices Market Trends Analysis (2020-2032)

7.4.2 Transcranial Doppler (TCD) Devices Market Size Estimates and Forecasts to 2032 (USD Million)

7.5 Sleep Monitoring Devices

7.5.1 Sleep Monitoring Devices Market Trends Analysis (2020-2032)

7.5.2 Sleep Monitoring Devices Market Size Estimates and Forecasts to 2032 (USD Million)

7.6 Others

7.6.1 Others Market Trends Analysis (2020-2032)

7.6.2 Others Market Size Estimates and Forecasts to 2032 (USD Million)

8. Wireless Brain Sensors Market Segmentation, By Application

8.1 Chapter Overview

8.2 Dementia

8.2.1 Dementia Market Trends Analysis (2020-2032)

8.2.2 Dementia Market Size Estimates and Forecasts to 2032 (USD Million)

8.3 Epilepsy

8.3.1 Epilepsy Market Trends Analysis (2020-2032)

8.3.2 Epilepsy Market Size Estimates and Forecasts to 2032 (USD Million)

8.4 Parkinson’s Disease

8.4.1 Parkinson’s Disease Market Trends Analysis (2020-2032)

8.4.2 Parkinson’s Disease Market Size Estimates and Forecasts to 2032 (USD Million)

8.5 Traumatic Brain Injuries

8.5.1 Traumatic Brain Injuries Market Trends Analysis (2020-2032)

8.5.2 Traumatic Brain Injuries Market Size Estimates and Forecasts to 2032 (USD Million)

8.6 Others

8.6.1 Others Market Trends Analysis (2020-2032)

8.6.2 Others Market Size Estimates and Forecasts to 2032 (USD Million)

9. Wireless Brain Sensors Market Segmentation, By End-Use

9.1 Chapter Overview

9.2 Multispecialty Hospitals

9.2.1 Multispecialty Hospitals Market Trends Analysis (2020-2032)

9.2.2 Multispecialty Hospitals Market Size Estimates and Forecasts to 2032 (USD Million)

9.3 Research Institutes

9.3.1 Research Institutes Market Trends Analysis (2020-2032)

9.3.2 Research Institutes Market Size Estimates and Forecasts to 2032 (USD Million)

9.4 Others

9.4.1 Others Market Trends Analysis (2020-2032)

9.4.2 Others Market Size Estimates and Forecasts to 2032 (USD Million)

10. Regional Analysis

10.1 Chapter Overview

10.2 North America

10.2.1 Trends Analysis

10.2.2 North America Wireless Brain Sensors Market Estimates and Forecasts, by Country (2020-2032) (USD Million)

10.2.3 North America Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million) 

10.2.4 North America Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.2.5 North America Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.2.6 USA

10.2.6.1 USA Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.2.6.2 USA Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.2.6.3 USA Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.2.7 Canada

10.2.7.1 Canada Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.2.7.2 Canada Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.2.7.3 Canada Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.2.8 Mexico

10.2.8.1 Mexico Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.2.8.2 Mexico Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.2.8.3 Mexico Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3 Europe

10.3.1 Eastern Europe

10.3.1.1 Trends Analysis

10.3.1.2 Eastern Europe Wireless Brain Sensors Market Estimates and Forecasts, by Country (2020-2032) (USD Million)

10.3.1.3 Eastern Europe Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million) 

10.3.1.4 Eastern Europe Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.1.5 Eastern Europe Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.1.6 Poland

10.3.1.6.1 Poland Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.1.6.2 Poland Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.1.6.3 Poland Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.1.7 Romania

10.3.1.7.1 Romania Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.1.7.2 Romania Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.1.7.3 Romania Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.1.8 Hungary

10.3.1.8.1 Hungary Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.1.8.2 Hungary Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.1.8.3 Hungary Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.1.9 Turkey

10.3.1.9.1 Turkey Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.1.9.2 Turkey Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.1.9.3 Turkey Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.1.10 Rest of Eastern Europe

10.3.1.10.1 Rest of Eastern Europe Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.1.10.2 Rest of Eastern Europe Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.1.10.3 Rest of Eastern Europe Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2 Western Europe

10.3.2.1 Trends Analysis

10.3.2.2 Western Europe Wireless Brain Sensors Market Estimates and Forecasts, by Country (2020-2032) (USD Million)

10.3.2.3 Western Europe Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million) 

10.3.2.4 Western Europe Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.5 Western Europe Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.6 Germany

10.3.2.6.1 Germany Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.6.2 Germany Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.6.3 Germany Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.7 France

10.3.2.7.1 France Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.7.2 France Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.7.3 France Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.8 UK

10.3.2.8.1 UK Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.8.2 UK Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.8.3 UK Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.9 Italy

10.3.2.9.1 Italy Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.9.2 Italy Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.9.3 Italy Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.10 Spain

10.3.2.10.1 Spain Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.10.2 Spain Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.10.3 Spain Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.11 Netherlands

10.3.2.11.1 Netherlands Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.11.2 Netherlands Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.11.3 Netherlands Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.12 Switzerland

10.3.2.12.1 Switzerland Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.12.2 Switzerland Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.12.3 Switzerland Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.13 Austria

10.3.2.13.1 Austria Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.13.2 Austria Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.13.3 Austria Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.3.2.14 Rest of Western Europe

10.3.2.14.1 Rest of Western Europe Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.3.2.14.2 Rest of Western Europe Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.3.2.14.3 Rest of Western Europe Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4 Asia Pacific

10.4.1 Trends Analysis

10.4.2 Asia Pacific Wireless Brain Sensors Market Estimates and Forecasts, by Country (2020-2032) (USD Million)

10.4.3 Asia Pacific Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million) 

10.4.4 Asia Pacific Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.5 Asia Pacific Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4.6 China

10.4.6.1 China Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.4.6.2 China Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.6.3 China Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4.7 India

10.4.7.1 India Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.4.7.2 India Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.7.3 India Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4.8 Japan

10.4.8.1 Japan Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.4.8.2 Japan Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.8.3 Japan Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4.9 South Korea

10.4.9.1 South Korea Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.4.9.2 South Korea Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.9.3 South Korea Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4.10 Vietnam

10.4.10.1 Vietnam Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.4.10.2 Vietnam Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.10.3 Vietnam Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4.11 Singapore

10.4.11.1 Singapore Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.4.11.2 Singapore Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.11.3 Singapore Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4.12 Australia

10.4.12.1 Australia Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.4.12.2 Australia Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.12.3 Australia Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.4.13 Rest of Asia Pacific

10.4.13.1 Rest of Asia Pacific Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.4.13.2 Rest of Asia Pacific Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.4.13.3 Rest of Asia Pacific Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5 Middle East and Africa

10.5.1 Middle East

10.5.1.1 Trends Analysis

10.5.1.2 Middle East Wireless Brain Sensors Market Estimates and Forecasts, by Country (2020-2032) (USD Million)

10.5.1.3 Middle East Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million) 

10.5.1.4 Middle East Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.1.5 Middle East Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.1.6 UAE

10.5.1.6.1 UAE Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.5.1.6.2 UAE Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.1.6.3 UAE Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.1.7 Egypt

10.5.1.7.1 Egypt Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.5.1.7.2 Egypt Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.1.7.3 Egypt Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.1.8 Saudi Arabia

10.5.1.8.1 Saudi Arabia Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.5.1.8.2 Saudi Arabia Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.1.8.3 Saudi Arabia Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.1.9 Qatar

10.5.1.9.1 Qatar Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.5.1.9.2 Qatar Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.1.9.3 Qatar Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.1.10 Rest of Middle East

10.5.1.10.1 Rest of Middle East Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.5.1.10.2 Rest of Middle East Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.1.10.3 Rest of Middle East Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.2 Africa

10.5.2.1 Trends Analysis

10.5.2.2 Africa Wireless Brain Sensors Market Estimates and Forecasts, by Country (2020-2032) (USD Million)

10.5.2.3 Africa Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million) 

10.5.2.4 Africa Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.2.5 Africa Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.2.6 South Africa

10.5.2.6.1 South Africa Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.5.2.6.2 South Africa Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.2.6.3 South Africa Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.2.7 Nigeria

10.5.2.7.1 Nigeria Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.5.2.7.2 Nigeria Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.2.7.3 Nigeria Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.5.2.8 Rest of Africa

10.5.2.8.1 Rest of Africa Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.5.2.8.2 Rest of Africa Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.5.2.8.3 Rest of Africa Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.6 Latin America

10.6.1 Trends Analysis

10.6.2 Latin America Wireless Brain Sensors Market Estimates and Forecasts, by Country (2020-2032) (USD Million)

10.6.3 Latin America Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million) 

10.6.4 Latin America Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.6.5 Latin America Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.6.6 Brazil

10.6.6.1 Brazil Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.6.6.2 Brazil Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.6.6.3 Brazil Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.6.7 Argentina

10.6.7.1 Argentina Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.6.7.2 Argentina Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.6.7.3 Argentina Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.6.8 Colombia

10.6.8.1 Colombia Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.6.8.2 Colombia Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.6.8.3 Colombia Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

10.6.9 Rest of Latin America

10.6.9.1 Rest of Latin America Wireless Brain Sensors Market Estimates and Forecasts, By Product (2020-2032) (USD Million)

10.6.9.2 Rest of Latin America Wireless Brain Sensors Market Estimates and Forecasts, By Application (2020-2032) (USD Million)

10.6.9.3 Rest of Latin America Wireless Brain Sensors Market Estimates and Forecasts, By End-Use (2020-2032) (USD Million)

11. Company Profiles

11.1 NeuroSky

11.1.1 Company Overview

11.1.2 Financial

11.1.3 Products/ Services Offered

11.1.4 SWOT Analysis

11.2 EMOTIV

11.2.1 Company Overview

11.2.2 Financial

11.2.3 Products/ Services Offered

11.2.4 SWOT Analysis

11.3 Advanced Brain Monitoring Inc.

11.3.1 Company Overview

11.3.2 Financial

11.3.3 Products/ Services Offered

11.3.4 SWOT Analysis

11.4 Koninklijke Philips N.V.

11.4.1 Company Overview

11.4.2 Financial

11.4.3 Products/ Services Offered

11.4.4 SWOT Analysis

11.5 Medtronic

11.5.1 Company Overview

11.5.2 Financial

11.5.3 Products/ Services Offered

11.5.4 SWOT Analysis

11.6 InteraXon Inc.

11.6.1 Company Overview

11.6.2 Financial

11.6.3 Products/ Services Offered

11.6.4 SWOT Analysis

11.7 Natus Medical Incorporated

11.7.1 Company Overview

11.7.2 Financial

11.7.3 Products/ Services Offered

11.7.4 SWOT Analysis

11.8 Cadwell Industries Inc.

11.8.1 Company Overview

11.8.2 Financial

11.8.3 Products/ Services Offered

11.8.4 SWOT Analysis

11.9 NeuroWave Systems Inc.

11.9.1 Company Overview

11.9.2 Financial

11.9.3 Products/ Services Offered

11.9.4 SWOT Analysis

11.10 BrainScope

11.10.1 Company Overview

11.10.2 Financial

11.10.3 Products/ Services Offered

11.10.4 SWOT Analysis

12. Use Cases and Best Practices

13. Conclusion

An accurate research report requires proper strategizing as well as implementation. There are multiple factors involved in the completion of good and accurate research report and selecting the best methodology to compete the research is the toughest part. Since the research reports we provide play a crucial role in any company’s decision-making process, therefore we at SNS Insider always believe that we should choose the best method which gives us results closer to reality. This allows us to reach at a stage wherein we can provide our clients best and accurate investment to output ratio.

Each report that we prepare takes a timeframe of 350-400 business hours for production. Starting from the selection of titles through a couple of in-depth brain storming session to the final QC process before uploading our titles on our website we dedicate around 350 working hours. The titles are selected based on their current market cap and the foreseen CAGR and growth.

 

The 5 steps process:

Step 1: Secondary Research:

Secondary Research or Desk Research is as the name suggests is a research process wherein, we collect data through the readily available information. In this process we use various paid and unpaid databases which our team has access to and gather data through the same. This includes examining of listed companies’ annual reports, Journals, SEC filling etc. Apart from this our team has access to various associations across the globe across different industries. Lastly, we have exchange relationships with various university as well as individual libraries.

Secondary Research

Step 2: Primary Research

When we talk about primary research, it is a type of study in which the researchers collect relevant data samples directly, rather than relying on previously collected data.  This type of research is focused on gaining content specific facts that can be sued to solve specific problems. Since the collected data is fresh and first hand therefore it makes the study more accurate and genuine.

We at SNS Insider have divided Primary Research into 2 parts.

Part 1 wherein we interview the KOLs of major players as well as the upcoming ones across various geographic regions. This allows us to have their view over the market scenario and acts as an important tool to come closer to the accurate market numbers. As many as 45 paid and unpaid primary interviews are taken from both the demand and supply side of the industry to make sure we land at an accurate judgement and analysis of the market.

This step involves the triangulation of data wherein our team analyses the interview transcripts, online survey responses and observation of on filed participants. The below mentioned chart should give a better understanding of the part 1 of the primary interview.

Primary Research

Part 2: In this part of primary research the data collected via secondary research and the part 1 of the primary research is validated with the interviews from individual consultants and subject matter experts.

Consultants are those set of people who have at least 12 years of experience and expertise within the industry whereas Subject Matter Experts are those with at least 15 years of experience behind their back within the same space. The data with the help of two main processes i.e., FGDs (Focused Group Discussions) and IDs (Individual Discussions). This gives us a 3rd party nonbiased primary view of the market scenario making it a more dependable one while collation of the data pointers.

Step 3: Data Bank Validation

Once all the information is collected via primary and secondary sources, we run that information for data validation. At our intelligence centre our research heads track a lot of information related to the market which includes the quarterly reports, the daily stock prices, and other relevant information. Our data bank server gets updated every fortnight and that is how the information which we collected using our primary and secondary information is revalidated in real time.

Data Bank Validation

Step 4: QA/QC Process

After all the data collection and validation our team does a final level of quality check and quality assurance to get rid of any unwanted or undesired mistakes. This might include but not limited to getting rid of the any typos, duplication of numbers or missing of any important information. The people involved in this process include technical content writers, research heads and graphics people. Once this process is completed the title gets uploader on our platform for our clients to read it.

Step 5: Final QC/QA Process:

This is the last process and comes when the client has ordered the study. In this process a final QA/QC is done before the study is emailed to the client. Since we believe in giving our clients a good experience of our research studies, therefore, to make sure that we do not lack at our end in any way humanly possible we do a final round of quality check and then dispatch the study to the client.

Key Segments:

By Product

  • Electroencephalography (EEG) Devices

  • Transcranial Doppler (TCD) Devices

  • Sleep Monitoring Devices

  • Intracranial Pressure (ICP) Monitors

  • Others

By Application

  • Dementia

  • Parkinson's Disease

  • Epilepsy

  • Traumatic Brain Injuries

  • Others

By End Use

  • Multispecialty Hospitals

  • Research Institutes

  • Others

Request for Segment Customization as per your Business Requirement: Segment Customization Request

Regional Coverage:

North America

  • US

  • Canada

  • Mexico

Europe

  • Eastern Europe

    • Poland

    • Romania

    • Hungary

    • Turkey

    • Rest of Eastern Europe

  • Western Europe

    • Germany

    • France

    • UK

    • Italy

    • Spain

    • Netherlands

    • Switzerland

    • Austria

    • Rest of Western Europe

Asia Pacific

  • China

  • India

  • Japan

  • South Korea

  • Vietnam

  • Singapore

  • Australia

  • Rest of Asia Pacific

Middle East & Africa

  • Middle East

    • UAE

    • Egypt

    • Saudi Arabia

    • Qatar

    • Rest of Middle East

  • Africa

    • Nigeria

    • South Africa

    • Rest of Africa

Latin America

  • Brazil

  • Argentina

  • Colombia

  • Rest of Latin America

Request for Country Level Research Report: Country Level Customization Request

Available Customization

With the given market data, SNS Insider offers customization as per the company’s specific needs. The following customization options are available for the report:

  • Detailed Volume Analysis

  • Criss-Cross segment analysis (e.g. Product X Application)

  • Competitive Product Benchmarking

  • Geographic Analysis

  • Additional countries in any of the regions

  • Customized Data Representation

  • Detailed analysis and profiling of additional market players


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