Brain–computer interface

Global Brain Computer Interface Industry

Retrieved on: 
Tuesday, December 1, 2020
User interface techniques, Brain–computer interface, Human–computer interaction, Virtual reality, Brain, Branches of biology

US Brain Computer Interface Market Share (in %) by Company:

Key Points: 
  • US Brain Computer Interface Market Share (in %) by Company:
    Estimates and Projections in US$ Thousand by Type: 2020 to 2027
    Forecasts in US$ Thousand by Application: 2020 to 2027
    the United States by Application: 2012 VS 2020 VS 2027
    and Forecasts in US$ Thousand by Type: 2020 to 2027
    Review by Type in US$ Thousand: 2012-2019
    Table 30: Brain Computer Interface Market in Canada: Percentage
    Share Breakdown of Sales by Type for 2012, 2020, and 2027
    Demand Analysis in US$ Thousand by Application: 2020 to 2027
    Table 32: Brain Computer Interface Market in Canada:
    Table 34: Japanese Market for Brain Computer Interface: Annual
    Table 35: Brain Computer Interface Market in Japan: Historic
    Computer Interface in US$ Thousand by Application: 2020 to 2027
    China in US$ Thousand by Type: 2012-2019
    Table 42: Chinese Brain Computer Interface Market by Type:
    Percentage Breakdown of Sales for 2012, 2020, and 2027
    European Brain Computer Interface Market: Competitor Market
    Scenario in US$ Thousand by Region/Country: 2020-2027
    Table 47: Brain Computer Interface Market in Europe: A Historic
    and Forecasts in US$ Thousand by Type: 2020-2027
    Opportunity in US$ Thousand by Application: 2020-2027
    Table 53: Brain Computer Interface Market in Europe:
    Table 55: Brain Computer Interface Market in France by Type:
    Scenario in US$ Thousand by Type: 2012-2019
    in France in US$ Thousand by Application: 2020-2027
    Review in US$ Thousand by Application: 2012-2019
    Analysis: A 17-Year Perspective by Application for 2012, 2020,
    Table 61: Brain Computer Interface Market in Germany: Recent
    Analysis in US$ Thousand by Type: 2012-2019
    Table 64: Brain Computer Interface Market in Germany: Annual
    in US$ Thousand by Application: 2012-2019
    Italy in US$ Thousand by Type: 2012-2019
    Table 69: Italian Brain Computer Interface Market by Type:
    Percentage Breakdown of Sales for 2012, 2020, and 2027
    Table 73: United Kingdom Market for Brain Computer Interface:
    Brain Computer Interface in US$ Thousand by Application: 2020
    Estimates and Forecasts in US$ Thousand by Type: 2020-2027
    Market Opportunity in US$ Thousand by Application: 2020-2027
    Table 83: Brain Computer Interface Market in Rest of Europe:
    Scenario in US$ Thousand by Type: 2012-2019
    in Asia-Pacific in US$ Thousand by Application: 2020-2027
    Review in US$ Thousand by Application: 2012-2019
    Analysis: A 17-Year Perspective by Application for 2012, 2020,
    Estimates and Forecasts in US$ Thousand by Type: 2020 to 2027
    Market Review by Type in US$ Thousand: 2012-2019
    Table 93: Brain Computer Interface Market in Rest of World:
    Percentage Share Breakdown of Sales by Type for 2012, 2020, and
    Quantitative Demand Analysis in US$ Thousand by Application:
    Table 95: Brain Computer Interface Market in Rest of World:

Neuroverse® Develops Games for Neural Performance Assessment and Practice Integrated in its Wearable BrainStation® Technology

Retrieved on: 
Wednesday, October 28, 2020
Branches of biology, Neuropsychology, Academic disciplines, Meditation, Mind–body interventions, Cognition, Cognitive neuroscience, Neurocognition, Brain–computer interface, Brain, Mindfulness, Neuroergonomics

Integrated in its revolutionary, wearable BrainStation technology, this is accomplished by evaluating responses in associated well-known brain markers, such as event-related brain potentials (ERPs) and brain frequency modulations.

Key Points: 
  • Integrated in its revolutionary, wearable BrainStation technology, this is accomplished by evaluating responses in associated well-known brain markers, such as event-related brain potentials (ERPs) and brain frequency modulations.
  • https://www.neuroverseinc.com/
    Neuroverse is proud to have completed a successful study of one of our first games designed to enable users to track and practice visual attention, while evaluating their neural performance via modulations of well-established brain markers.
  • "Ongoing and future studies are investigating the use of our system in other aspects of neurocognitive assessment, including additional video games to assess brain performance.
  • Its BrainStation technology is a wearable brain interface that brings the missing piece for true mind/body balance solutions by integrating neurocognitive assessment, cognitive and mindfulness training, and sleep performance in a single, reliable and easy-to-use holistic system.

Patients with Severe Paralysis Use Stentrode Brain-Computer Interface to Text, Email, Shop, Bank Online, First-in-human Study Reports

Retrieved on: 
Wednesday, October 28, 2020
Other Professional Services, Other Health, Technology, Radiology, Stem cells, Practice Management, Professional services, General Health, Other Technology, Cardiology, Science, Biotechnology, Other Science, Health, Research, Branches of biology, Neuroscience, Biology, Human–computer interaction, User interface techniques, Neuroprosthetics, Neural engineering, Brain–computer interfacing, Stent-electrode recording array, Brain–computer interface, Neuromodulation, Bioelectronics, Stentrode™, Synchron, Inc.

Synchron , a neurovascular bioelectronics medicine company, today announced publication of a first-in-human study demonstrating successful use of the Stentrode brain-computer interface (BCI), or neuroprosthesis.

Key Points: 
  • Synchron , a neurovascular bioelectronics medicine company, today announced publication of a first-in-human study demonstrating successful use of the Stentrode brain-computer interface (BCI), or neuroprosthesis.
  • The patients used the neuroprosthesis to resume daily tasks independently, including text messaging, online shopping and managing finances.
  • Following implantation and training, patients commenced unsupervised home use of the system from day 86 and day 71, respectively.
  • The only interventional neural interface platform, the Stentrode is designed to function as both a neuroprosthesis and neuromodulation device.

Global Brain Computer Interface Market (2020 to 2026) - Industry Analysis, Trends, Market Size, and Forecasts

Retrieved on: 
Wednesday, September 16, 2020
Forecasting, Statistical forecasting, Supply chain management, Brain–computer interface

DUBLIN, Sept. 15, 2020 /PRNewswire/ -- The "Brain Computer Interface Market: Global Industry Analysis, Trends, Market Size, and Forecasts up to 2026" report has been added to ResearchAndMarkets.com's offering.

Key Points: 
  • DUBLIN, Sept. 15, 2020 /PRNewswire/ -- The "Brain Computer Interface Market: Global Industry Analysis, Trends, Market Size, and Forecasts up to 2026" report has been added to ResearchAndMarkets.com's offering.
  • The report on the global brain computer interface market provides qualitative and quantitative analysis for the period from 2018 to 2026.
  • The report predicts the global brain computer interface market to grow with a CAGR of 15.1% over the forecast period from 2020-2026.
  • The report on brain computer interface market is a comprehensive study and presentation of drivers, restraints, opportunities, demand factors, market size, forecasts, and trends in the global brain computer interface market over the period of 2018 to 2026.

Automated Guided Vehicle Market | Insights on the Crisis and the Roadmap to Recovery from COVID-19 Pandemic | Technavio

Retrieved on: 
Tuesday, September 15, 2020
Automotive Manufacturing, Manufacturing, Articles, Occupational safety and health, Brain–computer interface, Human–computer interaction, Virtual reality, AGV, Impact of the COVID-19 pandemic, Automated guided vehicle, COVID-19 pandemic, Coronavirus disease, BCIS

The report offers a detailed analysis of the impact of COVID-19 pandemic on the automated guided vehicle market in optimistic, probable, and pessimistic forecast scenarios.

Key Points: 
  • The report offers a detailed analysis of the impact of COVID-19 pandemic on the automated guided vehicle market in optimistic, probable, and pessimistic forecast scenarios.
  • View the full release here: https://www.businesswire.com/news/home/20200915005860/en/
    Technavio has announced its latest market research report titled Global Automated Guided Vehicle (AGV) Market 2020-2024 (Graphic: Business Wire)
    Get a detailed insights on COVID-19 pandemic Crisis and Recovery analysis of automated guided vehicle market.
  • Download free report sample
    The automated guided vehicle market will witness a Negative and Inferior impact during the forecast period owing to the extensive spread of COVID-19 pandemic.
  • Automated Guided Vehicle Market 2020-2024: Vendor Analysis
    The market is fragmented.

Five Top of Mind Data Protection Recommendations for Brain-Computer Interfaces

Retrieved on: 
Tuesday, September 15, 2020
Branches of biology, Brain–computer interfacing, Neuroscience, Medicine, Neurophysiology, Neurotechnology, Brain–computer interface, Human–computer interaction, Electroencephalography, Internet privacy, Intendix

Key FPF-curated background resources policy & regulatory documents, academic papers, and technical analyses regarding brain-computer interfaces are available here.

Key Points: 
  • Key FPF-curated background resources policy & regulatory documents, academic papers, and technical analyses regarding brain-computer interfaces are available here.
  • Recently, Elon Musk livestreamed an update for Neuralinkhis startup centered around creating brain-computer interfaces (BCIs).
  • BCIs are an umbrella term for devices that detect, amplify, and translate brain activity into usable neuroinformation.
  • But it is clear that brain-computer interfaces are increasingly used by hospitals, schools, individuals, and others for a range of purposes.
  • It is equally clear that BCIs often use sensitive personal data and create data protection risks.
  • Below, we explain how BCI technologies work, how BCIs are used today, some of the technical challenges associated with implementing the technologies, and the data protection risks they can create.
  • // Some BCIs are invasive or semi-invasiveimplanted into a users brain or installed on the brain surfacelike Neuralink.
  • Invasive BCIs, which are installed directly into the wearers brain, are typically used in the medical context.
  • EEG is a common method for recording electrical activity, with electrodes placed on the scalp to measure neural activity.
  • This data could be used for a range of commercial purposes, from product improvement and personalization to behavioral advertising and profiling.
  • As a novel interface, BCIs raise important data protection questions that should be addressed throughout their development cycle.
  • Below, we put forward just a handful of the high-level recommendations that developers should adhere to when seeking to create inclusive, and privacy-centric, brain-computer interfaces.
  • As with other devices, there are considerable privacy risks when a BCI is always gathering data or can be turned on unintentionally.
  • (4) Focus on Data Quality Providers should strive to use the most accurate data collection processes and machine-learning tools available to ensure accuracy and precision.
  • Moving Forward // The Future of Privacy Forum is working with stakeholders to better analyze these issues and make recommendations regarding appropriate data protections for brain-computer interfaces.

BrainGate Inc., owner of brain-computer interface technologies, donated to Tufts University

Retrieved on: 
Thursday, September 10, 2020
Brain–computer interfacing, BrainGate, Jeff Stibel, Brain–computer interface, Tufts University, Middlesex County, Massachusetts, Cognitive science, Massachusetts counties, Cyberkinetics

and SOMERVILLE,Mass., Sept. 10, 2020 /PRNewswire/ --Tufts University, together with alumnus Jeff Stibel and his partners, today announced the donation of BrainGate, Inc. ("BrainGate") and itspatented technology to the university.

Key Points: 
  • and SOMERVILLE,Mass., Sept. 10, 2020 /PRNewswire/ --Tufts University, together with alumnus Jeff Stibel and his partners, today announced the donation of BrainGate, Inc. ("BrainGate") and itspatented technology to the university.
  • BrainGate has received an FDA-approved investigational device exemption to conduct human trials of brain-computer interface (BCI) technologies.
  • "BrainGate is a foundational platform for BCI technologies being developed around the world, and I can think of no better place for its advancement than Tufts University," said Stibel, brain scientist, entrepreneur, former executive chairman of BrainGate, and 1995 graduate of Tufts.
  • "This donation is transformative for Tufts University and the study of brain and cognitive science," saidAnthony P. Monaco, president of Tufts University.

Synchron’s Stentrode Brain-Computer Interface Receives Breakthrough Device Designation from FDA

Retrieved on: 
Thursday, August 27, 2020
Hardware, FDA, Other Health, Technology, Pharmaceutical, Mental health, Medical devices, Clinical trials, Other Technology, Science, Biotechnology, Software, Other Science, Health, Research, Neuroscience, Branches of biology, Brain–computer interfacing, Medicine, Human–computer interaction, User interface techniques, Neurophysiology, Stent-electrode recording array, Neuralink, Neuromodulation, BrainGate, Brain–computer interface, Stentrode™, Synchron, Inc.

Other neural interface devices, such as those being developed by Elon Musks Neuralink and BrainGate , currently require drilling into the skull, and direct puncture into the brain, to achieve device implantation.

Key Points: 
  • Other neural interface devices, such as those being developed by Elon Musks Neuralink and BrainGate , currently require drilling into the skull, and direct puncture into the brain, to achieve device implantation.
  • Future research will evaluate the use of the Stentrode in patients with paralysis due to spinal cord injury, ALS, stroke and muscular dystrophy.
  • As the Stentrode system is small and flexible enough to safely pass through curving blood vessels, insertion of the device does not require open brain surgery.
  • The only interventional neuromodulation platform, Stentrode is designed to function as both a neuroprosthesis and neuromodulation device.

Neurotechnology Introduces BrainAccess Development Kit for Brain-Computer Interface Applications

Retrieved on: 
Wednesday, August 12, 2020
Branches of biology, Neuroscience, Brain–computer interfacing, Electrophysiology, Neurophysiology, Electrodiagnosis, Electroencephalography, Brain, Neurotechnology, Brain–computer interface

VILNIUS, Lithuania, Aug. 12, 2020 /PRNewswire/ -- Neurotechnology today announced the launch of the BrainAccess Development Kit.

Key Points: 
  • VILNIUS, Lithuania, Aug. 12, 2020 /PRNewswire/ -- Neurotechnology today announced the launch of the BrainAccess Development Kit.
  • This kit offers high-density coverage of all cerebral cortex regions offering development capabilities of more elaborate BCI experiments or applications.
  • The BrainAccess Development Kit comes with all of the necessary software for EEG data acquisition and processing and also features some BCI algorithms.
  • BrainAccess Core Library provides an interface with BrainAccess electroencephalographs and allows for direct access of recorded EEG data.

Blackrock Microsystems Licenses Wyss Center’s Real-time Neural Signal Processing Platform

Retrieved on: 
Tuesday, August 11, 2020
Research, Technology, Medical devices, Clinical trials, Software, Biotechnology, General Health, Health, Data management, Science, Science and technology in Switzerland, Neural engineering, Wyss, Brain–computer interface, Artificial neural networks, Research, Institutes, Computational neuroscience

The Wyss Center for Bio and Neuroengineering has granted a worldwide license to Blackrock Microsystems to commercialize its neural signal processing and decoding software platform for research and clinical applications.

Key Points: 
  • The Wyss Center for Bio and Neuroengineering has granted a worldwide license to Blackrock Microsystems to commercialize its neural signal processing and decoding software platform for research and clinical applications.
  • View the full release here: https://www.businesswire.com/news/home/20200811005373/en/
    The real-time neural signal processing platform will extend the reach of brain-computer interface applications.
  • (Photo: Wyss Center)
    One limitation of neural signal processing applications is that there is no single software platform that directly works with the multiple devices collecting brain signals.
  • The partnership between the Wyss Center and Blackrock Microsystems is a strong example of the Centers translational approach.