Wearable Sensing

Wearable Sensing

Biotechnology Research

San Diego, CA 1,404 followers

Revolutionizing EEG | High-Fidelity Brain Monitoring for Real-World Applications

About us

Wearable Sensing is a rapidly growing neurotechnology company that specializes in developing wearable sensors for brain activity monitoring. Our patented Dry Sensor Interface (DSI) technology ensures high signal quality and artifact-free physiological monitoring in easy-to-use, mobile form factors. By facilitating brain activity monitoring in real-world environments, our practical EEG headsets are revolutionizing the neuroscience research field and enabling innovative applications across various commercial domains, such as neurorehabilitation, brain computer interface (BCI), virtual reality, neurofeedback, neuromarketing, neuroeducation, and many more.

Industry
Biotechnology Research
Company size
11-50 employees
Headquarters
San Diego, CA
Type
Privately Held
Founded
2013
Specialties
EEG, Dry Electrode, Brain Monitoring, Neurofeedback, Neuromarketing, BCI, brain-computer interface, Virtual Reality, Neurorehabilitation, Neuroscience, Research, fNIRS, Biosensors, Multimodal, electrophysiology, and electroencephalogram

Locations

Employees at Wearable Sensing

Updates

  • ✨ New here? Welcome to the #neurotech community! 👋 Meet our DSI technology — the industry-leading dry EEG system, designed to deliver exceptional signal quality and comfort. We’re revolutionizing wearable devices to take brain imaging into everyday real-world applications 🧠

  • Wearable Sensing reposted this

    View profile for Ryan Hanson, graphic

    Neuroscience Technical Rep @ Wearable Sensing

    I had an incredible time last week introducing Villa College to the exciting capabilities and research applications of their new DSI system from Wearable Sensing! Huge thank you to Aishath Nasheeda for welcoming me to the Maldives and for bringing everyone together for the training. I look forward to seeing all the great work this talented group of researchers have planned, from fundamental neuroscience to mental health, clinical research, education and beyond 🧠

  • How do our brains respond to music? 🧠 🎻 🎷 EEG Hyperscanning is a neuroscience research technique that involves simultaneously recording the brain activity of multiple people in real-time, and synchronizing the activity during a task, such as performing music. By aligning the data, researchers can identify collective responses to specific elements like rhythm, tempo changes, or harmonies, uncovering insights into how we perceive music. This technique can also be used to better understand how music can alleviate the symptoms of cognitive disorders, like ADHD or Tourette's, or even how audiences’ brains respond collectively to a song, elucidating the social connections many of us experience through music. The advancement of high-quality dry EEG systems enables exciting new developments in these research areas, where collecting data in naturalistic, real-world environments is key to fundamentally understanding the underlying mechanisms in the brain. Check out this beautiful duet of Violin and Saxophone from our very own team members, Savanna and Iisak, wearing the industry-leading DSI-24. #EEG #Hyperscanning #Music #Duet #Neuroscience #Neurotech #Research  

  • Can 1 millisecond make all the difference in understanding the brain? 🧠 ⏱ In neuroscience research, timing is everything. To best understand how the brain processes information, we need precise synchronization of data from multiple sources—like EEG, behavioral tracking, and visual stimuli. A misalignment of even a millisecond can skew interpretations of things like cognitive responses, motor coordination, or real-time neurofeedback. In the video below, we are presenting a recognizable visual stimulus, Mickey Mouse, and looking at the cognitive response it evokes. This cognitive response is typically called an Event Related Potential, or ERP. Using Wearable Sensing's 'wireless trigger hub' device, we can mark the data at the exact instance the image was presented, and analyze the following activity in the brain, therefore allowing us to provide more accurate context to the response we observe. #Neuroscience #EEG #ERP #Neurotech #MickeyMouse 🐭

  • How many EEG channels do you need to localize sources in the brain? 🧠 Source localization is the process of identifying which regions in the brain are the origin of electrical activity observed on the scalp. In EEG research, this method is an important tool for understanding spatial position of brain activity in response to specific stimuli, such as an auditory tone or image. In general, the more electrodes (or channels) you use, the more detailed the mapping can be, which is why many researchers prefer to work with 64 or more channels for higher accuracy and resolution. However, it’s not always necessary to use that many channels. With modern EEG systems and advanced processing software like BESA GmbH, reliable source localization can still be achieved with fewer channels. For example, using the DSI-24, a 19-channel dry EEG system, we were able to capture an auditory evoked potential and generate a clean source localization plot. Of course, more channels will generally provide better spatial resolution, but this demonstrates that even with 19 channels, high-quality source localization is possible. Check out the plot below for an example of how the DSI-24 performed! #EEG #SourceLocalization #neuroscience #dryEEG #neurotech

    • DSI-24 and BESA GmbH source localization software
  • This morning at #SfN24, Disha Gupta and her team from National Center for Adaptive Neurotechnologies (NCAN) is presenting their work examining the relationship between cortical mechanoreceptive processing and finger proprioception after chronic stroke 🧠, as well as its ability to predict improvements in finger proprioception following robot-based hand therapy 🦾 Drop by their poster # LBA25 or use the link below to learn more about this cutting edge research. https://lnkd.in/gXBFZ-58

    cAttendee

    cAttendee

    cattendee.abstractsonline.com

  • 3 more days until #SfN2024! Drop by Booth # 739 to try on the industry-leading dry EEG system for real-world research applications 🧠

    View organization page for Wearable Sensing, graphic

    1,404 followers

    Going to #SfN2024 next week? Come connect with us at Booth # 739 🧠 The Wearable Sensing team is excited to present our latest dry EEG neurotechnology in Chicago, IL at the Society for Neuroscience 2024 conference on October 5th - 9th. Come see the signal quality, feel the comfort, and explore the real-world applications of our systems to find out how they can empower your research. We will be doing continuous live demonstrations! ** If you're part of the #DSI community and presenting at SfN, comment below with your presentation info so we can find you! **

    • No alternative text description for this image
  • Going to #SfN2024 next week? Come connect with us at Booth # 739 🧠 The Wearable Sensing team is excited to present our latest dry EEG neurotechnology in Chicago, IL at the Society for Neuroscience 2024 conference on October 5th - 9th. Come see the signal quality, feel the comfort, and explore the real-world applications of our systems to find out how they can empower your research. We will be doing continuous live demonstrations! ** If you're part of the #DSI community and presenting at SfN, comment below with your presentation info so we can find you! **

    • No alternative text description for this image

Similar pages

Funding