Wearable Sensing

✨ 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 🧠

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

#SfN2024 is a wrap! This year we shared a new booth design, our mind-controlled VR game (powered by #PhysioLabXR), and made many new connections with fellow neuroscientists and neurotech enthusiasts 🧠 Thanks to everyone who came by to chat with us and try on the industry-leading dry EEG system! Looking forward to next year in San Diego 🙌 Society for Neuroscience

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

How strong is your 🧠 activity? Stop by the Wearable Sensing booth # 739 at #SfN24 today to try the alpha brain challenge! Powered by #PhysioLabXR ✨

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

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! **

We are excited and honored to have our President, Dr. Walid Soussou, present at the Southern California BioLife Summits conference in San Diego today! The session, titled 'Commercializing New Products and Technology in Today's Market', will explore paths to commercialization and getting there with the least amount of resistance. The panelists discuss today’s bioscience market, distribution channels, FDA guidelines and various other barriers to navigate. #biotech #neurotech #localbusiness #startup

🧠 Exploring Real-Time Neurofeedback for Autism Spectrum Disorders 🧠 Autism Spectrum Disorder (ASD) affects about 2% of children in the USA and 0.5% globally, often involving intellectual, communication, and emotional regulation (ER) challenges. EEG-based neurofeedback has shown promise in reducing ASD symptoms. A few years ago, Dr. Murat Akcakaya, Associate Professor at the University of Pittsburgh, presented his team’s groundbreaking work developing a BCI for real-time ER interventions using EEG signatures, captured with Wearable Sensing’s DSI-24. His research demonstrates how this BCI reliably differentiates between distress and non-distress conditions in individuals with ASD, paving the way for enhanced therapy options. Our research-grade dry EEG systems are helping streamline data collection procedures for sensitive groups, allowing faster, cleaner and more reliable recording sessions, particularly for studies that require repeated use. These insights could lead to more targeted interventions and support strategies, ultimately contributing to a better understanding of neurodiversity and improving outcomes for individuals on the autism spectrum. Watch the full webinar here: https://lnkd.in/gbeHjKXt Learn more about how our dry EEG systems can support your research projects by reaching out to sales@wearablesensing.com today. #Neurotech #BCI #ASD #Neurofeedback #EEG #Neuroscience