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 🧠

Thrilled to see our work “Neural Indicators of Sleep Loss and Sleep Propensity in Male Military Diver Trainees: Insights from Dry-Electrode Electroencephalography” published in #PhysiologicalReports (American Physiological Society - Wiley)! 🧠💤 🔗 https://lnkd.in/epJPThkk This study, conducted with an incredible team, examines how sleep deprivation impacts #EEG activity during cognitive tasks in #military clearance diver trainees. 🏊♂️⚡ Using a novel dry-electrode EEG system, we observed significant increases in theta and alpha power densities during sleep deprivation, demonstrating the ability to track fatigue-related neural changes. These findings were further supported by shifts in Odds Ratio Product (#ORP) values, offering deeper insight into sleep propensity and vigilance declines. 🧠✨ A huge thank you to all co-authors and collaborators for their dedication in bringing this research to life! 📖⚡ St Mary’s University, Twickenham Charlie Pedlar Dr Sarah Coakley Sam Blacker Stephen Myers Paul Hough Christopher V. Tessa Maroni Neil Stanley Shona Halson Andy Siddall Stephen Patterson Martin I. Jones @Kieran Chillingsworth Dstl Defence Science and Technology Laboratory (Dstl) Cerebra Wearable Sensing American Physiological Society Publications #Neuroscience #SleepLoss #Fatigue #MilitaryResearch #PsychomotorVigilance #DryElectrode #Neurotechnology #CognitivePerformance

Come visit us this weekend at #CNS2025! 🧠 The Wearable Sensing team is excited to be presenting our latest technology in Boston for the 2025 Cognitive Neuroscience Society conference on March 29th. You can find us in the exhibit hall where we'll be conducting continuous live demos of our industry-leading dry EEG systems for cognitive neuroscience research. We are also hosting a workshop on Tuesday April 1st at 12:15 PM in the Grand Ballroom. This workshop will explore mobile and wearable solutions for cognitive neuroscience research geared toward real-world and VR environments. Presentations will include dry and mobile EEG, fNIRS, physiological monitoring, as well as approaches for multi-modal signal synchronization. If you're attending the conference and part of our #DSI community, come say hi and pickup some Wearable Sensing swag :)

Thrilled to see the DSI from Wearable Sensing used in motion sickness research! Exciting work pushing neuroscience and VR forward. If you’d like to learn more about the DSI system, feel free to reach out! #Neuroscience #Research #EEG #MotionSickness #NEUROSPEC

Exciting to see the DSI-24 in action! 🧠 🎹 🎶 We're grateful to be supporting leading researchers like Assal Habibi at University of Southern California exploring the fascinating intersection of music and the brain. Looking forward to the discoveries ahead! #revolutionizingEEG

Tired of excessively cleaning your EEG data? ⚡🧠 EEG recordings are prone to electrical and motion artifacts, making data interpretation a challenge. Many systems rely on extensive pre- and post-processing to filter out noise, but this can be time-consuming and may distort valuable neural signals. At Wearable Sensing, we take a different approach—engineering dry EEG systems with built-in artifact resistance to deliver cleaner data at the source. Here’s how: 🛡️ Faraday Cage Shielding Each sensor pod is individually shielded, integrating a Faraday cage to block external electrical noise (e.g., 60Hz mains interference) without the need for aggressive filtering. 🔄 Double Spring-Loaded Sensors Traditional electrodes lose contact with movement—our sensors dynamically adjust to maintain stable scalp contact, reducing motion-related artifacts and impedance fluctuations. ⚙️ Patented Common-Mode Follower (CMF) Technology Our CMF technology records and references out common electrical noise from the body in real time, improving signal quality without altering the neural data. With DSI systems, researchers can collect cleaner EEG data in real-world environments without messy gels, expensive shielded rooms or complex artifact correction algorithms. How do you tackle EEG artifacts in your research? #revolutionizingEEG #dryEEG #neurotech #realworld #BCI #signalprocessing

Can we design urban environments that optimize cognitive health? 🧠🏗️ Neuroarchitecture is an emerging field that uses real-world neuroimaging tools like EEG to unravel how our physical environment can affect our cognition, attention, and emotional state. Studies have demonstrated how differences in both architectural design and auditory soundscapes can influence brain activity, changing the way we experience our environment. 🏡 Architecture designed for relaxation: https://rb.gy/9bwsr4 A VR-EEG study, Kim et al 2021, investigated how changes to room proportions, such as ceiling height and window size, can directly impact neural activity. They found unique changes in alpha-to-beta ratio (RAB), demonstrating how specific design elements can elicit varying degrees of arousal and relaxation. 🌊 Water-sounds improve cognitive restoration: https://rb.gy/6eufbm A soundscape study, Li et al 2024, explored how introducing water sounds into urban parks can mask traffic noise and promote relaxation. Researchers found that spatial variations of water sounds led to enhanced attentional processing, increased relaxation (via alpha-theta synchronization), and overall improved emotional saliency and perceived restorativeness. It's exciting to see how wearable #neurotech can inform improvements to our everyday world by providing quick and clean access to high quality brain data, in both real-world and virtual-reality settings, and we're proud to see our industry-leading DSI systems enabling this neuroarchitecture research! How do you think we could better design our urban environments to improve cognitive health? #neuroarchitecture #mentalhealth #VR #revolutionizingEEG

What is Neuromarketing? 🧠 📺 🛍️   Neuromarketing is the fusion of neuroscience and marketing, leveraging insights into brain activity to understand consumer behavior at a deeper, neurological level. Instead of relying solely on traditional surveys and focus groups, neuromarketing uses real-time data from the brain to reveal what truly captures attention, drives decisions, and evokes emotions. Advanced neuroimaging tools, like our DSI-EEG systems, can empower marketing research teams to test advertisements and content prior to release, in order to craft messages and experiences that are backed by objective quantitative measures—leading to more effective campaigns, improved product designs, and enhanced customer experiences. Flying Horse beautifully demonstrates this use-case in the video below – where they showcase the DSI-7 system capturing real-time cognitive measures of engagement and motivation while navigating various meal-delivery service websites. In a world saturated with ads and content, understanding the neurological drivers of consumer preferences can make all the difference towards a successful marketing campaign 🙌 If you want to learn more about neuromarketing strategies, reach out to Flying Horse directly about their services, or for more information about how utilizing EEG can empower your neuromarketing research, let's connect! #neuromarketing #EEG #neurotech #revolutionizingEEG

What is EEG-guided TMS, and how is it transforming mental healthcare? 🧠 🧲 EEG-guided Transcranial Magnetic Stimulation (TMS) is emerging as a therapy that combines real-time precision brain imaging with non-invasive neuromodulation. One groundbreaking approach, Magnetic e-Resonance Therapy (MeRT), from Wave Neuroscience uses rapid collection of EEG data to analyze brain network function and therefore guide personalized TMS protocols to help treat neurological conditions such as PTSD, depression and more. Our flagship EEG system, the DSI-24, plays a key role in enabling this therapy, by providing high-quality dry EEG data with minimal setup time, making it an ideal solution for real-world clinical and research settings. 🌟 We’re proud to see DSI technology supporting cutting edge, personalized mental-health therapy in clinics all over the country, and we're excited to see how this technique evolves! #TMS #neurotech #revolutionizingEEG #healthcare

How does the brain respond to spaceflight? 🛰️🧠 High-fidelity dry EEG technology opens new possibilities for human research in space —helping us understand changes in brain function and cognitive states of astronauts during long-term missions. Curious how DSI systems can support your spaceflight research? Let’s connect! #Spaceflight #Neuroscience #RevolutionizingEEG #NASA