• Revolutionizing Dry Electrode EEG

    Uncompromising Signal Quality, Robustness to Electrical & Motion Artifacts, Comfort All Day, Practicality Always

  • Virtual Reality Compatible Systems

    Every single DSI system by Wearable Sensing is capable of being used simultaneously with virtual reality.

  • Hybrid Dry EEG+fNIRS

    Wearable Sensing has developed one of the first truly hybrid EEG+fNIRS system, by combing an EEG electrode, 4 emitters, and 4 detectors into a single pod for colocalized recordings, expanding the potential for research in neurovascular coupling

    Products

    Products

    High-Density EEG

    Mobile, research-grade wet EEG systems with 8, 16, 32 and 64 channels. Optimized for excellent signal quality in ambulatory environments, and have been succesfully validated on leading BCI algorithms with exceptional classification accuracy

    Dry Electrode EEG

    Industry leading dry EEG systems with up to 19 channels that maintain research-grade signal quality, extreme comfort, VR compatibility, donning in under 3 minutes, and resistance against electrical and motion artifacts

    Multimodal Sensing

    Expandable sensor suites enables millisecond synchronization of various sensor types, include ECG, EMG, EOG, GSR, RESP, TEMP, Eyetracking, Motion tracking, and more. Wireless and wired sensor options available

    Dry Electrode EEG

    Industry leading dry EEG systems with up to 19 channels that maintain research-grade signal quality, extreme comfort, VR compatibility, donning in under 3 minutes, and resistance against electrical and motion artifacts

    High-Density EEG

    Mobile, research-grade wet EEG systems with 8, 16, 32 and 64 channels. Optimized for excellent signal quality in ambulatory environments, and have been succesfully validated on leading BCI algorithms with exceptional classification accuracy

    Multimodal Sensing

    Expandable sensor suites enables millisecond synchronization of various sensor types, include ECG, EMG, EOG, GSR, RESP, TEMP, Eyetracking, Motion tracking, and more. Wireless and wired sensor options available

    Applications

    Applications

    Research

    Brain Computer Interface

    Neurofeedback

    Neuroergonomics

    Neuromarketing

    Custom Development

    Research

    Brain Computer Interface

    Neurofeedback

    Neuroergonomics

    Neuromarketing

    Custom Development

    Highlighted

    Technology

    QStates 2.0

    QStates is a machine learning algorithm that uses quantitative EEG (qEEG), heart rate variability (HRV) data, galvanic skin response (GSR), and more to assess cognitive and physiological states. Cognitive state assessment can be done in real-time and off-line with graphical displays of results.

    News

    Research on Autism

    Dr. Murat Akcakaya and his team at the University of Pittsburgh recently published findings on patients with ASD by utilizing the DSI-24 to classify states of emotional distress. Dr. Akcakaya continues to break barriers in this field of research with the help of Wearable Sensing’s technology!

    Events

    International Conference on Neural Engineering

    From April 25th to April 27th, Wearable Sensing will be sponsoring a booth at the 2023 gathering of IEEE EMBS Neural Engineering. At the conference, we will showcase the latest in dry electrode EEG innovation, including EEG+fNIRS, EEG+tDCS, EEG+VR, and more. To learn more about these devices, please fill out the contact form below

    Trusted by Academics and Institutions Across the World

    Trusted by Academics and Institutions Across the World