Provides high-density, versatile lab-based fNIRS systems with multi-modal compatibility and real-time processing.
The NIRSport 2 is a robust, multi-channel, wearable functional near-infrared spectroscopy (fNIRS) system designed for capturing brain function in real-world settings. Featuring up to 16 sources and 16 detectors, it offers high-density recording, wireless connectivity, and seamless integration with EEG and other modalities for mobile neuroimaging.
The NIRScout is a high-performance, lab-based functional near-infrared spectroscopy (fNIRS) system designed for versatility and scalability. Capable of scaling from 16 to over 100 channels, it supports multi-modal integration (EEG, fMRI, TMS) and offers hybrid LED/Laser source options for deep-tissue neuroimaging.
NIRxWINGS is a dedicated physiological sensor module designed to augment the NIRSport2 fNIRS system. It captures synchronized peripheral data—including respiration, ECG/ExG, electrodermal activity (EDA), temperature, and pulse oximetry—to isolate systemic physiological noise from brain activity for cleaner, more robust fNIRS results.
Turbo-Satori is a premier real-time analysis software specifically designed for fNIRS-based Brain-Computer Interface (BCI) and Neurofeedback research. Developed in collaboration with Brain Innovation, it processes raw data streams instantly to calculate hemodynamic changes, enabling biofeedback and state classification without the need for complex coding.
Satori is a comprehensive, workflow-based offline analysis software for functional Near-Infrared Spectroscopy (fNIRS). Developed in collaboration with Brain Innovation, it provides an intuitive, GUI-driven platform for preprocessing, statistical analysis (GLM), and visualization of fNIRS data without the need for coding.
The NIRx Borealis is a specialized, MRI-compatible fNIRS system designed for high-density, multi-modal brain imaging. By combining the mobile NIRSport 2 platform with high-powered laser sources and avalanche photodiode (APD) detectors, it enables simultaneous fNIRS-fMRI recording and deep-tissue tomography.