Portable near-infrared spectroscopy brain function mapping/imaging device
The portable brain function mapping/imaging device 【OctaMon】 is a highly portable brain function mapping/imaging NIRS system from artinis that excels in mobility. 【OctaMon】 uses near-infrared spectroscopy to non-invasively observe real-time data on the oxidation displacement of hemoglobin contained in cerebral blood flow. It consists of an 8-channel (2×4) sensor that covers the prefrontal cortex, and the subject wears a headband with the sensors attached for measurement. The measured data is transmitted via Bluetooth from a small transmitter to a control laptop, providing feedback to researchers. Subjects can observe brain activity in a more natural state without being restrained by cables or other equipment.
Inquire About This Product
basic information
□ 8-channel model covering the frontal lobe □ Easy setup with a dedicated headband □ Non-invasive □ Wireless measurement via Bluetooth □ Compact type available for pediatric and neonatal research
Price range
Delivery Time
Applications/Examples of results
Changes in brain activity during driving/machine operation/work.
Company information
We handle high-precision measurement equipment that can be used for ergonomics, building structure, behavior, seismic analysis, fluid analysis, VR, and more, both domestically and internationally. In particular, Qualisys, which we represent, is a leading company in the industry that manufactures a three-dimensional optical motion capture system based in Sweden. The core technology of Qualisys has been developed since 1989, and based on years of accumulated experience, they develop everything in-house, from hardware such as cameras to software. Currently, motion capture systems are used in a wide variety of fields, including medical and industrial sectors. Among their products, there is a unique model that can measure underwater, enabling the acquisition of high-precision three-dimensional data in environments where motion analysis and validation of precision were previously impossible.