The B-Alert X10 wireless EEG system operates as a stand-alone wireless EEG system or interfaces with BIOPAC’s range of physiological monitoring devices. Now you can combine BIOPAC’s BioNomadix series of wireless physiological monitoring devices with the B-Alert wireless EEG system. The B-Alert headset will also work with BIOPAC’s range of functional Near Infrared Spectroscopy products to combine hemodynamic and electrical brain monitoring. BIOPAC also offers extensive stimulus presentation and synchronization options.
The B-Alert X10 offers wireless acquisition of 9 channels of high fidelity EEG plus ECG, and AcqKnowledge adds powerful analysis tools, including automated scoring and reporting options. For real-time monitoring of subject fatigue, stress, confusion, engagement and workload, add B-Alert Cognitive State software with proprietary metrics to classify data from B-Alert Wireless EEG systems.
Register Today! T4: Tools, Trends, Techniques, and Technology Monday, July 24, 2017 – Wednesday, July 26, 2017 Join BIOPAC for three days of hands-on, small-group human physiology workshops, presented by renowned experts, on the beautiful University of California at Santa Barbara campus in Santa Barbara, California, USA. Who should attend Anyone who records and analyzes […]
The Mobita 32-Channel EEG recording system was used in research examining if physiological data can be used to predict truly random events that correspond to perceptual stimuli. Baumgart, et al. from the University of California Santa Barbara utilized a quantum random number generator (qRNG) to choose from three randomized conditions: light, sound, and no stimulus. […]
BIOPAC provides software and hardware that allow for research teams to record and analyze respiration activity in physiological experimentation. Here are a few notable studies in monitoring respiration and cardiovascular activity. The coupling between peripheral microcirculation and slow breathing: The purpose of this study was to investigate the coupling of breathing movements and microcirculatory blood […]