How to Get Great ECG (Electrocardiography) Data explains and demonstrates fundamental techniques for recording clean, usable ECG (EKG) data. It is applicable to researchers in both academic and commercial settings who need to accurately analyze ECG data in their experiments. Fundamentals overview is ideal for researchers who have two years or less of experience in analyzing ECG data.
Topics covered include: – Hardware options for in-lab (tethered and wireless) recording, wireless and wearable lab and remote recording and logging, options for recording in the MRI environment, and more. – Simple Lead II ECG – 6-lead and 12-lead ECG – Recording great Heart Rate data – R-R Interval – Lead II Analysis – Additional analysis techniques, to include a preview of HRV and RSA
Reusable Ag-AgCl snap electrodes with 4 or 8 mm diameter and 2 mm deep gel cavity. Features for improved biopotential recordings Non-polarizable Sintered to increase electrode/electrolyte contact area Do not require chloriding Reusable via resurfacing High stability recordings, to DC, when used with chloride salt gel electrolyte Electrolyte gel cavity reduces artifact due to electrolyte/electrode motion […]
BIOPAC combines eye tracking with mobile data logging and physiology data collection to run experiments in the lab or in the real world BIOPAC Systems, Inc. is pleased to announce new eye tracking integration for researchers who conduct experiments from mobile participants in diverse locations. ETVision (EYE-ETV) eye tracking glasses now integrate with BIOPAC wireless systems and software, […]
Impact of Green Space on Stress Reduction Research studies show that the increased exposure of urbanization, traffic noise and pollution has been correlated with increasing levels of stress. However, do greener, more natural environments provide the opposite effect, restoring human well-being and contributing in stress reduction? Researchers compared user experiences in Virtual Reality (VR) scenes […]