Use the BSL hardware with suitable glass microelectrodes to demonstrate membrane potential with the frog sartoris muscle or the the popular CrawdadCD-ROM Lab Manual for Neurophysiology, by Wyttenbach, Johnson, and Hoy. ISBN 0-87893-947-4. The experiments demonstrate the principle of homeostasis and serve as a good introducton to electrophysiology recording techniques.
Projection-based virtual reality is a powerful immersive medium that makes it easy to experience VR applications without the need for heavy headgear or cables. With unobtrusive wireless sensing technology, researchers can easily measure their physiological and behavioral responses.
You Will Learn To: • Understand key principles of combing virtual reality + physiological data recording • Mark events from the simulation into the physiological record • Access physiological data in the VR environment for biofeedback and control • Set up a projection-based virtual reality simulation room • Analyze the resulting data
BIOPAC provides software and hardware that allows research teams to conduct studies in virtual reality. Here are a few notable studies using both virtual reality systems and BIOPAC equipment researching to see how virtual reality could impact emotions, health, and medicine. Feelings on 2D vs. 3D Previous studies have suggested that virtual reality (VR) can […]
BIOPAC’s comprehensive Introductory ECG Guide addresses fundamental to advanced concerns to optimize electrocardiography data recording and analysis. Topics include: ECG Complex; Electrical and Mechanical Sequence of a Heartbeat; Systole and Diastole; Configurations for Lead I, Lead II, Lead III, 6-lead ECG, 12-lead ECG, precordial leads; Ventricular Late Potentials (VLPs); ECG Measurement Tools; Automated Analysis Routines for extracting, […]