An essential webinar series reviewing various technologies used to study exercise physiology, sports science and biomechanics in human subjects.
Presentations will cover practical considerations for experimental design, data collection and analysis, technical innovations and emerging applications in exercise/sports science.
Technological advancements have revolutionized the way researchers study physiological function, biomechanics and kinematics in a variety of research settings. Selecting the most appropriate product solution, adopting best-practices for proper calibration and validation of equipment, optimizing experimental design to yield quality data and ultimately acquiring publishable data is of critical importance.
This informative webinar series will provide biomechanists, kinesiologists, sports scientists and exercise physiologists a comprehensive overview of the technologies available for motion capture, gait and balance assessment, cardiopulmonary exercise testing and muscle function. Sessions will highlight innovations in motion capture (Mocap) systems and how they have advanced our understanding of kinematics, motor control, biomechanics, sport performance and gait. Options for cardiopulmonary exercise testing using metabolic carts will be presented as well as best practices for calibrating, acquiring and analyzing data. An overview of various mobile and stationary options for studying muscle function using electromyography (EMG) sensors will also be a focus of our sessions.
To register for upcoming webinars in this series or view content on-demand please visit the individual event pages listed below.
Part 1 of a webinar series designed to survey biomechanics; starting with its core components of kinematics, kinetics, and neuromuscular activation and progressing to their application within research and industry.
A webinar discussing the effects of tilt, exercise and high altitude on human cardiorespiratory and autonomic nervous systems, as studied in traditional laboratory settings and on location during a trek to Everest Base Camp.
WED, NOV 29, 2017
Experts discuss new technology and methods for measuring metabolic data from human subjects
WED, NOV. 8
Building on its popular Biomechanics 101 Introduction, Noraxon turns it attention to the fundamental pillar of biomechanics: electromyography, or EMG. This informative session covers signal origin, acquisition, processing and analysis for a comprehensive and practical understanding of EMG research and assessment.
- Gait Analysis
- Balance Assessment
- Exercise Physiology
- Sports and Peak Performance Analysis
- Extreme Sports Assessment
- Energy Expenditure
- Metabolic Function & Cardiopulmonary Testing
- Motor Control & Muscle Fatigue
- Body Composition Analysis
- 2D motion capture technology
- 3D motion analysis systems
- High-speed video motion tracking
- Inertial motion sensors, force plates and force sensors
- Instrumented treadmills and platforms
- Gait analysis systems and walkways
- Metabolic carts/indirect calorimetry/ergospirometry
- Wearable sensors – acceleration, angular rotation,
- temperature, skin conductance, SPO2
- Mobile and wireless electromyography (EMG) systems
- Wired and stationary electromyography (EMG) systems
- Heart rate, heart rate variability, ECG and hemodynamics assessment systems
- Near-infrared spectroscopy (NIRS) technology for skeletal muscle oxidative function
- Body composition analysis systems
- Biofeedback and neurofeedback technology