You are here:

94749 - Biomedical Engineering of Human Movement

Academic Year 2020/2021

                
                        Docente:
                        Silvia Fantozzi
                    
                        Credits:
                        3
                    
                        Language:
                        English
                    
                        Teaching Mode:
                        Traditional lectures
                        
                            Campus:
                            Rimini
                        
                            Corso:
                            Second cycle degree programme (LM) in
                            Wellness Culture: Sport, Health And Tourism (cod. 9227)

                            Teaching resources on Virtuale

Learning outcomes

Knowing area • To know the basis of rigid body mechanics • To know the fundamentals of human movement biomechanics • To know the main protocols used in movement analysis • To know some technological solutions available for motor training and rehabilitation Practical area • To calculate the forces in a system in static equilibrium • To identify the capabilities and the limits of the foremost instruments for kinematic and dynamic measures

Course contents

Theory

Introduction to biomechanics: improving performance and injury prevention.

Bases of physics and mathematics (review).

Kinematics. Linear and angular. Human body kinematics.

Statics and dynamics: Newton's laws, free body diagram, center of mass, center of pressure, anthropometric tables, torques, moments of inertia. Angular interpretation of Newton's laws.

Biomechanics exercises: shoulder, elbow, hip and knee.

Instrumentation

Stereophotogrammetry: calibration, acquisition, and reconstruction. Errors: instrumental, anatomical landmarks mislocation, and soft tissue artifact. Experimental protocols: saflo, cast, pig.

Electromyography: physiology of the signal, recording and acquiring, analyzing and interpreting.

Force Platform: force transducers, processing force platform signals, center of pressure, combining force platform data.

Inertial Sensors: accelerometer, gyroscope, magnetometer, calibration, IMU.

Experimental activity in a movement analysis lab.

Readings/Bibliography

Peter M. McGinnis, "Biomechanics of Exercise and Sport", 2nd Edition, Human Kinetics, 2004

D.Gordon, Robertson, Graham, Caldewll, Hamill, Kamem, Whittlesey, "Research Methods in Biomechanics", Human Kinetics, 2004

Teaching methods

Classes and experimental activities in the movement analysis laboratory

Assessment methods

Written Examination (Oral optional)

There are three parts:

multiple-choice test on basic theory (5 points)
exercise (12 points)
open question on instrumentation (13 points).

Teaching tools

Blackboard, videoprojector, laboratory.

Office hours

See the website of Silvia Fantozzi