The objective of this research activity is to analyze and model the behavior of healthy subjects during equilibrium perturbations to understand how the posture strategies of a human subject changes from a static environment to a dynamic situation.
The balance function is a complex mechanism that involves, in particular, the nervous system. The diseases of the nervous system affect the structures involved in equilibrium with a consequent reduction in the capacity of gait and balance. Clinicians have different tools to characterize the instability. The most used is the static posturography, which assesses the balance from the registration of the position of the centre of pressure of the subject who is standing on a force platform.
The sensitivity of static posturography can be improved placing the subject in conditions of unstable equilibrium or stability limit and, thus, increasing the oscillation of the centre of pressure. This technique is defined as dynamic posturography, which measure the capability of the subject to maintain the balance during different test, performed on a motorized platform. Using vision systems and force platforms both the kinematic and the dynamic behaviour of the subject can be studied.
Pasinetti, S.; Lancini, M.; Pasqui, V. “Development of an optomechanical measurement system for dynamic stability analysis“, 2015 6th International Workshop on Advances in Sensors and Interfaces (IWASI), pp. 199-203. 2015