Gaia Cavallo - Speaker

John Lataire - Contributor

Human joint impedance represents the dynamical relationship between the torque and the angle of a joint of the human musculoskeletal system. The identification of human joint impedance of the lower limbs’ joints can provide important information for the design and control of wearable bionic devices that can assist the user in performing daily tasks. However, there is only limited research on the identification of joint impedance during such tasks, where the joint impedance should be modeled by a time-varying system.
In this study, a consistent estimator is proposed for the identification of human joint impedance during locomotion. Human joint impedance is modeled as a mass-spring-damper system with time-varying parameters, which are represented as the sum of sigmoidal basis functions. A realistic ankle impedance simulation is obtained to perform a Monte Carlo analysis of the proposed estimator. The aim is to determine the required experimental conditions (persistency of excitation, measurement time/frequency resolution) to obtain a sufficiently low uncertainty for the application at hand. The results show that the proposed estimator can reconstruct the parameters of the system with high accuracy and low uncertainty for experimental conditions representative of human gait analysis.
2019

Event (Conference)

Title 2019 workshop of the European Research Network on System Identification (ERNSI)
Abbrev. TitleERNSI 20198
Period22/09/1925/09/19
Web address (URL)
LocationKasteel Vaeshartelt
CityMaastricht
CountryNetherlands
Degree of recognitionInternational event

ID: 48742626