Dynamic Balance of the Head in a Flexible Legged Robot for Efficient Biped Locomotion

Lisitano, Domenico; Bonisoli, Elvio; Recchiuto, Carmine Tommaso; Muscolo, Giovanni Gerardo

doi:10.3390/app11072945

Cited by 5 publications

(1 citation statement)

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“…Many works report analytical studies about balance and posture, applying perturbation analyses to human subjects [43][44][45][46] and evaluating how artificial dynamic balance can be achieved for human-like robots [47][48][49][50][51][52][53] and biped exoskeletons [54]. Generally, every perturbation in the human subject creates a disturbance in her/his posture, generating instability.…”

Section: Virtual Human Model: Analysis and Designmentioning

confidence: 99%

A Preliminary Virtual Study on the Feasibility of Transferring Muscular Activation Pattern Behaviors of Psychomotor Exercises

et al. 2023

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Research has demonstrated that Taekwondo training helps to enhance the coordination capabilities in people with developmental coordination disorders. These excellent results depend on many factors, including the behavior of the muscular activation patterns of psychomotor exercises during Taekwondo training. Our basic idea is to study the behavior of the muscular activation pattern of Taekwondo training (performed by athletes) and to apply the adapted behavior of the muscular activation pattern to other subjects with reduced coordination capabilities to enhance them, in line with the sustainable human development goals. This paper presents a preliminary feasibility study and a first step in this direction using a virtual simulation. First, the Taekwondo front-kick exercise was studied and reproduced using a virtual human model in OpenSim. Second, some perturbations were applied to the virtual human model to analyze the behavior of the muscular activation patterns. Third, functional electrical stimulation (FES) patterns were properly simulated to reproduce the same sequence (and value) of signals of muscular activation in another subject. The proposed methodology was conceived on the basis of a simple example of a Taekwondo kick by using a virtual human model, but its general application can fit all kinds of psychomotor exercises. If future works confirm the simulation results presented in this paper with real implementation, the methodology proposed here could be applied every time human capabilities must be increased with or without sports training (e.g., remaining seated on a chair or lying on a bed).

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