Based on the impulsive-dynamics formulation, this article presents the analysis of different strategies to regulate the energy dissipation at the heel-strike event in the context of human locomotion. For this purpose, a seven-link 2D human-like multibody model based on anthropometric data is used. The model captures the most relevant dynamic and energetic aspects of the heel-strike event in the sagittal plane. The pre-impact mechanical state of the system, around which the analysis of the heel impact contribution to energy dissipation is performed, is defined based on published data. In the context of the proposed impulsive-dynamics framework, different realistic strategies that the subject can apply to modify the impact dynamics are propos...
This is an author's peer-reviewed final manuscript, as accepted by the publisher. The published arti...
The mechanical properties of the interface between the human body and the ground play an important r...
The major contributor to the human locomotion is the knee flexion and extension. During heel strike,...
Based on the impulsive-dynamics formulation, this article presents the analysis of different strateg...
Energetic efficiency is a fundamental subject of research in bipedal robot locomotion. In such syste...
AbstractExperience shows that human running gaits have several possible foot collision patterns, dep...
Metabolic energy expenditure during human gait is poorly understood. Mechanical energy loss during h...
Metabolic energy expenditure during human gait is poorly understood. Mechanical energy loss during h...
Collision phase has significant effects on energetics of bipedal walking which includes two impact o...
The impulsive dynamics associated with the impact of the crutch with the ground is an important topi...
Biomechanical models of different complexity are used to understand the dynamics of human running. L...
We present several variations on a model and simulation of the foot and ankle during the course of o...
Legged robots can walk stably down slopes without any actuation or control. The locomotion is called...
The dynamics associated with the impact of the crutch with the ground is an important topic of resea...
Usual human gait can be modeled as continual impact phenomenon that happens due to the topological c...
This is an author's peer-reviewed final manuscript, as accepted by the publisher. The published arti...
The mechanical properties of the interface between the human body and the ground play an important r...
The major contributor to the human locomotion is the knee flexion and extension. During heel strike,...
Based on the impulsive-dynamics formulation, this article presents the analysis of different strateg...
Energetic efficiency is a fundamental subject of research in bipedal robot locomotion. In such syste...
AbstractExperience shows that human running gaits have several possible foot collision patterns, dep...
Metabolic energy expenditure during human gait is poorly understood. Mechanical energy loss during h...
Metabolic energy expenditure during human gait is poorly understood. Mechanical energy loss during h...
Collision phase has significant effects on energetics of bipedal walking which includes two impact o...
The impulsive dynamics associated with the impact of the crutch with the ground is an important topi...
Biomechanical models of different complexity are used to understand the dynamics of human running. L...
We present several variations on a model and simulation of the foot and ankle during the course of o...
Legged robots can walk stably down slopes without any actuation or control. The locomotion is called...
The dynamics associated with the impact of the crutch with the ground is an important topic of resea...
Usual human gait can be modeled as continual impact phenomenon that happens due to the topological c...
This is an author's peer-reviewed final manuscript, as accepted by the publisher. The published arti...
The mechanical properties of the interface between the human body and the ground play an important r...
The major contributor to the human locomotion is the knee flexion and extension. During heel strike,...