Abstract
For a targeted development process of foot prostheses, a profound understanding of the dynamic interaction between humans and prostheses is necessary. In engineering, an often employed method to investigate the dynamics of mechanical systems is Hardware-in-the-Loop (HiL). This study conducted a fundamental investigation of whether HiL could be an applicable method to study the dynamics of an amputee wearing a prosthesis. For this purpose, a suitable HiL setup is presented and the first-ever HiL test of a prosthetic foot performed. In this setup, the prosthetic foot was tested on the test bench and coupled in real-time to a cosimulation of the amputee. The amputee was modeled based on the Virtual Pivot Point (VPP) model, and one stride was performed. The Center of Mass (CoM) trajectory, the Ground Reaction Forces (GRFs), and the hip torque were qualitatively analyzed. The results revealed that the basic gait characteristics of the VPP model can be replicated in the HiL test. Still, there were several limitations in the presented HiL setup, such as the limited actuator performance. The results implied that HiL may be a suitable method for testing foot prostheses. Future work will therefore investigate whether changes in the gait pattern can be observed by using different foot prostheses in the HiL test.
Highlights
An important purpose of prostheses is to emulate the function of a lost limb and facilitate the independent life of the user [1]
The goal of this study was to investigate whether an experimental test using the presented HiL setup was feasible and, if so, whether basic gait characteristics according to the Virtual Pivot Point (VPP) model could be replicated in the test
This paper provided a proof-of-concept about whether HiL is generally suitable to represent the dynamic interaction of a human with a prosthesis
Summary
An important purpose of prostheses is to emulate the function of a lost limb and facilitate the independent life of the user [1]. Body weight support, adapting to different terrain, and pushing off the ground for propulsion are some of the foot’s functions [2]. Mimicking the foot’s function with a prosthetic foot is challenging, which causes an altered gait pattern of amputees compared to able-bodied humans [3]. Changes in foot placement and a lift of the hip during swing phase are observed. As a result, this compensatory behavior can lead to serious long-term consequences, such as osteoarthritis, osteoporosis, and back pain [4]. Testing procedures that include the dynamic interaction between the amputee and a prosthesis are desired
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