Ground reaction forces intersect above the center of mass in single support, but not in double support of human walking

Autor: Rainer Abel, Daniel Renjewski, Johanna Vielemeyer, Nora-Sophie Staufenberg, Roy Müller
Přispěvatelé: Lehrstuhl f. Angewandte Mechanik
Rok vydání: 2021
Předmět:
Zdroj: Journal of Biomechanics. 120:110387
ISSN: 0021-9290
Popis: There are various simplifying models that describe balance strategies of human walking. In one model it is assumed that ground reaction forces are directed to a point (virtual pivot point) above the center of mass during the whole stride. This was observed in several experimental investigations, but only for the single support phase. It has not yet been concretely considered whether humans use the same stabilization strategy during the double support phase. For analyzing this, nine volunteers walked at self-selected speed while kinetic and kinematic data were measured. We found that in contrast to the single support phase, where the virtual pivot point was significantly above the center of mass, in the double support phase of human walking the ground reaction forces point around the center of mass with a small spread ( R 2 = 92.5 % ). The different heights of the virtual pivot point in the different support phases could be caused by the vertical movement of the center of mass, which has a lower amplitude in the double support phase. This is also reflected in the ground reaction forces, whereby the ratio of the horizontal and vertical ground reaction forces can explain the height of the virtual pivot point. In the double support phase the ratio is shifted in favor of the horizontal component compared to the single support phase, because of a shorter contact time and a delayed braking impulse. Thus, the whole body seems to rotate around the center of mass, which presumably minimizes required energy.
Databáze: OpenAIRE