Abstract
Horses use the transverse gallop in high-speed running. However, different animals use different gaits, and the gait preference of horses remains largely unclear. Horses have fore-aft asymmetry in their body structure and their center of mass (CoM) is anteriorly located far from the center of the body. Since such a CoM offset affects the running dynamics, we hypothesize that the CoM offset of horses is important in gait selection. In order to verify our hypothesis and clarify the gait selection mechanisms by horses from a dynamic viewpoint, we developed a simple model with CoM offset and investigated its effects on running. Specifically, we numerically obtained periodic solutions and classified these solutions into six types of gaits, including the transverse gallop, based on the footfall pattern. Our results show that the transverse gallop is optimal when the CoM offset is located at the position estimated in horses. Our findings provide useful insight into the gait selection mechanisms in high-speed running of horses.
Highlights
Horses use the transverse gallop in high-speed locomotion
We investigated the effects of the center of mass (CoM) offset on quadrupedal running in order to verify our hypothesis from a dynamic viewpoint
We set the total energy of our model as E = 20.3 kJ and the forward speed at the apex as x_p 7.5 m/s (horizontal kinetic energy Tp M(x_p)2/2 13.8 kJ) based on the measured data in horses (Minetti et al, 1999)
Summary
Horses use the transverse gallop in high-speed locomotion. This gait has one flight phase in one gait cycle. The hind legs first touch the ground, and the fore legs touch the ground. This gait is different from the rotary gallop in cheetahs, which has two flight phases, each of which appears after the touchdowns of the fore legs and those of the hind legs (Bertram and Gutmann, 2008; Biancardi and Minetti, 2012). The gaits of quadrupeds when running at their fastest speeds vary between species, and it remains unclear why horses use the transverse gallop
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