Effects of Torso Pitch Motion on Energy Efficiency of Biped Robot Walking

Gait pattern generation has an important influence on the walking quality of biped robots. In most gait pattern generation methods, it is usually assumed that the torso keeps vertical during walking. It is very intuitive and simple. However, it may not be the most efficient. In this paper, we propose a gait pattern with torso pitch motion (TPM) during walking. We also present a gait pattern with torso keeping vertical (TKV) to study the effects of TPM on energy efficiency of biped robots. We define the cyclic gait of a five-link biped robot with several gait parameters. The gait parameters are determined by optimization. The optimization criterion is chosen to minimize the energy consumption per unit distance of the biped robot. Under this criterion, the optimal gait performances of TPM and TKV are compared over different step lengths and different gait periods. It is observed that (1) TPM saves more than 12% energy on average compared with TKV, and the main factor of energy-saving in TPM is the reduction of energy consumption of the swing knee in the double support phase and (2) the overall trend of torso motion is leaning forward in double support phase and leaning backward in single support phase, and the amplitude of the torso pitch motion increases as gait period or step length increases.

Automated summary

This study focused on the impact of gait pattern generation on the walking quality of biped robots, particularly comparing the energy efficiency of maintaining a vertical torso versus having torso pitch motion during walking. Results showed that torso pitch motion saves over 12% energy compared to maintaining a vertical torso, with the main energy-saving factor being the reduction of energy consumption of the swing knee in the double support phase.