Benchmarking Dynamic Balancing Controllers for Humanoid Robots

Abstract: This paper presents a comparison study of three control design approaches for humanoid balancing based on the Center of Mass (CoM) stabilization and body posture adjustment. The comparison was carried out under controlled circumstances allowing other researchers to replicate and compare our results with their own. The feedback control from state space design is based on simple models and provides sufficient robustness to control complex and high Degrees of Freedom (DoFs) systems, such as humanoids. The impleme… Show more

“…A cornerstone of humanoid robotics, the dynamic balancing of high degrees of freedom systems, presents an exacting test of control design's robustness. Paper [1] embarks on an in-depth comparative study of three control design approaches to humanoid balancing. Through robust benchmarking using key performance indicators in controlled scenarios, the authors have not only demonstrated the efficacy of their proposed strategies, but also established a valuable framework for evaluating and comparing dynamic balancing techniques.…”

Special Issue “Legged Robots into the Real World”

“…A cornerstone of humanoid robotics, the dynamic balancing of high degrees of freedom systems, presents an exacting test of control design's robustness. Paper [1] embarks on an in-depth comparative study of three control design approaches to humanoid balancing. Through robust benchmarking using key performance indicators in controlled scenarios, the authors have not only demonstrated the efficacy of their proposed strategies, but also established a valuable framework for evaluating and comparing dynamic balancing techniques.…”

Special Issue “Legged Robots into the Real World”

Dual Mode Control of an Inverted Pendulum: Design, Analysis and Experimental Evaluation