Abstract
With flexibility similar to human muscles, pneumatic artificial muscles (PAMs) are widely used in bionic robots. They have a high power-mass ratio and are only affected by single-acting pneumatic pressure. Some robots are actuated by a pair of PAMs in the form of antagonistic muscles or joints through a parallel mechanism. The pneumatic pressure and length of PAMs should be measured simultaneously for feedback using a pressure transducer and draw-wire displacement sensor. The PAM designed by the FESTO (10 mm diameter) is too small to install a draw-wire displacement sensor coaxially and cannot measure muscle length change directly. To solve this problem, an angular transducer is adopted to measure joint angles as a whole. Then, the inertia of the lower limb is identified, and observer-based fuzzy adaptive control is introduced to combine with integrated control of the angular transducer. The parameters of the fuzzy control are optimized by the Gaussian basis neural network function, and an observer is developed to estimate the unmeasured angular accelerations. Finally, two experiments are conducted to confirm the effectiveness of the method. It is demonstrated that piriformis and musculi obturator internus act as agonistic muscle and antagonistic muscles alternatively, and iliopsoas is mainly responsible for strengthening because of the constant output force. Piriformis has a greater influence on yaw and roll angles, while musculi obturator internus is the one that influences the pitch angle the most. Due to joint friction, the dead zone of the high-speed on-off valve, lag of compressed air in the trachea, and coupling among angles are very difficult to realize precise trajectory tracking of the pitch, yaw, and roll angles simultaneously.
Highlights
Humanoid robot joint actuated by electric motor plays an important role in the robot industry
During the past several years, humanoid robot joints designed with Pneumatic artificial muscles (PAMs) have been used to investigate the contribution of muscles
Piriformis, musculi obturator internus, and iliopsoas are taken as a muscle group, and we adopt angular transducer to measure joint angles as a whole, observerbased fuzzy adaptive (OBFA) control is introduced, instead of controlling every single actuator
Summary
Humanoid robot joint actuated by electric motor plays an important role in the robot industry. An anthropomorphic musculoskeletal upper limb with a strain gauge as a feedback transducer cannot be controlled precisely [14] It cannot be simplified as a parallel mechanism, for which further steps need to be taken to investigate pneumatic servo nonlinear feedback control and the muscle properties of different postures. Piriformis, musculi obturator internus, and iliopsoas are taken as a muscle group, and we adopt angular transducer to measure joint angles as a whole, observerbased fuzzy adaptive (OBFA) control is introduced, instead of controlling every single actuator. Term Jh is used to depict the relationship between input and output and is called the structure matrix
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