Abstract
Based on echo state networks, the joints position control of NAO robot is studied in this paper. The process to control the robot position can be divided into two phases. The senor parameters are released during the first phase. Depending on the dynamic coupling effect between the angle acceleration of passive joint and the torque of active joint, passive joint can be controlled indirectly to the desired position along the desired trajectory. The ESN control rules during the first phase are described and ESN controller is designed to control the motion of passive joint. The brake is locked during the second phase; then active joint is controlled to the desired position. The experimental control system based on PMAC controller is designed and developed. Finally, the joint position control of the NAO robot is achieved successfully by experiments. Echo state networks utilized incremental updates driven by new sensor readings and massive short memory with history inputs; thus varying communication rates can help imitate human upper limb motion based on wearable sensors to obtain human joint angles.
Highlights
Humanoid robot is very common in our daily life
It can communicate with humans, respond to the surrounding environment, and complete kinds of work instead of humans
NAO was developed by AldebaranRobotics Company with the latest technology and a variety
Summary
Humanoid robot is very common in our daily life. It can communicate with humans, respond to the surrounding environment, and complete kinds of work instead of humans. It plays an important role in exploring human interaction and cognitive processes. There is much space for improvement, because it is hard to keep balance and stability of the robot at any moment, especially during movement. Path planning is one of difficult and hot spots in biped robot research. The researchers devoted themselves to studying it
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