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The Bio-inspired Behavior-Based Bipedal Locomotion Control (B4LC) system consists of control units encapsulating feed-forward and feedback mechanisms, namely motor patterns and reflexes. To optimize the performance of motor patterns and reflexes in terms of stable locomotion on both even and uneven terrains, we present a learning scheme embedded in the B4LC system. By combining the Particle Swarm...
Specific walking velocity, stability and energy consumption (i.e. walking characteristics) can be obtained by adjusting control parameters of complaint actuation which is essential for a passive walking robot to make full use of its own parameters to walk. In this paper, the series elastic actuator is used as the complaint actuator to adjust the walking characteristics. A passive dynamic walking model...
The design of the LEESD, a new exoskeleton for old people and patients, is presented in this paper. With one active degree of freedom (DOF) and two passive degrees of freedom, the LEESD can realize human walking gait. The hip joints and knee joints of the LEESD are directly driven by four-bar linkages and all these four-bar linkages are driven by merely one brushless DC motor which rotates at a constant...
Human shows remarkable skills in reactive balancing control on unknown disturbances while standing and walking. Though current bipedal robots can walk, run and step obstacles, they normally perform in a well-controlled environment. Unexpected perturbations can cause the tumbling of bipedal robots when they possess limited capability of rejecting disturbances. Studies upon neurology and psychophysics...
Though balancing is a fundamental part of human walking, it has been a challenging topic for bipedal robot. Compared to the versatile strategies of handling disturbances of human, current bipedal robots possess limited skills of managing external disturbances. Among them the capabilities of push recovery and maintaining balance are obviously of prior importance for a bipedal robot to walk in an unknown...
Lower extremity exoskeletons can improve human strength and endurance with a pair of wearable robotic legs that support a payload. This paper summarizes the biomimetic design and biomechanical analysis of a novel 15-DOF (degree of freedom) lower extremity exoskeleton. The selection of the DOF, critical parameter design, and initial performance simulation are discussed. To provide a basis and guidance...
We adopt multi-point planning method based on cubic spline function to perform parametric design of dynamic walking. The objective of optimization is to achieve maximum ZMP stability and minimum joint driving torque, together with the combination of multi-objective genetic algorithm to optimize the gait parameters. Simulation verification has also been carried out in ADAMS and Matlab after optimization...
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