Optimal trajectory generation of serially-linked parallel biped robots

In this paper, we propose a new parallel mechanism of biped robots, each of its legs is composed of two 3-DOF parallel platforms linked serially. The thigh possesses three active linear actuators with a constraint bar and seven passive joints, the shank has two linear actuators to operate pitch and...

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Hauptverfasser:	Jung Han Yoon, Ohung Kwon, Je Sung Yeon, Jong Hyeon Park
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Convergence Energy consumption Genetic algorithms Hydraulic actuators Knee Leg Legged locomotion Parallel robots Polynomials Thigh
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creator	Jung Han Yoon Ohung Kwon Je Sung Yeon Jong Hyeon Park
description	In this paper, we propose a new parallel mechanism of biped robots, each of its legs is composed of two 3-DOF parallel platforms linked serially. The thigh possesses three active linear actuators with a constraint bar and seven passive joints, the shank has two linear actuators to operate pitch and roll motion at the ankle and a rotational actuator for the pitch at the knee. To generate locomotion trajectory for the proposed robot, we adopt the genetic algorithm for minimizing energy consumption. For the fast convergence and efficiency, the RCGA (real coded genetic algorithms) is used. A trajectory is represented by 4-th order polynomials whose coefficients are chromosomes. Equality conditions reflect the start and end position of swing leg and the repeatability condition for stable walking is used with inequality conditions to describe kinematics constraints for swing motion and ZMP (zero moment point) conditions. To demonstrate the effectiveness and performance of the proposed structure and trajectories, computer simulations were executed using SimMechanicsreg
doi_str_mv	10.1109/ROBOT.2006.1641937
format	Conference Proceeding
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language	eng
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Convergence Energy consumption Genetic algorithms Hydraulic actuators Knee Leg Legged locomotion Parallel robots Polynomials Thigh
title	Optimal trajectory generation of serially-linked parallel biped robots
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