Parametric excitation of a biped robot as an inverted pendulum

Honjo, Toyoyuki; Zhang, Luo; Nagano, Akinori

doi:10.1109/iros.2008.4650659

Cited by 9 publications

(4 citation statements)

References 9 publications

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“…Then we applied parametric excitation of an inverted pendulum to this virtually inverted pendulum. 8,9 We derived the optimal trajectory of parametrically excited inverted pendulum and this trajectory is shown in Fig. 1.…”

Section: Parametric Excitation Of An Inverted Pendulummentioning

confidence: 99%

“…We proposed to apply parametric excitation of an inverted pendulum to a biped robot to consider whole body dynamics of the robot. 8 We dealt with the robot's total center of mass as an inverted pendulum and controlled the trajectory of mass center to be closer to the optimal trajectory of a parametrically excited inverted pendulum. In addition, we proposed a new target trajectory to realize more energy efficient walking.…”

Section: Introductionmentioning

confidence: 99%

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Parametrically excited inverted double pendulum and efficient bipedal walking with an upper body

2013

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SUMMARYWalking locomotion involves complex movement of total center of mass. Not only the lower body behavior but also the upper body behavior affects the walking characteristics. Therefore, in this paper we derive the principle of parametrically excited inverted double pendulum to consider both lower body and upper body dynamics. We propose one approach to utilize the upper body behavior of the robot for energy efficient bipedal locomotion. In addition, we analyze the property of parametrically excited inverted double pendulum.

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Section: Parametric Excitation Of An Inverted Pendulummentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Parametrically excited inverted double pendulum and efficient bipedal walking with an upper body

2013

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“…In the cycle of supporting with one leg, the robot can be regarded to the motion of multi-stage inverted pendulum [15] . Assume the weight of robot's connecting rod is even, so the coordinate ( )( ) , 1, 2...,7…”

Section: Kinematics Analysis Of Walking Up Stairs Of Humanoid Robotmentioning

confidence: 99%

Motion Planning for Humanoid Robot Based on Hybrid Evolutionary Algorithm

Zhong

Piao

Gao

2010

International Journal of Advanced Robotic Systems

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In this paper, online gait control system is designed for walking-up-stairs movement according to the features of humanoid robot, the hybrid evolutionary approach based on neural network optimized by particle swarm is employed for the offline training of the movement process, and the optimal gait of the stability is generated. Additionally, through embedded monocular vision, on-site environmental information is collected as neural network input, so necessary joint trajectory is output for the movement. Simulations and experiment testify the efficiency of the method.

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“…Moreover, Asano and Luo (2008) propose the level walking by pumping the swing leg from the viewpoint of potential energy restoration, demonstrating a potential realization of energy efficient and high speed walking. Furthermore, Honjo et al (2008) and Harata et al (2009) introduce the parametric excitation for potential energy restoration by extending and shortening the stance leg in powered walking. This presents a more energy-efficient gait than just pumping the swing leg.…”

Section: Introductionmentioning

confidence: 99%

High-speed and energy-efficient biped locomotion based on Virtual Slope Walking

2010

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In our previous work, we have presented results on Virtual Slope Walking, that is when a robot walks on level ground down a virtual slope by leg length modulation, based on the potential energy restoration in Passive Dynamic Walking. In this paper, we introduce the model of Virtual Slope Walking with Trajectory Leg Extension (TLE) and equivalent Instantaneous Leg Extension (ILE) under the Equivalent Definition. The analytic solution of the model's fixed point is obtained to analyze the essence of Virtual Slope Walking. We systematically investigate the characteristics and illustrate the effect of model parameters: the length-shortening ratio β, the equivalent extension angle θ * II , and the inter-leg angle ϕ 0 . We examine the energy efficiency and walking speed to demonstrate that Virtual Slope Walking is effective in generating high speed and energyefficient walking. The high energy efficiency of the proposed model is theoretically confirmed. And the fast walking is validated by the experiments of a planar biped robot Stepper-2D, which achieves a sufficiently fast relative speed of 4.48 leg/s. Keywords Biped locomotion · High speed · Energy efficiency · Virtual Slope WalkingAbbreviations m the mass of the body; r the length of the stance leg; r s , r e the length of the stance leg before and after leg extension; θ the clockwise angle of the stance leg with respect to the vertical line; ω the angular velocity of the stance leg; ϕ the inter-leg angle; g gravitational acceleration; E c the complementary energy in one step; E d the dissipated energy in one step; E T the total mechanical energy; T step period; T s , T e the start and end time of stance leg extension, respectively.

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Parametric excitation of a biped robot as an inverted pendulum

Cited by 9 publications

References 9 publications

Parametrically excited inverted double pendulum and efficient bipedal walking with an upper body

Parametrically excited inverted double pendulum and efficient bipedal walking with an upper body

Motion Planning for Humanoid Robot Based on Hybrid Evolutionary Algorithm

High-speed and energy-efficient biped locomotion based on Virtual Slope Walking

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