Meng Cheng Lau scite author profile

Despite the recent achievements in stable dynamic walking for many humanoid robots, relatively little navigation autonomy has been achieved. In particular, the ability to autonomously select foot placement positions to avoid obstacles while walking is an important step towards improved navigation autonomy for humanoids. We present a footstep planner for the Honda ASIMO humanoid robot that plans a sequence of footstep positions to navigate toward a goal location while avoiding obstacles. The possible future foot placement positions are dependent on the current state of the robot. Using a finite set of state-dependent actions, we use an A* search to compute optimal sequences of footstep locations up to a time-limited planning horizon. We present experimental results demonstrating the robot navigating through both static and dynamic known environments that include obstacles moving on predictable trajectories.

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A robust interactive entertainment robot for robot magic performances

Morris

Samonin

Baltes

et al. 2019

Appl Intell

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An automated method for least cost distribution planning

Hasselfield

Wilson

Penner

et al.

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The Real-Time Embedded System for a Humanoid: Betty

Lau

Baltes

2010

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A sketch drawing humanoid robot using image-based visual servoing

Lau

Anderson

Baltes

2019

The Knowledge Engineering Review

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This paper presents our sketch drawing artist humanoid robot research. One of the limitations of the existing artist humanoid robot is the lack of feedback on the error that occurs during the drawing process. The contribution of this research is the development of a humanoid robot artist with drawing error correction capability. Based on our previous work with open-loop control pen-and-ink humanoid robot artist, we have implemented a closed-loop visual servoing approach to address this problem. Our experimental results show that this approach is sufficient to correct drawing errors that occur due to mechanical limitation of a robot.

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Meng Cheng Lau

Footstep Planning for the Honda ASIMO Humanoid

A robust interactive entertainment robot for robot magic performances

An automated method for least cost distribution planning

The Real-Time Embedded System for a Humanoid: Betty

A sketch drawing humanoid robot using image-based visual servoing

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