An Online Gait Adaptation with SuperBot in Sloped Terrains
Teawon Han, Nadeesha Ranasinghe, Luenin Barrios, and Wei-Min Shen. An Online Gait Adaptation with SuperBot in Sloped Terrains. In IEEE International Conference on Robotics and Biomimetics (ROBIO 2012), Guangzhou, China, December 2012.
Download
Abstract
Among the different types of robots, modular and self-reconfigurable robots such as SuperBot have less limitations than their counterparts due to their versatility of gaits and increased dynamic adaptability. This results in a highly dexterous and adjustable robot suitable for many environments. This however, usually comes at the expense of a necessary human observer required to monitor and control the robot manually resulting in a waste of power and time. Thus, an intelligent system would be indispensable in optimzing the behavior and control of modular and self-reconfigurable robots. This paper presents an Intelligent Online Reconfiguration System (IORS) which through a combination of learning and reasoning, increases the efficiency in control and movement of the modular and self-reconfigurable robot called Superbot. Using this system, Superbot is able to learn and choose the best gait automatically by sensing its current environment (e.g., friction or slope). As a result, the IORS implementation in SuperBot achieves: 1) correct slope gradient sensing, 2) best gait learning to traverse different slopes, and 3) rational decision making for choosing the best gait.
BibTeX Entry
@InProceedings{han2012-An-Online-Gait-Adaptation-with-SuperBot-in-Sloped-Terrains,
abstract = {Among the different types of robots, modular and self-reconfigurable robots such as SuperBot have less limitations than their counterparts due to their versatility of gaits and increased dynamic adaptability. This results in a highly dexterous and adjustable robot suitable for many environments. This however, usually comes at the expense of a necessary human observer required to monitor and control the robot manually resulting in a waste of power and time. Thus, an intelligent system would be indispensable in optimzing the behavior and control of modular and self-reconfigurable robots. This paper presents an Intelligent Online Reconfiguration System (IORS) which through a combination of learning and reasoning, increases the efficiency in control and movement of the modular and self-reconfigurable robot called Superbot. Using this system, Superbot is able to learn and choose the best gait automatically by sensing its current environment (e.g., friction or slope). As a result, the IORS implementation in SuperBot achieves: 1) correct slope gradient sensing, 2) best gait learning to traverse different slopes, and 3) rational decision making for choosing the best gait.},
address = {Guangzhou, China},
author = {Teawon Han, Nadeesha Ranasinghe, Luenin Barrios, and Wei-Min Shen},
booktitle = rob12,
month = dec,
title = {An Online Gait Adaptation with SuperBot in Sloped Terrains},
year = {2012}
}
