Self-reconfiguring hexapod robot OSCAR using organically inspired approaches and innovative robot leg amputation mechanism

Bojan Jakimovski; Benjamin Meyer; Erik Maehle

Self-reconfiguring hexapod robot OSCAR using organically inspired approaches and innovative robot leg amputation mechanism

Bojan Jakimovski, Benjamin Meyer, Erik Maehle

Institute of Computer Engineering

Abstract

In this paper, we present a fully embodied original research done on fault tolerant hexapod robot OSCAR which has the feature to perform self-reconfiguration after some faulty conditions have appeared within its legs. It will physically amputate the faulty legs and further continue with the mission task with the other still healthy legs. The research encompasses synergy of three topics: robot fault or anomaly detection, robot spatial leg self-reconfiguration, and a novel robot leg mechanical amputation mechanism for jointed leg walking robots. The robot anomaly detection and robot self-reconfiguration are intrinsically inspired by processes observed within biological systems, and the robot leg amputation mechanism is robustly designed to perform robot leg amputations within the legged hexapod robot.

Original language	English
Pages	62-69
Number of pages	8
Publication status	Published - 01.12.2009
Event	2009 International Conference on Automation, Robotics and Control Systems - Orlando, United States Duration: 13.07.2009 → 16.07.2009 Conference number: 97045

Conference

Conference	2009 International Conference on Automation, Robotics and Control Systems
Abbreviated title	ARCS 2009
Country/Territory	United States
City	Orlando
Period	13.07.09 → 16.07.09

Cite this

@conference{4d96e3b99d3845fd97504b65033b5fb0,

title = "Self-reconfiguring hexapod robot OSCAR using organically inspired approaches and innovative robot leg amputation mechanism",

abstract = "In this paper, we present a fully embodied original research done on fault tolerant hexapod robot OSCAR which has the feature to perform self-reconfiguration after some faulty conditions have appeared within its legs. It will physically amputate the faulty legs and further continue with the mission task with the other still healthy legs. The research encompasses synergy of three topics: robot fault or anomaly detection, robot spatial leg self-reconfiguration, and a novel robot leg mechanical amputation mechanism for jointed leg walking robots. The robot anomaly detection and robot self-reconfiguration are intrinsically inspired by processes observed within biological systems, and the robot leg amputation mechanism is robustly designed to perform robot leg amputations within the legged hexapod robot.",

author = "Bojan Jakimovski and Benjamin Meyer and Erik Maehle",

year = "2009",

month = dec,

day = "1",

language = "English",

pages = " 62--69",

note = "null ; Conference date: 13-07-2009 Through 16-07-2009",

}

Self-reconfiguring hexapod robot OSCAR using organically inspired approaches and innovative robot leg amputation mechanism. / Jakimovski, Bojan; Meyer, Benjamin; Maehle, Erik.

2009. 62-69 Paper presented at 2009 International Conference on Automation, Robotics and Control Systems , Orlando, Florida, United States.

Research output: Contribution to conference › Conference Papers › peer-review

TY - CONF

T1 - Self-reconfiguring hexapod robot OSCAR using organically inspired approaches and innovative robot leg amputation mechanism

AU - Jakimovski, Bojan

AU - Meyer, Benjamin

AU - Maehle, Erik

N1 - Conference code: 97045

PY - 2009/12/1

Y1 - 2009/12/1

N2 - In this paper, we present a fully embodied original research done on fault tolerant hexapod robot OSCAR which has the feature to perform self-reconfiguration after some faulty conditions have appeared within its legs. It will physically amputate the faulty legs and further continue with the mission task with the other still healthy legs. The research encompasses synergy of three topics: robot fault or anomaly detection, robot spatial leg self-reconfiguration, and a novel robot leg mechanical amputation mechanism for jointed leg walking robots. The robot anomaly detection and robot self-reconfiguration are intrinsically inspired by processes observed within biological systems, and the robot leg amputation mechanism is robustly designed to perform robot leg amputations within the legged hexapod robot.

AB - In this paper, we present a fully embodied original research done on fault tolerant hexapod robot OSCAR which has the feature to perform self-reconfiguration after some faulty conditions have appeared within its legs. It will physically amputate the faulty legs and further continue with the mission task with the other still healthy legs. The research encompasses synergy of three topics: robot fault or anomaly detection, robot spatial leg self-reconfiguration, and a novel robot leg mechanical amputation mechanism for jointed leg walking robots. The robot anomaly detection and robot self-reconfiguration are intrinsically inspired by processes observed within biological systems, and the robot leg amputation mechanism is robustly designed to perform robot leg amputations within the legged hexapod robot.

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-84874286297&origin=inward&txGid=c0ac5be6348a93b7a1d1bd4295dc244e

UR - https://www.researchgate.net/profile/Benjamin_Meyer9/publication/228655410_Self-reconfiguring_hexapod_robot_OSCAR_using_organically_inspired_approaches_and_innovative_robot_leg_amputation_mechanism/links/5649ca8408ae54697fbf36d1/Self-reconfiguring-hexapod-robot-OSCAR-using-organically-inspired-approaches-and-innovative-robot-leg-amputation-mechanism.pdf

M3 - Conference Papers

SP - 62

EP - 69

Y2 - 13 July 2009 through 16 July 2009

ER -

Self-reconfiguring hexapod robot OSCAR using organically inspired approaches and innovative robot leg amputation mechanism

Abstract

Conference

Other files and links

Fingerprint

Cite this