Geckobot: a gecko inspired climbing robot using elastomer adhesives. Unver, O., Uneri, A., Aydemir, A., & Sitti, M. In IEEE International Conference on Robotics and Automation, pages 2329-2335, 2006. IEEE.
Geckobot: a gecko inspired climbing robot using elastomer adhesives [link]Website  abstract   bibtex   
In this paper, the design, analysis, and fabrication of a gecko-inspired climbing robot are discussed. The robot has kinematics similar to a geckos climbing gait. It uses peeling and steering mechanisms and an active tail for robust and agile climbing as a novelty. The advantage of this legged robot is that it can explore irregular terrains more robustly. Novel peeling mechanism of the elastomer adhesive pads, as well as steering and stable climbing using an active tail are explored. The design, fabrication, analysis and test of the robot are reported. Experimental results of walking and climbing up to 85deg sloped acrylic surfaces as well as successful steering and peeling mechanism tests are demonstrated. The potential applications foreseen for this kind of robots are inspection, repair, cleaning, and exploration
@inProceedings{
 title = {Geckobot: a gecko inspired climbing robot using elastomer adhesives},
 type = {inProceedings},
 year = {2006},
 identifiers = {[object Object]},
 pages = {2329-2335},
 websites = {http://ieeexplore.ieee.org/lpdocs/epic03/wrapper.htm?arnumber=1642050},
 publisher = {IEEE},
 city = {Orlando, FL USA},
 id = {e25ef3d7-4fdb-36c8-bc45-d6951c25d329},
 created = {2011-07-01T23:17:16.000Z},
 accessed = {2011-07-01},
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 profile_id = {ea7f026a-6233-33cd-89b6-9db40f122c51},
 last_modified = {2016-08-31T14:39:28.000Z},
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 abstract = {In this paper, the design, analysis, and fabrication of a gecko-inspired climbing robot are discussed. The robot has kinematics similar to a geckos climbing gait. It uses peeling and steering mechanisms and an active tail for robust and agile climbing as a novelty. The advantage of this legged robot is that it can explore irregular terrains more robustly. Novel peeling mechanism of the elastomer adhesive pads, as well as steering and stable climbing using an active tail are explored. The design, fabrication, analysis and test of the robot are reported. Experimental results of walking and climbing up to 85deg sloped acrylic surfaces as well as successful steering and peeling mechanism tests are demonstrated. The potential applications foreseen for this kind of robots are inspection, repair, cleaning, and exploration},
 bibtype = {inProceedings},
 author = {Unver, Ozgur and Uneri, Ali and Aydemir, Alper and Sitti, Metin},
 booktitle = {IEEE International Conference on Robotics and Automation}
}

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