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Darmstadt Dribblers: Team Description for Humanoid KidSize League of RoboCup 2009

Friedmann, Martin ; Petersen, Karen ; Petters, Sebastian ; Radkhah, Kathayon ; Scholz, Dorian ; Thomas, D. ; Stryk, Oskar von ; Stryk, Oskar von (2009)
Darmstadt Dribblers: Team Description for Humanoid KidSize League of RoboCup 2009.
Report, Bibliographie

Kurzbeschreibung (Abstract)

This paper describes the hardware and software design of the kidsize humanoid robot systems of the Darmstadt Dribblers in 2009. The robots are used as a vehicle for research in control of locomotion and behavior of autonomous humanoid robots and robot teams with any degrees of freedom and many actuated joints. The Humanoid League of RoboCup provides an ideal testbed for such aspects of dynamics in motion and autonomous behavior as the problem of generating and maintaining statically or dynamically stable bipedal locomotion is predominant for all types of vision guided motions during a soccer game. A modular software architecture as well as further technologies have been developed for efficient and effective implementation and test of modules for sensing, planning, behavior, and actions of humanoid robots.

Typ des Eintrags: Report
Erschienen: 2009
Autor(en): Friedmann, Martin ; Petersen, Karen ; Petters, Sebastian ; Radkhah, Kathayon ; Scholz, Dorian ; Thomas, D. ; Stryk, Oskar von ; Stryk, Oskar von
Art des Eintrags: Bibliographie
Titel: Darmstadt Dribblers: Team Description for Humanoid KidSize League of RoboCup 2009
Sprache: Englisch
Publikationsjahr: 2009
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Kurzbeschreibung (Abstract):

This paper describes the hardware and software design of the kidsize humanoid robot systems of the Darmstadt Dribblers in 2009. The robots are used as a vehicle for research in control of locomotion and behavior of autonomous humanoid robots and robot teams with any degrees of freedom and many actuated joints. The Humanoid League of RoboCup provides an ideal testbed for such aspects of dynamics in motion and autonomous behavior as the problem of generating and maintaining statically or dynamically stable bipedal locomotion is predominant for all types of vision guided motions during a soccer game. A modular software architecture as well as further technologies have been developed for efficient and effective implementation and test of modules for sensing, planning, behavior, and actions of humanoid robots.

Fachbereich(e)/-gebiet(e): 20 Fachbereich Informatik
20 Fachbereich Informatik > Simulation, Systemoptimierung und Robotik
Hinterlegungsdatum: 20 Jun 2016 23:26
Letzte Änderung: 15 Mär 2019 09:58
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