Manufacturer - Autonomous Intelligent Systems Group
Home page - nimbro.net/OP
nimbro.net/Humanoid
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Manufacturer - Autonomous Intelligent Systems Group
Home page - nimbro.net/OP
nimbro.net/Humanoid
https://youtu.be/tn1uSz6YseI
NimbRo-OP Humanoid TeenSize Open Platform Robot
Published on Oct 7, 2012
Quote:
This video introduces the NimbRo-OP humanoid robot that has been developed at University of Bonn, Germany. It is available to research groups. Both hard- and software are open source.
https://youtu.be/pwIn8CuF5U8
NimbRo TeenSize: Qualification Video for RoboCup 2013
Published on Jan 27, 2013
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This video is part of the qualification material for the RoboCup Humanoid League competition which will take place in June 2013 in Eindhoven.
It shows the robots NimbRo-OP, Copedo, and Dynaped performing walking, kicking, obstacle avoidance, throw-in and getting-up motions.
Team NimbRo is affiliated with the Autonomous Intelligent Systems Group at the Computer Science Institute VI of University of Bonn, Germany.
https://youtu.be/-FQOZTsEA1Y
RoboCup 2016 Humanoid TeenSize: Two Goals from NimbRo
Published on Jul 5, 2016
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The video shows two goals scored by NimbRo vs. HuroEvolutionTN (Taiwan) in the final of the RoboCup 2016 Humanoid TeenSize tournament. Dynaped and the igus Humanoid Open Platforms are the players of team NimbRo which is based in the Autonomous Intelligent Systems group of University of Bonn, Germany.
The game ended 9:0 for NimbRo.
https://youtu.be/xnzJi2hTfAo
Omnidirectional bipedal walking with direct fused angle feedback mechanisms
Published on Oct 25, 2016
Quote:
The video illustrates the approach of Philipp Allgeuer and Sven Behnke: "Omnidirectional Bipedal Walking with Direct
Fused Angle Feedback Mechanisms"
"Omnidirectional Bipedal Walking with Direct Fused Angle Feedback Mechanisms"
by Philipp Allgeuer and Sven Behnke
Accepted for IEEE-RAS International Conference on Humanoid Robots (Humanoids), Cancun, Mexico, December 2016.
Abstract—An omnidirectional closed-loop gait based on the direct feedback of orientation deviation estimates is presented
in this paper. At the core of the gait is an open-loop central pattern generator. The orientation feedback is derived from
a 3D nonlinear attitude estimator, and split into the relevant angular deviations in the sagittal and lateral planes using the
concept of fused angles. These angular deviations from expected are used by a number of independent feedback mechanisms,
including one that controls timing, to perform stabilising corrective actions. The tuning of the feedback mechanisms
is discussed, including an LQR-based approach for tuning the transient sagittal response. The actuator control scheme
and robot pose representations in use are also addressed.
Experimental results on an igusr Humanoid Open Platform demonstrate the core concept of this paper, that if the sensor
management and feedback chains are carefully constructed, comparatively simple model-free and robot-agnostic feedback
mechanisms can successfully stabilise a generic bipedal gait.
https://youtu.be/WJKc56uUuF8
NimbRo-OP2: Grown-up 3D printed open humanoid platform for research
Published on Oct 4, 2017
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Video attachement for paper:
Grzegorz Ficht, Philipp Allgeuer, Hafez Farazi and Sven Behnke
"NimbRo-OP2: Grown-up 3D Printed Open Humanoid Platform for Research"
accepted for IEEE-RAS International Conference on Humanoid Robots (Humanoids), Birmingham, UK, to appear November 2017.
The versatility of humanoid robots in locomotion, full-body motion, interaction with unmodified human environments, and intuitive human-robot interaction led to increased research interest. Multiple smaller platforms are available for research, but these require a miniaturized environment to interact with---and often the small scale of the robot diminishes the influence of factors which would have affected larger robots.
Unfortunately, many research platforms in the larger size range are less affordable, more difficult to operate, maintain and modify, and very often closed-source. In this work, we introduce \nopxl, an affordable, fully open-source platform in terms of both hardware and software.
Being almost 135 cm tall and only 18 kg in weight, the robot is not only capable of interacting in an environment meant for humans, but also easy and safe to operate and does not require a gantry when doing so.
The exoskeleton of the robot is 3D printed, which produces a lightweight and visually appealing design.
We present all mechanical and electrical aspects of the robot, as well as some of the software features of our well-established open-source ROS software. The NimbRo-OP2 performed at RoboCup 2017 in Nagoya, Japan, where it won the Humanoid League AdultSize Soccer competition and Technical Challenge.
https://youtu.be/qmYSt3nVJpA
NimbRo-OP2X: adult-sized open-source 3D printed humanoid robot
Published on Aug 31, 2018
Quote:
The video introduces the adult-sized open-source 3D printed humanoid robot NimbRo-OP2X, which was developed by the Autonomous Intelligent Systems group of University of Bonn, Germany.
https://youtu.be/hKLC0Vz1GmM?si=kdXYJhunCeChyGx7
RoboCup 2023: Humanoid AdultSize winner NimbRo highlights
Nov 29, 2023
Quote:
The video shows highlights from the RoboCup 2023 Humanoid AdultSize competition in Bordaux, France. The winning team NimbRo is based in the Autonomous Intelligent Systems lab of University of Bonn, Germany.
In addition to the soccer games, technical challenges like Push Recovery, Kicking High, and Kicking a Moving Ball are shown.