Child-sized 3D Printed igus Humanoid Open Platform Philipp Allgeuer, Hafez Farazi, Michael Schreiber and Sven Behnke Autonomous Intelligent Systems University.

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Presentation transcript:

Child-sized 3D Printed igus Humanoid Open Platform Philipp Allgeuer, Hafez Farazi, Michael Schreiber and Sven Behnke Autonomous Intelligent Systems University of Bonn

igus Humanoid Open Platform204/11/2015 Existing Standard Platforms

igus Humanoid Open Platform304/11/2015 Existing Standard Platforms

igus Humanoid Open Platform404/11/2015 Motivation Why a new platform? Lack of standard platforms in the child-sized range that have suitable characteristics and abilities. Benefits of standard platforms? Lower entry barrier for new research groups Acceleration of research through collaboration and code sharing Philosophy of the new platform? Completely open source software and hardware

igus Humanoid Open Platform504/11/2015 Design Aims The robot should be easy to: Manufacture Assemble Maintain Customise Operate Extend Furthermore: Appealing overall aesthetic appearance is desired 3D Printing!

igus Humanoid Open Platform604/11/2015 igus Humanoid Open Platform

704/11/2015 First Prototype: NimbRo-OP NimbRo-OP: Constructed in 2012 Test of kinematics, electronics, mechanics and software Carbon composite, aluminium, ABS+ igus Humanoid Open Platform: Total redesign of appearance Kinematic improvements Internal cable routing 3D printed polyamide (PA12)

igus Humanoid Open Platform804/11/2015 igus Humanoid Open Platform 20 DoF

igus Humanoid Open Platform904/11/2015 igus Humanoid Open Platform 90cm, 6.6kg Battery 3D printed components: Selective laser sintering, with steps of <0.1mm Uses ribs and wall thickness for structural rigidity Openly available as CAD files!

igus Humanoid Open Platform1004/11/2015 igus Humanoid Open Platform Main PC: Runs full 64-bit Ubuntu/ROS CM730 microcontroller: Custom firmware, but fully back compatible with stock PC CM730

igus Humanoid Open Platform1104/11/2015 igus Humanoid Open Platform Inertial sensors (IMU): Gyroscope, accelerometer and magnetometer located on microcontroller board Cameras: Monocular or stereo vision both possible. Camera(s) IMU

igus Humanoid Open Platform1204/11/2015 Electrical Architecture

igus Humanoid Open Platform1304/11/2015 Software Architecture Language and environment: Written predominantly in C++ Based on the ROS middleware Target application: Robot soccer, but thanks to its inherent modularity, large portions of the code have been used for other applications and other robots Source code available open source!

igus Humanoid Open Platform1404/11/2015 Software Architecture Motion Control: Robot control node URDF model Motion module plugin scheme Hardware interface plugin scheme Trajectory editor for keyframe motions

igus Humanoid Open Platform1504/11/2015 Software Architecture Behaviours: Soccer playing Localisation on the field Vision: Image acquisition Detection of soccer features, such as field, ball and goal

igus Humanoid Open Platform1604/11/2015 Software Architecture Utilities: Visualisation tools Generic ROS topic logging node Configuration server for dynamic updates to parameters Greatly helps nodes to be robot agnostic! Parameter tuner

igus Humanoid Open Platform1704/11/2015 Trajectory Editor

igus Humanoid Open Platform1804/11/2015 Trajectory Editor

igus Humanoid Open Platform1904/11/2015 Software Features Compliant servo actuation: Uses a full physical model to compute dynamics See: Schwarz et al [13] Attitude Estimation: Uses a nonlinear passive complementary filter See: Allgeuer et al [16] Walking gait based on angle feedback mechanisms: Uses an improved OL central pattern generated gait Walks on 32mm artificial grass at up to 21cm/s

igus Humanoid Open Platform2004/11/2015 Video

igus Humanoid Open Platform2104/11/2015 Thank you for your attention! igus Humanoid Open Platform: Software release: Bonn/humanoid_op_ros Hardware release: HumanoidOpenPlatform

igus Humanoid Open Platform2204/11/2015 References