Motion generation interface of ROS to PODO software framework for wheeled humanoid robot

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This paper discusses the development of robot motion generation interface between a real-time software architecture and a non-real-time robot operating system. In order for robots to execute intelligent manipulation or navigation, close integration of high-level perception and low-level control is required. However, many available open-source perception modules are developed in ROS, which operates on Linux OS that don't guarantee RT performance. This can lead to non-deterministic responses and stability problems that can adversely affect robot control. As a result, many robotic systems devote RTOS for low-level motion control. Similarly, the humanoid robot platform developed at KAIST, Hubo, utilizes a custom real-time software framework called PODO. Although PODO provides easy interface for motion generation, it lacks interface to high-level frameworks such as ROS. As such, we present a new motion generation interface between ROS and PODO that enables users to generate motion trajectories through standard ROS messages while leveraging a real-time motion controller. With the proposed communication interface, we demonstrate series of manipulator tasks on the actual wheeled humanoid platform, M-Hubo. The overall communication interface responsiveness was at most 27 milliseconds.
Publisher
Institute of Electrical and Electronics Engineers Inc.
Issue Date
2019-12
Language
English
Citation

19th International Conference on Advanced Robotics, ICAR 2019, pp.456 - 461

DOI
10.1109/ICAR46387.2019.8981593
URI
http://hdl.handle.net/10203/310308
Appears in Collection
ME-Conference Papers(학술회의논문)
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