Hardware and Software Aspects of the Design and Assembly of a New Humanoid Robot for RoboCup Soccer

2014 Joint Conference on Robotics: SBR-LARS Robotics Symposium and Robocontrol Pub Date : 2014-10-18 DOI:10.1109/SBR.LARS.ROBOCONTROL.2014.39

D. Perico, I. J. Silva, Claudio O. Vilão, T. P. D. Homem, R. C. Destro, Flavio Tonidandel, Reinaldo A. C. Bianchi

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引用次数: 16

Abstract

This paper describes the design and development of a new humanoid robot named Newton, that is intended for applications in research and also to be used in the Robo Cup Kid Size League World Competition. Newton robot has been designed to work without any dedicated sub-controller implemented in low level hardware, often used to control the servomotors of the robot. Newton uses only a standard personal computer to do all processing and control necessary by the robot. To be able to deal with all the tasks involved in the robotic soccer domain, a new software architecture is proposed. This architecture is based on the hybrid paradigm, involving sensing, decision, planning, low level control, localization and communication. Preliminary tests show that the robot can walk properly while it performs tasks like finding the ball in an unknown position or positioning itself at the ball for kicking, exhibiting a very good performance.

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机器人世界杯足球赛用新型人形机器人的软硬件设计与装配

本文描述了一种名为牛顿的新型人形机器人的设计和开发，该机器人将用于研究应用，并将用于机器人杯儿童尺寸联盟世界比赛。牛顿机器人被设计成在没有任何专用子控制器的情况下工作，在底层硬件上实现，通常用于控制机器人的伺服电机。牛顿只使用一台标准的个人电脑来完成机器人所需的所有处理和控制。为了能够处理机器人足球领域中涉及的所有任务，提出了一种新的软件体系结构。该体系结构基于混合范式，涉及感知、决策、规划、低级控制、定位和通信。初步测试表明，该机器人在执行寻找未知位置的球或将自己定位在球前进行踢球等任务时可以正常行走，表现非常出色。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 Joint Conference on Robotics: SBR-LARS Robotics Symposium and Robocontrol

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