SURENAIV: Towards A Cost-effective Full-size Humanoid Robot for Real-world Scenarios

2020 IEEE-RAS 20th International Conference on Humanoid Robots (Humanoids) Pub Date : 2021-07-19 DOI:10.1109/HUMANOIDS47582.2021.9555686

A. Yousefi-Koma, B. Maleki, Hessam Maleki, A. Amani, M. Bazrafshani, Hossein Keshavarz, Ala Iranmanesh, A. Yazdanpanah, H. Alai, Sahel Salehi, Mahyar Ashkvari, Milad Mousavi, M. Shafiee-Ashtiani

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引用次数: 5

Abstract

This paper describes the hardware, software framework, and experimental testing of SURENA IV humanoid robotics platform. SURENA IV has 43 degrees of freedom (DoFs), including seven DoFs for each arm, six DoFs for each hand, and six DoFs for each leg, with a height of 170 cm and a mass of 68 kg and morphological and mass properties similar to an average adult human. SURENA IV aims to realize a cost-effective and anthropomorphic humanoid robot for real-world scenarios. In this way, we demonstrate a locomotion framework based on a novel and inexpensive predictive foot sensor that enables walking with 7cm foot position error because of accumulative error of links and connections’ deflection(that has been manufactured by the tools which are available in the Universities). Thanks to this sensor, the robot can walk on unknown obstacles without any force feedback, by online adaptation of foot height and orientation. Moreover, the arm and hand of the robot have been designed to grasp the objects with different stiffness and geometries that enable the robot to do drilling, visual servoing of a moving object, and writing his name on the white-board.

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SURENAIV:面向现实世界场景的高性价比全尺寸人形机器人

本文介绍了SURENA IV类人机器人平台的硬件、软件框架和实验测试。SURENA IV具有43个自由度(DoFs)，其中每只手臂有7个自由度，每只手有6个自由度，每条腿有6个自由度，高度为170厘米，质量为68公斤，形态和质量特性与普通成年人相似。SURENA IV旨在实现一种具有成本效益和拟人化的人形机器人，用于现实世界的场景。通过这种方式，我们展示了一种基于新颖且廉价的预测足部传感器的运动框架，由于链接和连接挠度的累积误差(已由大学可用的工具制造)，该运动框架可以实现7厘米足部位置误差的行走。有了这个传感器，机器人可以在没有任何力反馈的情况下，通过在线调整脚的高度和方向，在未知的障碍物上行走。此外，机器人的手臂和手被设计为能够抓住不同刚度和几何形状的物体，使机器人能够进行钻孔，视觉伺服运动物体，并在白板上写下自己的名字。

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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2020 IEEE-RAS 20th International Conference on Humanoid Robots (Humanoids)

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