Acquisition and Processing of Effective Contact Area Distribution for Humanoid Robot Foot

机译：获取和处理人形机器人脚有效接触区域分布

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Maintaining dynamical stability for humanoid robots to walk or run in even environments has so far been achieved. However, it will become a challenge work to keep balance under rough terrains, because the effective contact area (ECA) between the feet and the uneven environments is less than that on even ground. Thus some control schemes are additionally needed for robot to keep dynamical balance, which increases the complexity of control. In view of that, flexible force sensor array (KKSA) system is adopted under robot feet to detect the ECA in the case of stepping on rough terrains. Structure optimum, data acquisition, processing methods, etc., of the FFSA system are all elaborately provided in this paper. And the feasibility and validity of the FFSA system mounted in the robot foot system are experimentally tested on the humanoid robot platform BIIR-2.

机译：到目前为止，已经实现了对人形机器人的动态稳定性，甚至环境甚至是环境。然而，它将成为在粗糙的地形下保持平衡的挑战工作，因为脚和不均匀环境之间的有效接触面积（ECA）小于甚至地面。因此，机器人还需要一些控制方案以保持动态平衡，这增加了控制的复杂性。鉴于此，在机器人脚下采用柔性力传感器阵列（KKSA）系统，以检测踩踏粗糙地形的ECA。在本文中全部提供FFSA系统的结构最佳，数据采集，处理方法等。并且在机器人脚系统中安装的FFSA系统的可行性和有效性在人形机器人平台BIIR-2上进行了实验测试。

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《IEEE international conference on signal processing systems》|2011年||共5页
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Baoyuan Wu; Fei Shen; Zhongcheng Wu; Jianfei Luo; Yang Ren;
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中图分类通信理论;
关键词
humanoid robot; flexible force sensor array (FFSA); effective contact area (ECA); IMP.;

机译：人形机器人;灵活的力传感器阵列（FFSA）;有效接触面积（ECA）;IMP。;

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专利

1. Perception of effective contact area distribution for humanoid robot foot [J] . Baoyuan Wu, Zengfu Wang, Jianfei Luo, Measurement . 2013,第7期

机译：人形机器人脚有效接触面积分布的感知
2. Signal Processing and Application of Six-axis Force/Torque Sensor Integrated in Humanoid Robot Foot [J] . Baoyuan Wu, Qingquan Yan, Jianfei Luo, Journal of signal processing systems for signal, image, and video technology . 2014,第2期

机译：类人机器人脚中集成的六轴力/扭矩传感器的信号处理与应用
3. OPTIMIZING FOOT CENTERS OF PRESSURE THROUGH FORCE DISTRIBUTION IN A HUMANOID ROBOT [J] . PATRICK M. WENSING, GHASSAN BIN HAMMAM, BEHZAD DARIUSH, International journal of humanoid robotics . 2013,第3期

机译：优化人形机器人压力贯穿力分布的中心
4. Acquisition and Processing of Effective Contact Area Distribution for Humanoid Robot Foot [C] . Baoyuan Wu, Fei Shen, Zhongcheng Wu, IEEE international conference on signal processing systems . 2011

机译：类人机器人脚有效接触面积分布的获取与处理
5. A Sociable Humanoid Autonomous Robotic Platform (the SHARP Project): An evaluation of the G.E.N.E.S.I.S. robot as an interactive consumer robotic platform. [D] . Rick, Jeffrey J. 2012

机译：社交型人形自主机器人平台（SHARP项目）：对G.E.N.E.S.I.S.的评估机器人作为交互式消费者机器人平台。
6. Dissociated Emergent-Response System and Fine-Processing System in Human Neural Network and a Heuristic Neural Architecture for Autonomous Humanoid Robots [O] . Xiaodan Yan 2010

机译：神经网络中的分离式紧急响应系统和精细处理系统以及自主类人机器人的启发式神经体系结构
7. Balancing a humanoid robot with a prioritized contact force distribution [O] . Alexander Sherikov, Dimitar Dimitrov, Pierre-Brice Wieber 2015

机译：使用接触力分布平衡人形机器人

Acquisition and Processing of Effective Contact Area Distribution for Humanoid Robot Foot

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