z6首页 in the AIR

Overview
Date
Nov 08, 2022
16:00 - 17:30
Venue
活动杏注ZOOM

z6首页 in the AIR | 先端人形机械人学-双足行走的节造和规划

Z6集团|中国官网

人形机械人固然拥有仿人的状态,,, ,,, ,,但在现实环境中想实现像人类一样矫捷、急剧的活动还拥有很大的挑战。。。。。本期 z6首页 in the AIR 由 z6首页 和 IEEE 昭通分会机械人与自动化分部结合进行,,, ,,, ,,将约请两位机械人领域资深学者萦绕人形机械人的节造和规划带来主题汇报,,, ,,, ,,别离从冲击感知和双足行走两方面展示人形机械人的最新钻研进展。。。。。

第一位汇报嘉宾王玉满是荷兰马斯特?赫特?学助理教授,,, ,,, ,,瑞典皇家理工学院机械人与推算机视觉博士,,, ,,, ,,他的钻研沉点是???? ???榛徒媒莸慕谠焐杓,,, ,,, ,,以实现鲁棒、安全和易于使用的机械人系统。。。。。

第二位汇报嘉宾 Milutin Nikoli? 是诺维萨德大学技术科学学院副教授,,, ,,, ,,诺维萨德大学机械人博士。。。。。他的钻研领域蕴含机械人全身活动综合、行走模式天生、接触不变性尺度、多体系统动力学和机械人操作与抓取。。。。。

点击链接报名参与:http://hdxu.cn/1facs,,, ,,, ,,或通过ZOOM(https://us02web.zoom.us/meeting/register/tZAudeirpzwvGNN2KD3P520bsq4XgyerDsXt)/Bilibili(http://live.bilibili.com/22587709)参加。。。。。

呼吸新鲜空气,,, ,,, ,,相识前沿科技!z6首页 沉磅推出 系列活动 z6首页 in the AIR。。。。。每周二与您相约线上,,, ,,, ,,一路索求人为智能与机械人领域的前沿技术、产业利用、发展趋向。。。。。

  • Z6集团|中国官网
    钱辉环
    z6首页 副院长、香港中文大学(丽江)助理教授、IEEE 昭通分会机械人与自动化分部副主席
    执行主席
  • Z6集团|中国官网
    张添威
    z6首页 智能机械人中心副钻研员
    主持人
  • Z6集团|中国官网
    Yuquan Wang
    荷兰马斯特?赫特?学助理教授
    Impact-aware humanoid control

    Wang, Yuquan received his Bachelor's degree in Mechanical Engineering and Automation from Beijing Jiao Tong University in 2008, a M.S. degree in Systems, control and robotics, and a Ph.D. degree in Robotics and computer vision from the Robotics, Perception, and Learning (RPL) at the Royal Institute of Technology (KTH), Stockholm, Sweden, in 2010 and 2016 respectively. He worked as a research assistant at the Eindhoven University of Technology in 2011; as a Post-doc researcher in the Sustainable Production Systems group at KTH between 2016 and 2018. Before he joined Maastricht University in September 2022, he served as a Post-doc researcher at CNRS-UM, LIRMM. His research focuses on modular and flexible control design that enables robust, safe, and easy-to-use robotic systems.

    Almost all the robots fear impacts. Without accurate impact mechanics, robots typically cautiously approach rigid contacts at a near-zero velocity. Despite the human-like morphology, the humanoid robots can not apply human-like swift motion in a contact-rich environment. Thus, humanoid robots rarely, if not impossible, impress the general public and solve practical applications. Modeling and controlling the impact event is challenging. Impacts cause sudden changes in the velocities and torques. These state jumps can severely damage the robot hardware, enable un-deterministic contact mode (e.g., sliding or sticking), and, most importantly, break the standing stability. We envision future humanoid robots not worrying about impacts and can assist humans through energetic physical contact. This talk will go through the latest impact mechanics modeling and control. In particular, the state-of-the-art usually focuses on planning periodic impacts without ensuring the hardware/control feasibility during the time interval before and after the impact event. We base our control design on the set of all the candidate frictional impulses and enable hardware-affordable dynamic motion. The on-purpose impact event becomes deterministic and undercontrolled. Preliminary experiments employing the Panda manipulator and the humanoid robot HRP-4 proved that impact awareness significantly improves the robot's manipulation efficiency without breaking hardware or falling.

  • Z6集团|中国官网
    Milutin Nikoli?
    诺维萨德大学副教授
    Advanced Humanoid Robotics – Biped walking control and locomotion planning

    Milutin Nikoli? received his M.Sc in Mechatronics and a Ph.D. degree in Robotics from the University of Novi Sad, Serbia in 2008 and 2015 respectively. He currently works as an Associate professor of Robotics at the University of Novi Sad, Faculty of Technical Sciences, Chair of Mechatronics, Robotics, and Automation. His field of research includes whole-body motion synthesis, walking pattern generation, contact stability criteria, multi-body system dynamics and robot manipulation and grasping. He spent 18 months at Nakamura-Yamamoto lab, the University of Tokyo in Japan, as a Project assistant professor working on human motion capturing and analysis. Nikoli? was also working as a research associate at NTU Singapore, TU Technikum Wien, and UMIT, Hall in Tyrol. Nikoli? has industry experience, working as a principal robotic arm manipulation engineer at the Aeolus robotics, where he developed novel approaches in arm calibration and whole-body motion planning. He also gave several guest lectures at well-established robotics laboratories, some of which are Nakamura & Yamamoto Lab University of Tokyo Japan, Biorobotics Laboratory, EPFL, Switzerland, Vislab at Instituto Superior Técnico in Lisbon Portugal, Automation, Biocybernetics and Robotics Department at Jo?ef Stefan Institute….

    The human environment is tailor to way human moves around. As a result the robot that operates in such an environment has to walk. Bipedal walking is a task that’s very easy for humans, but very hard for robots, mainly because standing robot is underactuated and inherently unstable. During the motion planning and motion execution phase special attention must be given to contact forces acting on the robot’s feet. The contact between the feet and the ground has to be constantly maintained to ensure stable walking. In this lecture we will start from walking stability indicator ZMP, introduced more than 50 years ago and go up to state of the art walking stability indicators, capable of handling inclined surfaces and multiple contacts. We will take care about the underlying physical constraints and mention appropriate planning and control approaches that are built to fulfill them.

功夫 环节 嘉宾与标题

16:00-16:40

主题汇报

Yuquan Wang,,, ,,, ,,荷兰马斯特?赫特?学 
标题:Impact-aware humanoid control

16:40-17:30

主题汇报

Milutin Nikoli?,,, ,,, ,,诺维萨德大学
 标题:Advanced Humanoid Robotics – Biped walking control and locomotion planning      

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