z6首页 in the AIR

Overview

Date

Sep 27, 2022

15:00 - 17:15

Venue

Bilibili, Huodongxing

z6首页 in the AIR | Soft Robots (Session 4)

About

Speakers
Agenda
Archive

Soft robots, composed of soft materials such as rubber, hydrogel, etc., can adapt to unstructured environments and ensure safety when interacting with people, which have attracted lots of attention in recent year.

In Sept. 2022, the Shenzhen Institute of Artificial Intelligence and Robotics for Society (z6首页) invites top scholars from home and abroad to share the most innovative research and profound knowledge in the field of "Soft Robots".

Join the event on Sept. 27 through Huodongxing (http://hdxu.cn/VrPPN) or Bilibili (http://live.bilibili.com/22587709).

z6首页 in the AIR, lecture series launched by z6首页, invites top scholars and experts to share cutting edge technologies and latest trend in the field of AI and robotics, and exploring their industrial applications.

Jian Zhu

Associate Professor at CUHK-Shenzhen, PI at z6首页

Executive Chair

Bio

Abstract
Peter Xu

Professor at the University of Auckland

Robotics and Human Digestion

Bio

Peter received the B.E. degree in manufacturing engineering and the M.E. degree in mechanical engineering from Southeast University, Nanjing, China, in 1982 and 1985, respectively, and the Ph.D. degree in mechatronics from Beihang University, Beijing, China, in 1988.

Currently, Professor Xu is affiliated with Riddet Institute, The New Zealand Centre of Research Excellence (CoRE) in Food, Innovation and Health and The Dodd-Walls Centre for Photonics and Quantum Technologies, The New Zealand Centre of Research Excellence (CoRE). Also, he was PI of the New Zealand Medical Technologies Centre of Research Excellence (CoRE) (2005-2021)

Professor Xu has served as Associate Editors for journals: IEEE Robotics and Automation Magazine, IEEE Transactions on Industrial Electronics, IEEE Open Journal of Industrial Electronics Society, ASME Journal of Science and Engineering in Medical Diagnostics and Therapy, and Journal of Field Robotics.

Professor Xu was the recipient of research fellowships from Alexander von Humboldt Foundation, Germany, 1990, Korean Federation of Science and Technology, 2006 and Japan Society of the Promotion of Science, 2010.

Abstract

This talk introduces our 2-decade long research program on digestion robotics including mastication, tongue, esophagus and stomach. The activities spread over rigid robotics and soft robotics. These robotic organs are developed for in vitro biomimetic simulations of human digestion process and the interaction of food/drug/implant and digestive organs to test scientifical hypotheses and assist in developing novel food/drug/implant products. The biological principle and the biomimetic design of these robotic organs are presented with focus on their distributed actuation, sensing and closed-loop control. Science challenges in the digestion robotics are outlined. Case studies of the applications in food/drug/implant will be shown.
Vito Cacucciolo

Senior Scientist at Polytechnic University of Bari, Italy

Electro-active soft materials for dexterous robots and smart wearables

Bio

Vito Cacucciolo is a Senior Scientist at the university Politecnico di Bari (Italy) and he is co-founder and CEO of the spin-off Omnigrasp. Vito is also a research affiliate at the MIT Media Lab (US).

From 2017 to 2021, Vito worked as a scientist in the Soft Transducers lab of EPFL (?cole polytechnique fédérale de Lausanne, CH), where he pushed the boundaries of soft robotics and electro-active artificial muscles. He has been the driving force behind the development of the world-first stretchable pumps, published in Nature in 2019. He received the Japan Society for the Promotion of Science postdoctoral fellowship in 2019 to develop wearable fluidic muscles and the Innosuisse/SNF Bridge PoC grant in 2020 to push his research on electroadhesion-based soft grippers to the market. Vito received his M.Sc. (with honors) in Mechanical Engineering as double degree from Politecnico di Bari (Italy) and NYU Tandon School of Engineering (US) in 2013, and his PhD (with honors) in BioRobotics from Scuola Superiore Sant’Anna Pisa (Italy) in 2017.

Personal website: https://vitocacu.me/

Abstract

Artificial muscles are an engineering holy grail, promising to enable robots with animal-level dexterity, wearable exoskeletons and novel human-machine interfaces. My work has focused on electrically driven elastomer-based actuators and grippers as they offer a path to integrated active wearables and dexterous soft robots.

In this talk, I will first discuss the force/softness dilemma in soft robotics and how we leveraged electro-adhesion on silicone fingers to develop grippers that are at the same time delicate enough to pick a ripe tomato and so strong to lift 1000 times their own weight.

I will then present our work on stretchable ElectroHydroDynamic pumps, as a means of using fluids to decouple electrical transducers from mechanical motion, easing material and fabrication requirements. Our pumps solved the long-standing challenge of integrating fluid circulation in soft robots and wearables, with no external pumps and compressors.

I will conclude discussing future directions for electro-active soft materials.
Philipp Rothemund

Postdoctoral Researcher at the Max Planck Institute for Intelligent Systems

Physics of Hydraulically Amplified Self-Healing Electrostatic Actuators

Bio

Dr. Philipp Rothemund is a postdoctoral researcher in the Robotic Materials Department at the Max Planck Institute for Intelligent Systems, where he studies the fundamental physics of electrohydraulic actuation. During 2019-2020, he was a postdoctoral researcher at the University of Colorado Boulder. In 2018, he lectured multiphysics simulations at the Universidad Pontificia Comillas in Spain. Philipp studied the mechanics of soft actuators at Harvard University, earning his Ph.D. and M.S. in Engineering Sciences in 2018 and 2014, respectively. He also received an M.S. and B. S. in Mechanical Engineering from ETH Zurich in 2012 and 2009, respectively. His research interests include nonlinear continuum mechanics, materials science, soft robotics, electroactive polymers, renewable energy sources, and energy harvesting.

Abstract

Today’s robots rely predominantly on rigid metallic components and electromagnetic motors, which make them heavy, expensive, and ill-suited to unstructured environments. By contrast, biological organisms use predominantly soft materials, and many outperform robots in terms of agility, dexterity, and adaptability. In particular, the impressive performance of natural muscle has long inspired the work of scientists and engineers. Hydraulically amplified, self-healing, electrostatic (HASEL) actuators are a new versatile class of soft actuators with muscle-like behavior, which outperform the human skeletal muscles in many metrics. This talk discusses the physics of electrohydraulic actuation in HASEL actuators. It will show how geometrical and material parameters govern the quasistatic and dynamic actuation behavior of HASEL actuators and point towards ways to drastically improve their performance.

Time	Session	Speaker & Topic
15:00-15:45	Keynote Speech	Peter Xu, University of Auckland Topic: Robotics and Human Digestion
15:45-16:30	Keynote Speech	Vito Cacucciolo, Polytechnic University of Bari, Italy Topic: Electro-active soft materials for dexterous robots and smart wearables
16:30-17:15	Keynote Speech	Philipp Rothemund, Max Planck Institute for Intelligent Systems Topic: Physics of Hydraulically Amplified Self-Healing Electrostatic Actuators