Mapping Human Sensory-Motor Skills for Manipulation onto the Design and Control of Robots

Mapping Human Sensory-Motor Skills for Manipulation onto the Design and Control of Robots
Author :
Publisher : Frontiers Media SA
Total Pages : 134
Release :
ISBN-10 : 9782889457953
ISBN-13 : 2889457958
Rating : 4/5 (958 Downloads)

Book Synopsis Mapping Human Sensory-Motor Skills for Manipulation onto the Design and Control of Robots by : Matteo Bianchi

Download or read book Mapping Human Sensory-Motor Skills for Manipulation onto the Design and Control of Robots written by Matteo Bianchi and published by Frontiers Media SA. This book was released on 2019-03-25 with total page 134 pages. Available in PDF, EPUB and Kindle. Book excerpt: Humans are endowed with extraordinary sensory-motor capabilities that enable a successful interaction with and exploration of the environment, as is the case of human manipulation. Understanding and modeling these capabilities represents an important topic not only for neuroscience but also for robotics in a mutual inspiration, both to inform the design and control of artificial systems and, at the same time, to increase knowledge on the biological side. Within this context, synergies -- i.e., goal-directed actions that constrain multi DOFs of the human body and can be defined at the kinematic, muscular, neural level -- have gained increasing attention as a general simplified approach to shape the development of simple and effective artificial devices. The execution of such purposeful sensory-motor primitives on the biological side leverages on the interplay of the sensory-motor control at central and peripheral level, and the interaction of the human body with the external world. This interaction is particularly important considering the new concept of robotic soft manipulation, i.e. soft, adaptable yet robust robotic hands that can deform with the external environment to multiply their grasping and manipulation capabilities. Under this regard, a preeminent role is reserved to touch, being that skin isour primary organ to shape our knowledge of the external world and, hence, to modify it, in interaction with the efferent parts. This Research Topic reports results on the mutual inspiration between neuroscience and robotics, and on how it is possible to translate neuroscientific findings on human manipulation into engineering guidelines for simplified systems able to take full advantage from the interaction and hence exploitation of environmental constraints for task accomplishment and knowledge acquisition.


Mapping Human Sensory-Motor Skills for Manipulation onto the Design and Control of Robots Related Books

Mapping Human Sensory-Motor Skills for Manipulation onto the Design and Control of Robots
Language: en
Pages: 134
Authors: Matteo Bianchi
Categories:
Type: BOOK - Published: 2019-03-25 - Publisher: Frontiers Media SA

DOWNLOAD EBOOK

Humans are endowed with extraordinary sensory-motor capabilities that enable a successful interaction with and exploration of the environment, as is the case of
Augmenting Human Manipulation Abilities with Supernumerary Robotic Limbs
Language: en
Pages: 155
Authors: Irfan Hussain
Categories: Technology & Engineering
Type: BOOK - Published: 2020-07-17 - Publisher: Springer Nature

DOWNLOAD EBOOK

This book offers a timely report on an emerging topic in the field of wearable assistive technology: the design and development of robotic extra fingers. After
Scientific and Technical Aerospace Reports
Language: en
Pages: 704
Authors:
Categories: Aeronautics
Type: BOOK - Published: 1995 - Publisher:

DOWNLOAD EBOOK

Neuroergonomics in Human-Robot Interaction
Language: en
Pages: 93
Authors: Giacinto Barresi
Categories: Science
Type: BOOK - Published: 2022-10-17 - Publisher: Frontiers Media SA

DOWNLOAD EBOOK

A Mathematical Introduction to Robotic Manipulation
Language: en
Pages: 488
Authors: Richard M. Murray
Categories: Technology & Engineering
Type: BOOK - Published: 2017-12-14 - Publisher: CRC Press

DOWNLOAD EBOOK

A Mathematical Introduction to Robotic Manipulation presents a mathematical formulation of the kinematics, dynamics, and control of robot manipulators. It uses