Incremental Learning Control of the DLR-HIT-Hand II during Interaction Tasks

被引：0

作者：

Alessi, Alessio ^{[1
]}

Zollo, Loredana ^{[1
]}

Lonini, Luca ^{[2
]}

De Falco, Rosanna ^{[1
]}

Guglielmelli, Eugenio ^{[1
]}

机构：

[1] Univ Campus Biomed, Lab Biomed Robot & Biomicrosyst, Via Alvaro del Portillo 21, I-00128 Rome, Italy

[2] Goethe Univ Frankfurt, Frankfurt Inst Adv Stud, D-60438 Frankfurt, Germany

来源：

2010 ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC) | 2010年

关键词：

D O I：

10.1109/IEMBS.2010.5627411

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

In this paper a bio-inspired control architecture for a robotic hand is presented. It relies on the same mechanisms of learning inverse internal models studied in humans. The control is capable of developing an internal representation of the hand interacting with the environment and updating it by means of the interaction forces that arise during contact. The learning paradigm exploits LWPR networks, which allow efficient incremental online learning through the use of spatially localized linear regression models. Additionally this paradigm limits negative interference when learning multiple tasks. The architecture is validated on a simulated finger of the DLR-HIT-Hand II performing closing movements in presence of two different viscous force fields, perturbing its motion.

引用

页码：3194 / 3197

页数：4

共 50 条

[21] Muscle Activation during Hand Dexterity Tasks in Women with Hand Osteoarthritis and Control Subjects
Calder, Kristina M.
Galea, Victoria
Wessel, Jean
MacDermid, Joy C.
MacIntyre, Norma J.
JOURNAL OF HAND THERAPY, 2011, 24 (03) : 207 - 214
[22] Natural muscular recruitment during reaching tasks to control hand prostheses
Carpaneto, J.
Somerlik, K. H.
Krueger, T. B.
Stieglitz, T.
Micera, S.
2012 4TH IEEE RAS & EMBS INTERNATIONAL CONFERENCE ON BIOMEDICAL ROBOTICS AND BIOMECHATRONICS (BIOROB), 2012, : 165 - 168
[23] Stable force-myographic control of a prosthetic hand using incremental learning
Rasouli, Mahdi
Ghosh, Rohan
Lee, Wang Wei
Thakor, Nitish V.
Kukreja, Sunil
2015 37TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC), 2015, : 4828 - 4831
[24] Hand Gesture Control for Human–Computer Interaction with Deep Learning
S. N. David Chua
K. Y. Richard Chin
S. F. Lim
Pushpdant Jain
Journal of Electrical Engineering & Technology, 2022, 17 : 1961 - 1970
[25] Stable myoelectric control of a hand prosthesis using non-linear incremental learning
Gijsberts, Arjan
Bohra, Rashida
Gonzalez, David Sierra
Werner, Alexander
Nowak, Markus
Caputo, Barbara
Roa, Maximo A.
Castellini, Claudio
FRONTIERS IN NEUROROBOTICS, 2014, 8 : 1 - 15
[26] The quality of social interaction during the performance of learning potential tasks with preschoolers
vanderAalsvoort, D
ZEITSCHRIFT FUR PADAGOGISCHE PSYCHOLOGIE, 1996, 10 (02): : 99 - 107
[27] Evaluating Hand-tracking Interaction for Performing Motor-tasks in VR Learning Environments
Hameed, Asim
Perkis, Andrew
Moller, Sebastian
2021 13TH INTERNATIONAL CONFERENCE ON QUALITY OF MULTIMEDIA EXPERIENCE (QOMEX), 2021, : 219 - 224
[28] Multimodal deep learning network based hand ADLs tasks classification for prosthetics control
Li Zhengyi
Zhou Hui
Yang Dandan
Xie Shuiqing
PROCEEDINGS OF 2017 IEEE INTERNATIONAL CONFERENCE ON PROGRESS IN INFORMATICS AND COMPUTING (PIC 2017), 2017, : 91 - 95
[29] Instrumentation of a hand-held power tool for capturing dynamic interaction during finishing tasks
Phan, Gia-Hoang
Hansen, Clint
Tommasino, Paolo
Hussain, Asif
Campolo, Domenico
2016 6TH IEEE INTERNATIONAL CONFERENCE ON BIOMEDICAL ROBOTICS AND BIOMECHATRONICS (BIOROB), 2016, : 906 - 911
[30] Hand Gesture Control for Human-Computer Interaction with Deep Learning
Chua, S. N. David
Chin, K. Y. Richard
Lim, S. F.
Jain, Pushpdant
JOURNAL OF ELECTRICAL ENGINEERING & TECHNOLOGY, 2022, 17 (03) : 1961 - 1970

← 1 2 3 4 5 →