DEPLOYMENT OF A HIGH-SPEED COMMUNICATION NETWORK TO ENABLE REAL-TIME CONTROL OF A LOWER LIMB ROBOTIC EXOSKELETON

Andres Fabricio Cordova; Hernan Morales; Fabian Astudillo-Salinas; Huiyan Zhang; Luis Ismael Minchala

doi:10.24507/ijicic.19.01.181

DEPLOYMENT OF A HIGH-SPEED COMMUNICATION NETWORK TO ENABLE REAL-TIME CONTROL OF A LOWER LIMB ROBOTIC EXOSKELETON

Andres Fabricio Cordova, Hernan Morales, Fabian Astudillo-Salinas, Huiyan Zhang, Luis Ismael Minchala

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

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Resumen

This paper presents a practical approach to deploying a real-time communication network applied to a hierarchical control architecture of a lower limb robotic exoskeleton. Previous experimental results of a communication network using Controller Area Network (CAN) protocol, which uses Service Data Objects (SDO) within frames of the CAN protocol, showed some disadvantages such as non-constant sampling time and data loss. These issues are completely solved by switching SDO objects to Process Data Objects (PDO) within the CAN protocol’s frame and using a non-concurrent pro-gramming methodology for deploying the control system. Experimental results show high accuracy in the repetitiveness of the sampling time, data transmission, and high precision of open-kinematics position control of the lower limb exoskeleton prototype.

Idioma original	Inglés
Páginas (desde-hasta)	181-196
Número de páginas	16
Publicación	International Journal of Innovative Computing, Information and Control
Volumen	19
N.º	1
DOI	https://doi.org/10.24507/ijicic.19.01.181
Estado	Publicada - feb. 2023

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title = "DEPLOYMENT OF A HIGH-SPEED COMMUNICATION NETWORK TO ENABLE REAL-TIME CONTROL OF A LOWER LIMB ROBOTIC EXOSKELETON",

abstract = "This paper presents a practical approach to deploying a real-time communication network applied to a hierarchical control architecture of a lower limb robotic exoskeleton. Previous experimental results of a communication network using Controller Area Network (CAN) protocol, which uses Service Data Objects (SDO) within frames of the CAN protocol, showed some disadvantages such as non-constant sampling time and data loss. These issues are completely solved by switching SDO objects to Process Data Objects (PDO) within the CAN protocol{\textquoteright}s frame and using a non-concurrent pro-gramming methodology for deploying the control system. Experimental results show high accuracy in the repetitiveness of the sampling time, data transmission, and high precision of open-kinematics position control of the lower limb exoskeleton prototype.",

keywords = "CAN network, High-speed communications, Lower limb robotic exoskeleton, PDO, SDO",

author = "Cordova, \{Andres Fabricio\} and Hernan Morales and Fabian Astudillo-Salinas and Huiyan Zhang and Minchala, \{Luis Ismael\}",

year = "2023",

month = feb,

doi = "10.24507/ijicic.19.01.181",

language = "Ingl{\'e}s",

volume = "19",

pages = "181--196",

journal = "International Journal of Innovative Computing, Information and Control",

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DEPLOYMENT OF A HIGH-SPEED COMMUNICATION NETWORK TO ENABLE REAL-TIME CONTROL OF A LOWER LIMB ROBOTIC EXOSKELETON. / Cordova, Andres Fabricio; Morales, Hernan; Astudillo-Salinas, Fabian et al.
En: International Journal of Innovative Computing, Information and Control, Vol. 19, N.º 1, 02.2023, p. 181-196.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - DEPLOYMENT OF A HIGH-SPEED COMMUNICATION NETWORK TO ENABLE REAL-TIME CONTROL OF A LOWER LIMB ROBOTIC EXOSKELETON

AU - Cordova, Andres Fabricio

AU - Morales, Hernan

AU - Astudillo-Salinas, Fabian

AU - Zhang, Huiyan

AU - Minchala, Luis Ismael

PY - 2023/2

Y1 - 2023/2

N2 - This paper presents a practical approach to deploying a real-time communication network applied to a hierarchical control architecture of a lower limb robotic exoskeleton. Previous experimental results of a communication network using Controller Area Network (CAN) protocol, which uses Service Data Objects (SDO) within frames of the CAN protocol, showed some disadvantages such as non-constant sampling time and data loss. These issues are completely solved by switching SDO objects to Process Data Objects (PDO) within the CAN protocol’s frame and using a non-concurrent pro-gramming methodology for deploying the control system. Experimental results show high accuracy in the repetitiveness of the sampling time, data transmission, and high precision of open-kinematics position control of the lower limb exoskeleton prototype.

AB - This paper presents a practical approach to deploying a real-time communication network applied to a hierarchical control architecture of a lower limb robotic exoskeleton. Previous experimental results of a communication network using Controller Area Network (CAN) protocol, which uses Service Data Objects (SDO) within frames of the CAN protocol, showed some disadvantages such as non-constant sampling time and data loss. These issues are completely solved by switching SDO objects to Process Data Objects (PDO) within the CAN protocol’s frame and using a non-concurrent pro-gramming methodology for deploying the control system. Experimental results show high accuracy in the repetitiveness of the sampling time, data transmission, and high precision of open-kinematics position control of the lower limb exoskeleton prototype.

KW - CAN network

KW - High-speed communications

KW - Lower limb robotic exoskeleton

KW - PDO

KW - SDO

UR - https://www.scopus.com/pages/publications/85148691082

U2 - 10.24507/ijicic.19.01.181

DO - 10.24507/ijicic.19.01.181

M3 - Artículo

AN - SCOPUS:85148691082

SN - 1349-4198

VL - 19

SP - 181

EP - 196

JO - International Journal of Innovative Computing, Information and Control

JF - International Journal of Innovative Computing, Information and Control

IS - 1

ER -

DEPLOYMENT OF A HIGH-SPEED COMMUNICATION NETWORK TO ENABLE REAL-TIME CONTROL OF A LOWER LIMB ROBOTIC EXOSKELETON

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