Design of a modular distributed control system for robotic exoskeletons

Abstract: In this paper a modular distributed control architecture for robotic exoskeletons is presented. On a research environment, an exoskeleton can be used for experimental studies on several fields, such as motor control, assistive technologies or ergonomics. However, robotic exoskeletons are usually very expensive and time demanding to build, leading to a limited number of existing prototypes. A modular open system may enable the use of a single exoskeleton device for different several simultaneous researches lead… Show more

“…However, at the moment, the number of these devices available on the market is quite limited, meaning that very few people have access to these technologies. The lack of easily integrable resources results in a high cost and a long time-to-market development for rehabilitation and assistive devices [22]. These challenges can be addressed by the use of smart actuators, which are able to perform as independent actuation modules.…”

SMARCOS: Off-the-Shelf Smart Compliant Actuators for Human–Robot Applications

“…However, at the moment, the number of these devices available on the market is quite limited, meaning that very few people have access to these technologies. The lack of easily integrable resources results in a high cost and a long time-to-market development for rehabilitation and assistive devices [22]. These challenges can be addressed by the use of smart actuators, which are able to perform as independent actuation modules.…”

SMARCOS: Off-the-Shelf Smart Compliant Actuators for Human–Robot Applications

Real-time physical layer architecture for CORBYS gait rehabilitation robot