A Brief Review on Robotic Exoskeletons for Upper Extremity Rehabilitation to Find the Gap between Research Porotype and Commercial Type

Islam, Rasedul; Spiewak, Christopher; Rahman, Mohammad Habibur; Fareh, Raouf

doi:10.4172/2168-9695.1000177

Cited by 68 publications

(47 citation statements)

References 75 publications

(117 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Hydraulic actuators are powered by hydraulic pressure. They can produce greater torque as compared to the electric and pneumatic actuators [11]. The system is relatively complex considering the maintenance of pressurized oil under pressure to prevent leakage.…”

Section: Actuation and Power Transmissionmentioning

confidence: 99%

“…In the last two decades, the upper-limb exoskeletons used for services and rehabilitation have attracted a lot of attention from the biomedical and engineering sectors. The technology is becoming important as a potential solution for physically weak or disabled people [11]. Systems have been developed to improve the performance and strength of the wearer, e.g., Ekos Vest [2] and FORTIS [12].…”

Section: Introductionmentioning

confidence: 99%

“…A study on the development of upper-limb hybrid exoskeletons in combination with the functional electrical stimulation (FES) was reported by Stewart et al [16], which mainly focused on post-stroke rehabilitation and patient monitoring. Islam et al [11] made a review to identify the technological gap between the commercially available robotic exoskeletons and research prototypes used for post-stroke rehabilitation. However, given the extensive studies on the upper-limb exoskeletons, very few articles have reported the exoskeleton's design addressing complex anatomical movements at the shoulder and wrist joints of the arm and hand as a whole (general hand opening and closing).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

A Review on Design of Upper Limb Exoskeletons

2020

View full text Add to dashboard Cite

Exoskeleton robotics has ushered in a new era of modern neuromuscular rehabilitation engineering and assistive technology research. The technology promises to improve the upper-limb functionalities required for performing activities of daily living. The exoskeleton technology is evolving quickly but still needs interdisciplinary research to solve technical challenges, e.g., kinematic compatibility and development of effective human–robot interaction. In this paper, the recent development in upper-limb exoskeletons is reviewed. The key challenges involved in the development of assistive exoskeletons are highlighted by comparing available solutions. This paper provides a general classification, comparisons, and overview of the mechatronic designs of upper-limb exoskeletons. In addition, a brief overview of the control modalities for upper-limb exoskeletons is also presented in this paper. A discussion on the future directions of research is included.

show abstract

Section: Actuation and Power Transmissionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

A Review on Design of Upper Limb Exoskeletons

2020

View full text Add to dashboard Cite

show abstract

“…Several upper extremity robotic rehabilitation devices have been designed since the 1990s. Some important points taken into account while designing robotic rehabilitation devices can be summarized as cheap, low mass, compactness, safe operation, easy wearing, portability, and home use [8]. Some recent upper extremity robotic rehabilitation devices can be described as follows: Mit-Manus [9], Reharob [10], Armin [11], Caden-7 [12], Medarm [13], Esa human arm exoskeleton [14], L-exos [15], Armor [16], and Sarcos Master Arm [17].…”

Section: Upper Extremity Robotic Rehabilitation Devicesmentioning

confidence: 99%

Introductory Chapter: Medical Robots in Surgery and Rehabilitation

Küçük¹

2020

Medical Robotics - New Achievements

View full text Add to dashboard Cite

“…Pneumatic and hydraulic, due to their nature, are inherently safe and compliant, thus suitable for applications involving human-robot interaction. These actuators have been widely tested in exoskeletons in the past years, however due to their power consumption, low efficiency and limited control bandwidth, they did not find great consensus [10]. On the other side, due to their ability to produce large amount of torque, their commercial availability and their intrinsic precision in controlling motion, current solutions mainly implement stiff joints actuated by electric motors.…”

Section: Mechanical Design and Actuationmentioning

confidence: 99%

Upper-Limb Exoskeletons for Stroke Rehabilitation

et al. 2019

View full text Add to dashboard Cite

Upper-limb exoskeletons provide high-intensity, repetitive, task-specific, interactive and individualized training, making effective use of neuroplasticity for functional recovery in neurological patients. Most exoskeletons have robot axes aligned with the anatomical axes of the subject and provide direct control of individual joints. Recently, novel mechanical structures and actuation mechanisms have been proposed, but still result in bulky and heavy exoskeletons, limiting their applicability into clinical practice. Technological efforts are needed to promote light and wearable exoskeletons that implement active-assistive controllers, providing "assisted-as-needed" rehabilitation therapy, towards patient's motivation and self-esteem. An overview of upper-limb exoskeletons, including mechanical design and control algorithms, will be provided. Special focus will be put on the current evidence about the efficacy of wearable robotic technologies on motor recovery and about other therapies that can be combined with exoskeletons to improve their therapeutic effects.

show abstract

A Brief Review on Robotic Exoskeletons for Upper Extremity Rehabilitation to Find the Gap between Research Porotype and Commercial Type

Cited by 68 publications

References 75 publications

A Review on Design of Upper Limb Exoskeletons

A Review on Design of Upper Limb Exoskeletons

Introductory Chapter: Medical Robots in Surgery and Rehabilitation

Upper-Limb Exoskeletons for Stroke Rehabilitation

Contact Info

Product

Resources

About