Artificial intelligence‐based wearable robotic exoskeletons for upper limb rehabilitation: A review

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Abstract

Processing and control systems based on artificial intelligence (AI) have progressively improved mobile robotic exoskeletons used in upper‐limb motor rehabilitation. This systematic review presents the advances and trends of those technologies. A literature search was performed in Sco-pus, IEEE Xplore, Web of Science, and PubMed using the PRISMA (Preferred Reporting Items for Systematic Reviews and Meta‐Analyses) methodology with three main inclusion criteria: (a) motor or neuromotor rehabilitation for upper limbs, (b) mobile robotic exoskeletons, and (c) AI. The period under investigation spanned from 2016 to 2020, resulting in 30 articles that met the criteria. The literature showed the use of artificial neural networks (40%), adaptive algorithms (20%), and other mixed AI techniques (40%). Additionally, it was found that in only 16% of the articles, developments focused on neuromotor rehabilitation. The main trend in the research is the development of wearable robotic exoskeletons (53%) and the fusion of data collected from multiple sensors that enrich the training of intelligent algorithms. There is a latent need to develop more reliable systems through clinical validation and improvement of technical characteristics, such as weight/dimensions of de-vices, in order to have positive impacts on the rehabilitation process and improve the interactions among patients, teams of health professionals, and technology.

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Vélez‐guerrero, M. A., Callejas‐cuervo, M., & Mazzoleni, S. (2021, March 2). Artificial intelligence‐based wearable robotic exoskeletons for upper limb rehabilitation: A review. Sensors. MDPI AG. https://doi.org/10.3390/s21062146

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