2021
DOI: 10.1109/access.2021.3083093
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AI and IoT-Enabled Smart Exoskeleton System for Rehabilitation of Paralyzed People in Connected Communities

Abstract: In recent years, the number of cases of spinal cord injuries, stroke and other nervous impairments have led to an increase in the number of paralyzed patients worldwide. Rehabilitation that can aid and enhance the lives of such patients is the need of the hour. Exoskeletons have been found as one of the popular means of rehabilitation. The existing exoskeletons use techniques that impose limitations on adaptability, instant response and continuous control. Also most of them are expensive, bulky, and requires h… Show more

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Cited by 27 publications
(8 citation statements)
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“…The paper of Jacob et al [ 13 ] presents an artificial intelligence-powered smart and light weight exoskeleton system (AI-IoT-SES), which receives data from various sensors, classifies them intelligently, and generates the desired commands via IoT for rendering rehabilitation and support, with the help of caretakers, for paralyzed patients in smart and connected communities. The navigation module uses AI-and IoT-enabled simultaneous localization and mapping.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The paper of Jacob et al [ 13 ] presents an artificial intelligence-powered smart and light weight exoskeleton system (AI-IoT-SES), which receives data from various sensors, classifies them intelligently, and generates the desired commands via IoT for rendering rehabilitation and support, with the help of caretakers, for paralyzed patients in smart and connected communities. The navigation module uses AI-and IoT-enabled simultaneous localization and mapping.…”
Section: Resultsmentioning
confidence: 99%
“…When applied to AT, AIoT allows the conception of an array of disruptive solutions to address the disability issue. Some examples of such solutions are navigation systems for blind people, voice assistants for people with disabilities [ 8 ], the remote monitoring of health conditions [ 9 ], telemedicine and telehealth [ 10 ], communication systems based on sign language [ 11 ], auxiliary memory for people with cognitive disabilities, and a series of smart objects such as medicine dispensers, wheelchairs [ 12 ], exoskeletons [ 13 ], etc. These are some of the numerous applications of great value for those in need, quoting Mary Pat Radabaugh (the former director of IBM’s National Support Center for People with Disabilities in 1988) “For people without disabilities, technology makes life easier.…”
Section: Introductionmentioning
confidence: 99%
“…AI‐powered exoskeletons are revolutionizing the experiences of individuals with mobility impairments and those in physically demanding occupations. These wearable robotic systems enhance human strength and endurance, enabling people with disabilities or injuries to perform activities that were once challenging or impossible (Jacob et al., 2021; Vélez‐guerrero et al., 2021). In industrial settings, they mitigate the risk of injury and fatigue, thereby enhancing safety and productivity.…”
Section: Introductionmentioning
confidence: 99%
“…In addition, this technology can also usually be applied to various fields such as; Sentiment Analysis [41]- [43], Big Data [44]- [46], Blockchain [47]- [51], and the Internet of Things (IoT) [52]- [54] AI drop is divided into categories like Machine Learning or ML [55]- [57] ML can be exploited like a workhorse of AI, and the intensive use of ML uses methods that can be found everywhere, almost in a large number of sciences, businesses, and engineering, which are more based on actual decision making [58]. Machine learning can be shared into several types: unsupervised, supervised, semi-supervised, and reinforcing learning (RL).…”
Section: Introductionmentioning
confidence: 99%