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Intelligent Systems for Rehabilitation Engineering


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and defines all areas of mechanical recovery technology for novices, and captures the recent robot advances being widely used by talented scientists and clinicians. Also, a few company devices for mechanical recovery are given for a better understanding of the complete picture. The use of productive robotic methodologies promotes the recovery of motor skills. This innovation combines the outcomes of social investigations on motor learning and neurological recovery in the creation and execution of automated processes, with the approval of robot specialists who operate as ideal instructors. Human-robot collaboration assumes a leading role in creating a beneficial relationship, where the human body and the robot can benefit from each other’s components.

      – Chapter 3 highlights an effective affordable rehabilitation robot for nervous system disorders powered by dynamic convolutional neural network (CNN) and hidden Markov model (HMM). Neurological disorders are a frequent health concern of billions of individuals around the world. This condition is caused by malfunctioning of the central and peripheral nervous systems. For example, Alzheimer’s and Parkinson’s diseases are not uncommon and wreck the lives of many people. In particular, those afflicted with Parkinson’s disease have impaired movement resulting in freezing of gait (FOG). The only accessible treatment option is the artificial creation of dopamine levels. Therefore, robotic rehabilitation devices have been proposed which apply vibrations to activate muscle performance. These bracelets, bands, and chains are part of the sensors which are fixed to the patient’s body. For processing sensor signals and decision-making, CNN and HMM are used.

      – Chapter 5 discusses the use of assistive technology for those who are visually impaired. Acquiring knowledge is difficult for the blind, with Braille being the most commonly utilized technique of transferring information to them. These new forms of Braille include American Literary Braille, British Braille, Computer Braille, Literary Braille, Music Braille, and so on. Traditional Braille writing employs a slate and stylus. Other forms of Braille writers and computer software, such as voice recognition software, special computer keyboards and optical scanners, have been developed. Virtual Pencil math software, Audio Exam Player, and educational chatbots are a few examples of smart education solutions for the visually impaired. This chapter presents an overview of different rehabilitation procedures.

      – Chapter 6 discusses IoT-assisted smart devices for the blind. Since blind people face several challenges, a lot of effort has been put into making them less reliant on others to perform tasks. As a result, we conceptualized and constructed an intelligent blindfold. Also, a smart walking stick helps visually impaired people safely move around without assistance. Even though several walking sticks and aids currently exist, they do not feature run-time autonomous navigation, object detection, identification warnings, or voice and face recognition. The proposed stick combines IoT, echo location, image processing, artificial intelligence and navigation system technology to help the user avoid obstacles.

      – Chapter 7 focuses on the use of a technology that offers mobile accessibility to people with disabilities, who face numerous physical, social, and psychological problems. Inmany aspects of life, cutting-edge technologies are critically important. Mobile technology revolutionized the process of communication as well as education, business and rehabilitation. Many development platforms now have accessibility features that assist developers in designing apps by leveraging machine learning and deep learning, which benefit those with disabilities. A wide range of applications are available, but they all have advantages and disadvantages. The results of investigations may help those with disabilities find new alternatives that offer substantial assistance.

      – Chapter 9 discusses hand-talk assistive technology. For those who are deaf, enabling their ability to communicate requires creative technology. Therefore, many technologies may be employed for communication. Since their major form of communication is gestures, a non-signing individual is unable to comprehend hand motions; therefore, a sign language-to-audible voice conversion technique is required in order for a person with “normal” hearing to be able to understand what is being said. This chapter discusses the technology that allows the deaf to converse with the general population by employing special sensor gloves. As the speech-and-hearing impaired person moves, their moving hand uses sign language, and the technology will intercept the movement and transform it into sound so that the person with “normal” hearing can easily hear it. For those that are speech-and-hearing impaired, speech recognition systems using EEG signals, smart navigation systems, and data collection via the IoT are also described in this chapter.

      – Chapter 10 discusses assistive technology for hearing-impaired children. Appropriate educational services are critical for children with hearing impairment (CwHI) due to diseases or accidents. Current research reveals that using assistive technology (AT) to communicate fully with others in an inclusive educational settingis highly beneficial for these children. Assistive technology has a strong influence on integrating these children in schools. Additionally, self-motivation is another benefit of using AT for CwHI. Assistive technology is the use of any communication device used to raise, expand, or enhance the experiences of a CwHI. It promotes the concept of beautiful individuality and works toward the aim of inclusive education by helping students manage their own needs. An inclusive education model studied CwHI, and the results of many trials, methodologies, and facilities are discussed in this study. Also described are various techniques that enhance capabilities and resources to ensure that the AT can provide an inclusive classroom environment.

      The Editors November 2021

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      Different Spheres of Rehabilitation Robotics: A Brief Survey Over the Past Three Decades

       Saumyadip Hazra, Abhimanyu Kumar, Yashonidhi Srivastava and Souvik Ganguli*