Eldo-Care:基于Kinect传感器的脑电图,用于残疾人和老年人的远程医疗

Sima Das , Arpan Adhikary , Asif Ali Laghari , Solanki Mitra
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引用次数: 3

摘要

如今,远程医疗系统正在成为老年人和残疾人的一个庞大的日常帮助工具。通过使用Kinect传感器,远程监控变得很容易。此外,传感器的数据对设备的进一步改进也很有用。在本文中,我们讨论了我们新开发的“Eldo-care”系统。该系统是为评估和管理各种神经系统疾病而设计的。远程医疗系统的开发是为了监测心理-神经状况。残疾人和老年人经常遇到获得基本服务的问题。如今,研究人员正专注于基于人机界面的康复技术,这种技术更接近社交情商。该研究的目标是利用机器学习技术帮助老年人和残疾人进行认知康复。人类的大脑活动是通过脑电图来观察的,而用户的运动是通过Kinect传感器来追踪的。切比雪夫滤波器用于特征提取和降噪。利用自编码器技术,基于迁移学习的卷积神经网络进行分类,准确率达到95%以上。通过实时应用建议的系统,老年人和残疾人的生活质量将得到改善。所建议的装置附着在监测对象上。
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Eldo-care: EEG with Kinect sensor based telehealthcare for the disabled and the elderly

Telehealthcare systems are nowadays becoming a massive daily helping kit for elderly and disabled people. By using the Kinect sensors, remote monitoring has become easy. Also, the sensors' data are useful for the further improvement of the device. In this paper, we have discussed our newly developed “Eldo-care” system. This system is designed for the assessment and management of diverse neurological illnesses. The telemedical system is developed to monitor the psycho-neurological condition. People with disabilities and the elderly frequently experience access issues to essential services. Researchers today are concentrating on rehabilitative technologies based on human-computer interfaces that are closer to social-emotional intelligence. The goal of the study is to help old and disabled persons with cognitive rehabilitation using machine learning techniques. Human brain activity is observed using electroencephalograms, while user movement is tracked using Kinect sensors. Chebyshev filter is used for feature extraction and noise reduction. Utilizing the autoencoder technique, categorization is carried out by a Convolutional neural network with an accuracy of 95% and higher based on transfer learning. A better quality of life for older and disabled persons will be attained through the application of the suggested system in real time. The proposed device is attached to the subject under monitoring.

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来源期刊
Neuroscience informatics
Neuroscience informatics Surgery, Radiology and Imaging, Information Systems, Neurology, Artificial Intelligence, Computer Science Applications, Signal Processing, Critical Care and Intensive Care Medicine, Health Informatics, Clinical Neurology, Pathology and Medical Technology
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审稿时长
57 days
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Editorial Board Contents Integrated analysis of lncRNA-miRNA-mRNA ceRNA network in neurodegenerative diseases Topic modeling of neuropsychiatric diseases related to gut microbiota and gut brain axis using artificial intelligence based BERTopic model on PubMed abstracts Brain network analysis in Parkinson's disease patients based on graph theory
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