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Advanced Healthcare Systems. Группа авторовЧитать онлайн книгу.

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of Things in Remote-Based Healthcare Applications,” Dr. V. Arulkumar, D. Mansoor Hussain, S. Sridhar, and Dr. P. Vivekananda present the information necessary to reap the benefits of research capacity solutions through AI techniques. Healthcare services are among the applications enabled by the IoT. Advanced sensors may be used to monitor the health of permanent patients or may be inserted into the bodies of patients that can analyze, combine and prioritize the information gathered. Working with algorithms helps doctors change treatments and, at the same time, helps to economize on healthcare.

       • In Chapter 13, “Use of Machine Learning in Healthcare,” V. Lakshman Narayana, R. S. M. Lakshmi Patibandla, B. Tarakeswara Rao and Arepalli Peda Gopi focus on AI-assisted healthcare. Quotient Health has developed a program designed to reduce the cost of EMR structures by strengthening and standardizing the structuring of these frames. This chapter discusses healthcare AI, various implementations of AI, certifiable healthcare benefits, the morality of AI computations and opportunities to improve quality of healthcare skills.

       • In Chapter 14, “Methods of MRI Brain Tumor Segmentation,” Amit Verma discusses the requirements for and importance of using MRI imaging in brain tumor segmentation and the basic methods of doing it. Furthermore, a region-based generative model with weighted aggregation methods for performing brain tumor segmentation using MRI images is also discussed.

       • In Chapter 15, “Early Detection of Type 2 Diabetes Mellitus Using a Deep Neural Network-Based Model,” Varun Sapra and Luxmi Sapra focus on implementing a deep neural network for early identification of diabetes mellitus. For this purpose, benchmark dataset available on the UCI Machine Learning Repository and Kaggle are explored. This chapter suggests a deep neural network-based framework for early detection of disease that can be used as an adjunct tool in clinical practices.

       • In Chapter 16, “A Comparative Analysis of Implementation Framework for Masked Face Detection,” Pranjali Singh, Amitesh Garg and Amritpal Singh discuss quick and accurate approaches for the difficult task of face recognition resulting from certain facial features being hidden by the masks used during the current pandemic. This study uses deep learning-related techniques to resolve the issues of detecting facial features hidden by a mask. Another method of face mask detection is through TensorFlow, YOLOv5, SSDMNV2, SVMs, OpenCV, and Keras. The first step is to discard the masked face region. Next, a pre-trained deep convolutional neural network (CNN) is applied to extract the best features from the obtained regions. Labeled image data is used to train the CNN model. With 98.7% accuracy, a face mask is identified by the proposed system. By using the SVM classifier, the dataset of RMFD had a testing accuracy of 99.64%, SMFD achieved a 99.49% testing accuracy, and LFW achieved 100% testing accuracy. The SSDMNV2 approach used in the study in this chapter yields a 92.64% accuracy score and a 93% F1 score.

       • In Chapter 17, “IoT-Based Automated Healthcare System,” Dr. Darpan Anand and Mr. Ashish Kumar give an overview of the SDN and NFV types of sensors used in IoT devices. Apart from that, the views of various researchers are also given. The challenges of an SDN-based IoT device for healthcare architecture are also discussed.

      The topic of intelligent IoT for advanced healthcare system(s) is so diversified that it cannot be covered in a single book. However, with the encouraging research contributed by the researchers in this book, we (contributors), editorial board members, and reviewers tried to sum up the latest research domains, developments in the data analytics field, and other applicable areas. First and foremost, we express our heartfelt appreciation to all the authors. We thank them all for considering and trusting this edited book as the platform for publishing their valuable work, and for for the kind co-operation extended by them during the various stages of processing this manuscript. We hope this book will serve as a motivating factor for those researchers who have spent years working as crime analysts, data analysts, statisticians, and budding researchers.

       Dr. Rohit Tanwar

      School of Computer Science,

      University of Petroleum and Energy Studies, Dehradun, India

       Dr. S. Balamurugan

      Director of Research and Development,

      Intelligent Research Consultancy Service (iRCS), Coimbatore, India

       Dr. Rakesh Kumai Saini

      School of Computing, DIT University, Dehradun, India

       Dr. Vishal Bharti

      School of Computing, DIT University, Dehradun, India

       Dr. Premkumar Chithaluru

      School of Computer Science,

      University of Petroleum and Energy Studies, Dehradun, India

      Internet of Medical Things—State-of-the-Art

       Kishor Joshi1 and Ruchi Mehrotra2*

       1Mahavir Heart Hospital, Patna, India

       2University of Petroleum & Energy Studies, Dehradun, India

       Abstract

      Technological innovations have helped in early diagnosis and disease management, thereby preventing long-term complications of various diseases which contribute to morbidity and mortality. Internet of Things used in the healthcare industry and is the Internet of Medical Things (IoMT). The chapter compiles seminal research about IoMT. The paper elaborates the growth of the IoMT market in the last decade from in-hospital and clinics and having reached to home segment as well. With every second, 127 IoT devices adding in the market, and by 2021, it is expected that 35 billion devices will be connected to web, and by 2026, this market will touch almost one trillion US dollars. There are virtual clinics and telehealth for remote monitoring of patients both in rural areas and even where immediate access to clinicians by severely sick patients is always needed like cardiac and obstetric care. There is personal emergency response system (PERS) becoming highly popular in case of chronic critical diseases and is life-saving. The paper covers latest technological advancements for the on-body segment like the consumer health wearables. The traditional approach in healthcare being more personalized and touch-based system is not replaceable for diagnosis. The old-age, chronically ill patients need remote monitoring and medial management services that ensure the nurses or local healthcare assistants connect to doctors in urban or super-speciality fields for better services. The conclusion indicates that there is already a steep rise in IoMT products, but there is still a huge potential for growth in the IoMT industry.

      Keywords: Technology, innovations, healthcare, mortality, diagnosis


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