Download Free Artificial Intelligence Iot And Blockchain For Rehabilitation Sciences Book in PDF and EPUB Free Download. You can read online Artificial Intelligence Iot And Blockchain For Rehabilitation Sciences and write the review.

This book traces the Utilities of AI, IoT and Blochchain in contemporary issues. It analyses how AI and IoT is primarily being driven by "Reshaping Technological Perspectives" as the only "factor of Applications" and its consequences for the global educational development. Artificial Intelligence (AI), IoT & Blockchain Technology refers to the development of computer systems or machines that can perform tasks that typically require human intelligence. This book presents both theoretical foundations of AI and an indication of the ways that current techniques can be used in application programs. With the revision, most of the content has been preserved as it is, and an effort has been put in on adding new topics that are in sync with the recent developments in this rehabilitation field. A tract for the times, this edition will be a major intervention in rehabilitation sector that is heavily debated but rarely understood.
"Transforming Learning: The Power of Educational Technology" delves into the dynamic landscape of modern education driven by technological advancements. This book explores how digital tools, from interactive software and virtual classrooms to AI-driven learning platforms, are reshaping traditional teaching methods. It examines the potential of educational technology to enhance student engagement, personalize learning experiences, and improve outcomes. The book provides insights into successful implementations of technology in diverse educational settings and offers practical strategies for educators and policymakers to effectively integrate these tools. Through case studies and expert analysis, it highlights the transformative impact of technology on education's future.
Ethical Frameworks in Special Education: A Guide for Researchers is an essential edited volume that navigates the complex ethical landscape of special education research. This guide provides a comprehensive overview of ethical principles and considerations unique to the field, emphasizing the importance of respecting the rights and dignity of individuals with disabilities. Each chapter offers practical insights and case studies, addressing topics such as informed consent, confidentiality, and the balancing of risks and benefits. The book is an invaluable resource for researchers committed to conducting ethical, responsible, and impactful studies that advance knowledge and practice in special education.
About the Book The book provides details of applying intelligent mining techniques for extracting and pre-processing medical data from various sources, for application-based healthcare research. Moreover, different datasets are used, thereby exploring real-world case studies related to medical informatics. This book would provide insight to the learners about Machine Learning, Data Analytics, and Sustainable Computing. Salient Features of the Book Exhaustive coverage of Data Analysis using R Real-life healthcare models for: Visually Impaired Disease Diagnosis and Treatment options Applications of Big Data and Deep Learning in Healthcare Drug Discovery Complete guide to learn the knowledge discovery process, build versatile real life healthcare applications Compare and analyze recent healthcare technologies and trends Target Audience This book is mainly targeted at researchers, undergraduate, postgraduate students, academicians, and scholars working in the area of data science and its application to health sciences. Also, the book is beneficial for engineers who are engaged in developing actual healthcare solutions.
Handbook of Research on Blockchain Technology presents the latest information on the adaptation and implementation of Blockchain technologies in real world business, scientific, healthcare and biomedical applications. The book's editors present the rapid advancements in existing business models by applying Blockchain techniques. Novel architectural solutions in the deployment of Blockchain comprise the core aspects of this book. Several use cases with IoT, biomedical engineering, and smart cities are also incorporated. As Blockchain is a relatively new technology that exploits decentralized networks and is used in many sectors for reliable, cost-effective and rapid business transactions, this book is a welcomed addition on existing knowledge. Financial services, retail, insurance, logistics, supply chain, public sectors and biomedical industries are now investing in Blockchain research and technologies for their business growth. Blockchain prevents double spending in financial transactions without the need of a trusted authority or central server. It is a decentralized ledger platform that facilitates verifiable transactions between parties in a secure and smart way. - Presents the evolution of blockchain, from fundamental theories, to present forms - Explains the concepts of blockchain related to cloud/edge computing, smart healthcare, smart cities and Internet of Things (IoT) - Provides complete coverage of the various tools, platforms and techniques used in blockchain - Explores smart contract tools and consensus algorithms - Covers a variety of applications with real world case studies in areas such as biomedical engineering, supply chain management, and tracking of goods and delivery
There is no doubt that there has been much excitement regarding the pioneering contributions of artificial intelligence (AI), the internet of things (IoT), and blockchain technologies and tools in visualizing and realizing smarter as well as sophisticated systems and services. However, researchers are being bombarded with various machine and deep learning algorithms, which are categorized as a part and parcel of the enigmatic AI discipline. The knowledge discovered gets disseminated to actuators and other concerned systems in order to empower them to intelligently plan and insightfully execute appropriate tasks with clarity and confidence. The IoT processes in conjunction with the AI algorithms and blockchain technology are bound to lay out a stimulating foundation for producing and sustaining smarter systems for society. Advancing Smarter and More Secure Industrial Applications Using AI, IoT, and Blockchain Technology articulates and accentuates various AI algorithms, fresh innovations in the IoT, and blockchain spaces. The domain of transforming raw data to information and to relevant knowledge is gaining prominence with the availability of data ingestion, processing, mining, analytics algorithms, platforms, frameworks, and other accelerators. Covering topics such as blockchain applications, Industry 4.0, and cryptography, this book serves as a comprehensive guide for AI researchers, faculty members, IT professionals, academicians, students, researchers, and industry professionals.
In recent years, the application of Artificial Intelligence (AI) and Internet of Things (IoT) technologies in smart healthcare has been increasing. We are approaching a world where connected smart devices tell people when they need to visit a doctor because these devices will be able to detect health problems and discover symptoms of illness that may need medical care. AI-collaborative IoT technologies can help medical professionals with decision-making. These technologies can also help develop a sustainable and smart healthcare system. AI and IoT Technology and Applications for Smart Healthcare Systems helps readers understand complex scientific topics in a simple and accessible way. It introduces the world of AI-collaborative IoT physics, explaining how this technology behaves at the smallest level and how this can revolutionize healthcare. The book shows how IoT technology and AI can work together to make computers more powerful and capable of solving complex problems in the healthcare sector. Exploring the effect of AI-collaborative technology on IoT technologies, the book discusses how IoT can benefit from AI algorithms to enable machines to learn, make decisions, and process information more efficiently. Because smart machines create more perceptive devices and systems, the application of this technology raises important ethical questions about privacy, security, and the responsible development of healthcare IoT technology, which this book covers. The book also provides insight into the potential applications of these technologies not only in the healthcare industry but also in related fields, such as smart transportation, smart manufacturing, and smart cities.
Modern Intervention Tools for Rehabilitation addresses current advancements in rehabilitation to better equip clinicians and researchers in the field. This resource will equip professionals for better patient outcomes and improve future rehabilitation research quality. An interdisciplinary understanding of the rehabilitation field is crucial for improved patient care and outcomes, with relevance to patient care in other disciplines as well. With chapters dedicated to diagnostics, choosing appropriate techniques, managing medical treatment, and proper equipment care, readers will be well-equipped to decide on protocols, increase patient outcomes, and improve quality of life. - Discusses experimental results and evidence related to modern intervention tools and techniques for re-education and rehabilitation - Outlines conventional and recent advancement approaches - Features individual chapter introductions and summaries to provide a comprehensive introduction - Describes future perspectives in the field
In the discipline of healthcare informatics, the study of how data relevant to healthcare may be obtained, transmitted, processed, stored, and retrieved is known as the study of how data can be gathered, transferred, processed, stored, and retrieved. In this area of study, early sickness prevention, early illness detection, early illness diagnosis, and early illness therapy are all crucial components. In the subject of healthcare informatics, the only types of data that are considered trustworthy are those that belong to illnesses, patient histories, and the computer operations that are required in order to analyze this data. Conventional medical practices all across the United States have made significant investments in cutting-edge technology and computational infrastructure over the course of the previous two decades in order to improve their potential to support academic institutions, medical experts, and patients. There has been a large investment of resources made in order to increase the quality of medical care that can be provided by utilizing a variety of different options, and this improvement has been made possible as a result of the expenditure. The impetus for all of these numerous programs was the overriding objective of giving patients with access to healthcare that is not only reasonably priced and of excellent quality, but also completely and wholly free of any and all fear. This goal was the driving force behind all of these many programs. As a direct result of these efforts, the benefits and usefulness of applying computational tools to help with referrals and prescriptions, to set up and manage electronic health records (EHR), and to make technical advancements in digital medical imaging have become more obvious. This is particularly the case with regard to electronic health records (EHR), which are becoming increasingly prevalent. This is a direct consequence of the fact that the benefits of utilizing computational tools have been more readily apparent in recent times. With the aid of these technologies, electronic health records (EHR) are something that can be set up and managed.
In the ever-changing world of engineering, the confluence of Augmented Reality (AR) and Virtual Reality (VR) promises a revolutionary frontier; one that has the potential to remodel the fundamental fabric of our designed world. As our society approaches the genesis of a new age, the need for the study of this bourgeoning technology becomes clear. If harnessed properly, AR and VR have the capacity to revolutionize basic aspects of engineering methods. The combination of AR and VR can tackle the rising difficulties that engineers encounter in their design processes by providing improved tools for visualization and conceptualization. Navigating the Augmented and Virtual Frontiers in Engineering, is a thorough examination of the transformational impact of AR and VR in the vast field of engineering. This book explores the fundamental concepts, practical applications, and significant consequences of incorporating AR and VR technology into numerous engineering disciplines. It provides a comprehensive knowledge of how these immersive technologies are used in design processes, training simulations, maintenance procedures, and collaborative engineering projects. Covering topics such as asset management, geographic analysis, and sustainability, this book is an excellent resource for engineers, researchers, technological developers, postgraduate students, educators, academicians, and more.