Electromagnetic Interaction Between Radio Frequency Identification and Wearable Medical Devices PDF Download
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Author: Ifeatu Benedict Akunne
Publisher:
ISBN:
Category : Medical instruments and apparatus
Languages : en
Pages : 98
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Book Description
Author: Ifeatu Benedict Akunne
Publisher:
ISBN:
Category : Medical instruments and apparatus
Languages : en
Pages : 98
Get Book Here
Book Description
Author: Douglas H. Werner
Publisher: John Wiley & Sons
ISBN: 1119083001
Category : Science
Languages : en
Pages : 644
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Book Description
The book is a comprehensive treatment of the field, covering fundamental theoretical principles and new technological advancements, state-of-the-art device design, and reviewing examples encompassing a wide range of related sub-areas. In particular, the first area focuses on the recent development of novel wearable and implantable antenna concepts and designs including metamaterial-based wearable antennas, microwave circuit integrated wearable filtering antennas, and textile and/or fabric material enabled wearable antennas. The second set of topics covers advanced wireless propagation and the associated statistical models for on-body, in-body, and off-body modes. Other sub-areas such as efficient numerical human body modeling techniques, artificial phantom synthesis and fabrication, as well as low-power RF integrated circuits and related sensor technology are also discussed. These topics have been carefully selected for their transformational impact on the next generation of body-area network systems and beyond.
Author: Haider Raad
Publisher: John Wiley & Sons
ISBN: 1119617537
Category : Technology & Engineering
Languages : en
Pages : 304
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Book Description
Explore this indispensable guide covering the fundamentals of IOT and wearable devices from a leading voice in the field Fundamentals of IoT and Wearable Technology Design delivers a comprehensive exploration of the foundations of the Internet of Things (IoT) and wearable technology. Throughout the textbook, the focus is on IoT and wearable technology and their applications, including mobile health, environment, home automation, and smart living. Readers will learn about the most recent developments in the design and prototyping of these devices. This interdisciplinary work combines technical concepts from electrical, mechanical, biomedical, computer, and industrial engineering, all of which are used in the design and manufacture of IoT and wearable devices. Fundamentals of IoT and Wearable Technology Design thoroughly investigates the foundational characteristics, architectural aspects, and practical considerations, while offering readers detailed and systematic design and prototyping processes of typical use cases representing IoT and wearable technology. Later chapters discuss crucial issues, including PCB design, cloud and edge topologies, privacy and health concerns, and regulatory policies. Readers will also benefit from the inclusion of: A thorough introduction to the applications of IoT and wearable technology, including biomedicine and healthcare, fitness and wellbeing, sports, home automation, and more Discussions of wearable components and technologies, including microcontrollers and microprocessors, sensors, actuators and communication modules An exploration of the characteristics and basics of the communication protocols and technologies used in IoT and wearable devices An overview of the most important security challenges, threats, attacks and vulnerabilities faced by IoT and wearable devices along with potential solutions Perfect for research and development scientists working in the wearable technology and Internet of Things spaces, Fundamentals of IoT and Wearable Technology Design will also earn a place in the libraries of undergraduate and graduate students studying wearable technology and IoT, as well as professors and practicing technologists in the area.
Author: Debdeep Sarkar
Publisher: Springer Nature
ISBN: 9811916306
Category : Technology & Engineering
Languages : en
Pages : 91
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Book Description
This book presents a detailed analytical and computational electromagnetic (CEM) treatment of guided electromagnetic (EM) wave propagation in independently time-varying dielectric medium, using the finite-difference time-domain (FDTD) simulation technique. The contents provide an extensive literature review, explaining the importance of time-varying media (temporal photonic crystals) in new exotic applications that involve rich EM phenomena such as parametric amplification, frequency conversion, non-reciprocal gain, electromagnetic energy accumulation, temporal coating and temporal aiming (beam-forming). A one-dimensional (1D) FDTD simulation paradigm is then formulated in this book, starting from Maxwell's equations and boundary conditions. The issues of hard/soft source realizations, perfectly matched layers (PMLs), choice of simulation parameters (cell-size and time-stepping) are thoroughly explained through new visualization tools. This book provides a unique combination of rigorous analytical techniques, several FDTD simulation examples with reproducible source-codes, and new visualization/post-processing mechanisms. The contents of this book should prove to be useful for students, research scholars, scientists and engineers, working in the field of applied electromagnetics, and aiming to design cutting-edge microwave/optical devices based on time-varying medium.
Author: Fouad Sabry
Publisher: One Billion Knowledgeable
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 359
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Book Description
What Is Radio Frequency Identification Radio-frequency identification, sometimes known as RFID, is a technology that makes use of electromagnetic fields in order to automatically identify and track tags that are affixed to things. A radio receiver, a radio transmitter, and a very small radio transponder make up the components of an RFID system. The RFID tag will send digital data, often an identifying inventory number, back to the reader when it is activated by an electromagnetic interrogation pulse from a nearby RFID reader device. This number may be used to keep track of the commodities in inventory. How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: Radio-frequency identification Chapter 2: Electronic Product Code Chapter 3: EZ TAG Chapter 4: Microchip implant (animal) Chapter 5: ISO 11784 and ISO 11785 Chapter 6: Ear tag Chapter 7: Tracking system Chapter 8: Contactless smart card Chapter 9: Clipped tag Chapter 10: Chip timing Chapter 11: Smart label Chapter 12: Wireless identity theft Chapter 13: Deister Electronics Chapter 14: Wireless identification and sensing platform Chapter 15: Omni-ID Chapter 16: Real-time locating system Chapter 17: Microchip implant (human) Chapter 18: Impinj Chapter 19: Chipless RFID Chapter 20: Radio-frequency identification in schools Chapter 21: Dynamic Intelligent Currency Encryption (II) Answering the public top questions about radio frequency identification. (III) Real world examples for the usage of radio frequency identification in many fields. (IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of radio frequency identification' technologies. Who This Book Is For Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of radio frequency identification.
Author: Daniel Filippini
Publisher: Springer Science & Business Media
ISBN: 3642346480
Category : Science
Languages : en
Pages : 429
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Book Description
This volume surveys recent research on autonomous sensor networks from the perspective of enabling technologies that support medical, environmental and military applications. State of the art, as well as emerging concepts in wireless sensor networks, body area networks and ambient assisted living introduce the reader to the field, while subsequent chapters deal in depth with established and related technologies, which render their implementation possible. These range from smart textiles and printed electronic devices to implanted devices and specialized packaging, including the most relevant technological features. The last four chapters are devoted to customization, implementation difficulties and outlook for these technologies in specific applications.
Author: Qammer H. Abbasi
Publisher: MDPI
ISBN: 3039284428
Category : Science
Languages : en
Pages : 176
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Book Description
With the growing interest in the use of technology in daily life, the potential for using wearable wireless devices across multiple segments, e.g., healthcare, sports, child monitoring, military, emergency, consumer electronics, etc., is rapidly increasing. Multibillion wearable sensors are predicted to be in use by 2025, with over 30% of them being new types of sensors that are only beginning to emerge. This book will focus on wireless wearable and implantable systems, flexible textile-based electronics, bio-electromagnetics, antennas and propagation, radio frequency (RF) circuits, sensors, security of wearables and implantable systems, nano-bio communication, and electromagnetic sensing
Author: Roy Want
Publisher: Morgan & Claypool Publishers
ISBN: 1598291084
Category : RFID
Languages : en
Pages : 95
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Book Description
Introduction -- Principles of radio frequency identification -- RFID industry standards -- Reading collected RFID tags -- Applications of RFID tagging -- RFID incorporating sensing -- Deployment and experience with RFID systems -- Privacy, kill switches, and blocker tags -- Opportunities for RFID integrated with memory -- Challenges, future technology, and conclusion.
Author: Shrenik Ashwin Vora
Publisher:
ISBN:
Category : Biomedical engineering
Languages : en
Pages : 390
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Book Description
Wearable health monitoring devices are becoming increasingly ubiquitous in clinical settings and even in monitoring daily activities. This recent spurt in wearable devices has been made possible through the development of low power electronics, small footprint components and efficient data transmission methods. The next big step in making monitoring devices more 'wearable' is the elimination of batteries. Without the need to replace and recharge batteries, monitoring can be uninterrupted and the monitoring device itself can be seamlessly integrated into garments. However, to achieve this goal, merely reducing sensor power consumption is not enough. There is a need for unconventional methods of health monitoring. par In this work, a novel passive Radio Frequency Identification (RFID) based method for transmitting health parameters wirelessly and without batteries is described. The dissertation proposes an innovative method of transmitting health parameter data by simply turning RFID tags on and off. Technology for RFID based continuous monitoring that include a wireless power harvester and low-power circuits for amplification and health parameter detection are developed in this research. The dissertation includes practical applications of the technology that are demonstrated using heart rate and uterine contraction monitoring as examples. Empirical tests for characterizing the heart rate monitoring system are also conducted. The heart rate monitoring technology is validated with human testing which showed a correlation of over 99% between actual and detected heart rate data.
Author: Pankajavalli, P. B.
Publisher: IGI Global
ISBN: 1799810917
Category : Medical
Languages : en
Pages : 288
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Book Description
The internet of things (IoT) has had a major impact on academic and industrial fields. Applying these technologies to healthcare systems reduces medical costs while enriching the patient-centric approach to medicine, allowing for better overall healthcare proficiency. However, usage of IoT in healthcare is still suffering from significant challenges with respect to the cost and accuracy of medical sensors, non-standard IoT system architectures, assorted wearable devices, the huge volume of generated data, and interoperability issues. Incorporating the Internet of Things in Healthcare Applications and Wearable Devices is an essential publication that examines existing challenges and provides solutions for building smart healthcare systems with the latest IoT-enabled technology and addresses how IoT improves the proficiency of healthcare with respect to wireless sensor networks. While highlighting topics including mobility management, sensor integration, and data analytics, this book is ideally designed for computer scientists, bioinformatics analysts, doctors, nurses, hospital executives, medical students, IT specialists, software developers, computer engineers, industry professionals, academicians, researchers, and students seeking current research on how these emerging wireless technologies improve efficiency within the healthcare domain.
