Wireless Power Technologies for Biomedical Devices (生物醫學裝置的無線電力技術)

Das, Rupam, Heidari, Hadi

  • 出版商: Springer
  • 出版日期: 2024-11-29
  • 售價: $4,800
  • 貴賓價: 9.5$4,560
  • 語言: 英文
  • 頁數: 236
  • 裝訂: Hardcover - also called cloth, retail trade, or trade
  • ISBN: 3031528336
  • ISBN-13: 9783031528330
  • 海外代購書籍(需單獨結帳)

相關主題

商品描述

Discover ground-breaking advancements in wireless biomedical device technology with our comprehensive book, which delves into the latest innovations revolutionizing Healthcare

Chapter 1 introduces wireless power transfer (WPT) techniques, offering a solution to the frequent battery replacements required by cardiovascular implantable medical devices (cIMDs). Explore how WPT holds the promise of long-term functionality for these life-saving devices, ushering in an era of more efficient and convenient healthcare solutions.

In Chapter 2, explore the world of energy harvesting for cardiovascular implants. From Triboelectric Nanogenerators (TENG) to Biofuel cells, discover how self-powering devices are reshaping the landscape of cardiovascular healthcare, reducing the need for battery replacements, and enhancing patient convenience.

Chapter 3 unveils the potential of magnetoelectric composites in wireless power transfer for biomedical applications, while Chapter 4 sheds light on the competency of Triboelectric Nanogenerators in wireless device applications, offering a sustainable alternative to traditional batteries.

Chapter 5 showcases the promise of photovoltaic energy scavenging for implantable medical devices, highlighting its potential to revolutionize healthcare with higher-power conversion efficiencies and smaller form factors.

Explore the realm of ultrasound-based wireless powering technologies in Chapter 6, offering insights into the physics of acoustic powering and the design considerations for ultrasonically powered devices.

Chapter 7 ventures into the realm of smart contact lenses, discussing their transformative potential in healthcare, augmented reality, and personalized computing.

In Chapter 8, dive into the research gap for Single Input, Single-Output (SISO) state-of-the-art biomedical devices, exploring the challenges and opportunities in charge pump converters and multi-output converters.

Finally, Chapter 9 explores power management integrated circuits for implantable devices, focusing on energy efficiency and optimal power usage to prolong device life and minimize power loss.

With contributions from leading experts in the field, this book is an indispensable resource for researchers, engineers, and healthcare professionals alike, shaping the future of implantable medical devices and advancing patient care worldwide.

商品描述(中文翻譯)

探索無線生物醫療設備技術的突破性進展,透過我們的綜合書籍,深入了解最新的創新,這些創新正在徹底改變醫療保健。

第一章介紹無線電力傳輸(WPT)技術,提供解決心血管植入醫療設備(cIMDs)頻繁更換電池的方案。探索WPT如何為這些救命設備帶來長期功能的承諾,開創更高效、更便捷的醫療解決方案時代。

在第二章中,探索心血管植入物的能量收集世界。從摩擦電納米發電機(TENG)到生物燃料電池,了解自供電設備如何重塑心血管醫療的格局,減少更換電池的需求,並提升病人的便利性。

第三章揭示了磁電複合材料在生物醫療應用中無線電力傳輸的潛力,而第四章則闡明了摩擦電納米發電機在無線設備應用中的能力,提供傳統電池的可持續替代方案。

第五章展示了光伏能量回收在植入醫療設備中的潛力,強調其以更高的能量轉換效率和更小的形狀因子徹底改變醫療保健的潛力。

在第六章中,探索基於超聲波的無線供電技術,提供有關聲學供電物理學和超聲波供電設備設計考量的見解。

第七章進入智慧隱形眼鏡的領域,討論其在醫療保健、擴增實境和個人計算中的變革潛力。

在第八章中,深入探討單輸入單輸出(SISO)尖端生物醫療設備的研究空白,探索充電泵轉換器和多輸出轉換器中的挑戰與機會。

最後,第九章探討植入設備的電源管理集成電路,專注於能量效率和最佳電力使用,以延長設備壽命並最小化能量損失。

本書匯集了該領域的領先專家,是研究人員、工程師和醫療專業人員不可或缺的資源,塑造植入醫療設備的未來,推進全球病人護理。

作者簡介

Dr Rupam Das is a Lecturer at the Electronic Engineering, University of Exeter, Streatham, UK. He is part of the Nano Engineering Science and Technology (NEST) and the Centre for Metamaterial Research and Innovation (CMRI). Prior joining this position, he was a Marie Curie Fellow (EU H2020 MSCA-IF: Wireless, Scalable and Implantable Optogenetics for Neurological Disorders Cure (WiseCure) at the Microelectronics Lab (meLAB), University of Glasgow. This Fellowship focused on developing the wireless optogenetic systems based on metamaterials to treat brain diseases. He also worked as a Research Associate in multi-million EU H2020 FET-Proactive "HERMES" project in Glasgow, where he was developing the flexible neural implant to treat epilepsy. Before moving to the UK, he was a BK'21 Postdoctoral Fellow at the University of Ulsan and Hanyang University at the Applied Bioelectronics Lab (ABLab). Rupam is an IEEE senior member and served as a guest editor in Royal Society of Philosophical Transaction A. He was also the local organizer of ICECS 2020 and session chair committee member for ICECS 2022. He is currently appointed as a committee member for Royal Society international Exchange and associate editor of IEEE Transactions of Biomedical Circuits and Systems.

Dr Hadi Heidari (PhD, SMIEEE, FHEA) is a Professor (Senior Lecturer) in the James Watt School of Engineering at the University of Glasgow, United Kingdom. His Microelectronics Lab (meLAB) conducts pioneering research on integrated microelectronics design and magnetoelectronics device technologies. In 2021, he founded Neuranics that is building next-generation magnetic sensors for neural interfaces. He holds a Royal Society of Edinburgh Saltire Fellowship. Dr Heidari has authored/co-authored over 200 peer-reviewed publications in top-tier journals or conference proceedings and acts as a reviewer for several journals and conferences. He has been the recipient of several awards, including the 2020 IET Healthcare Technologies Early Career JA Lodge Award, 2019 IEEE Sensors Council Young Professional Award. Dr Heidari is a Senior Member of IEEE and Fellow of Higher Education Academy (FHEA). He is a member of the IEEE Sensors Council Member-at-Large (2020-21 & 2022-23) and was IEEE Circuits and Systems Society Board of Governors (2018-20). He is Associate Editor-in-Cheif of IEEE Journal on Emerging and Selected Topics in Circuits and Systems (JETCAS) and serves on the editorial board of several journals, including IEEE Transactions on Biomedical Circuits and Systems, Microelectronics Journal, IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, IEEE Access, IEEE Sensors Journal, and Frontiers in Neuroscience. He was the General Chair of 27th IEEE ICECS 2020 in Glasgow, Technical Program Chair of IEEE PRIME'19, and serves on the organizing committee of several conferences, including the UK Circuits and Systems Workshop (UKCAS), UK-China Emerging Technologies (UCET) Conference, IEEE SENSORS'16 and '17, NGCAS'17, BioCAS'18, PRIME'15, ISCAS'23, and the organizer of several special sessions on the IEEE Conferences.

作者簡介(中文翻譯)

Dr. Rupam Das 是英國埃克塞特大學電子工程系的講師。他是納米工程科學與技術(NEST)以及超材料研究與創新中心(CMRI)的成員。在擔任此職位之前,他曾是馬里·居里研究員(Marie Curie Fellow),在格拉斯哥大學的微電子實驗室(meLAB)進行歐盟H2020 MSCA-IF計畫「無線、可擴展及可植入的光遺傳學治療神經疾病(WiseCure)」。該研究重點在於開發基於超材料的無線光遺傳系統以治療腦部疾病。他還曾在歐盟H2020 FET-Proactive「HERMES」計畫中擔任研究助理,該計畫位於格拉斯哥,專注於開發靈活的神經植入物以治療癲癇。在移居英國之前,他是蔚山大學和漢陽大學應用生物電子實驗室(ABLab)的BK'21博士後研究員。Rupam 是IEEE的高級會員,曾擔任《皇家學會哲學交易A》的客座編輯。他也是ICECS 2020的當地組織者及ICECS 2022的會議主席委員會成員。目前,他被任命為皇家學會國際交流委員會成員及IEEE生物醫學電路與系統期刊的副編輯。

Dr. Hadi Heidari(PhD, SMIEEE, FHEA)是英國格拉斯哥大學詹姆斯·瓦特工程學院的教授(高級講師)。他的微電子實驗室(meLAB)在集成微電子設計和磁電子設備技術方面進行開創性研究。2021年,他創立了Neuranics,致力於為神經介面建造下一代磁性傳感器。他持有愛丁堡皇家學會的Saltire Fellowship。Dr. Heidari已在頂級期刊或會議論文集中發表或共同發表超過200篇同行評審的出版物,並擔任多個期刊和會議的審稿人。他曾獲得多項獎項,包括2020年IET醫療技術早期職業JA Lodge獎和2019年IEEE傳感器委員會青年專業獎。Dr. Heidari是IEEE的高級會員及高等教育學院(FHEA)院士。他是IEEE傳感器委員會的成員(2020-21及2022-23),並曾擔任IEEE電路與系統學會理事會成員(2018-20)。他是IEEE《新興與選定電路與系統主題期刊》(JETCAS)的主編,並在多個期刊的編輯委員會中任職,包括IEEE生物醫學電路與系統期刊、微電子期刊、IEEE電磁學、射頻與醫學生物學期刊、IEEE Access、IEEE傳感器期刊及《神經科學前沿》。他曾擔任2020年在格拉斯哥舉行的第27屆IEEE ICECS的總主席,IEEE PRIME'19的技術程序主席,並參與多個會議的組織委員會,包括英國電路與系統研討會(UKCAS)、英中新興技術會議(UCET)、IEEE SENSORS'16及'17、NGCAS'17、BioCAS'18、PRIME'15、ISCAS'23,以及多個IEEE會議的特別會議組織者。