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Titlebook: Ultra Low Power ECG Processing System for IoT Devices; Temesghen Tekeste Habte,Hani Saleh,Mohammed Ismail Book 2019 Springer International

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发表于 2025-3-21 17:20:37 | 显示全部楼层 |阅读模式
书目名称Ultra Low Power ECG Processing System for IoT Devices
编辑Temesghen Tekeste Habte,Hani Saleh,Mohammed Ismail
视频videohttp://file.papertrans.cn/941/940393/940393.mp4
概述Describes digital circuit architecture for implementing ECG processing algorithms on chip.Includes coverage of signal processing techniques for ECG processing.Features ultra-low power circuit design t
丛书名称Analog Circuits and Signal Processing
图书封面Titlebook: Ultra Low Power ECG Processing System for IoT Devices; Temesghen Tekeste Habte,Hani Saleh,Mohammed Ismail Book 2019 Springer International
描述.​This book describes an ECG processing architecture that guides biomedical SoC developers, from theory to implementation and testing. The authors provide complete coverage of the digital circuit implementation of an ultra-low power biomedical SoC,  comprised of a detailed description of an ECG processor implemented and fabricated on chip.  Coverage also includes the challenges and tradeoffs of designing ECG processors..Describes digital circuit architecture for implementing ECG processing algorithms on chip;.Includes coverage of signal processing techniques for ECG processing;.Features ultra-low power circuit design techniques;.Enables design of ECG processing architectures and their respective on-chip implementation..
出版日期Book 2019
关键词Bio-Medical CMOS ICs; biomedical processors for IoT; ECG processing algorithms and architectures; ECG f
版次1
doihttps://doi.org/10.1007/978-3-319-97016-5
isbn_softcover978-3-030-07285-8
isbn_ebook978-3-319-97016-5Series ISSN 1872-082X Series E-ISSN 2197-1854
issn_series 1872-082X
copyrightSpringer International Publishing AG, part of Springer Nature 2019
The information of publication is updating

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Temesghen Tekeste Habte,Hani Saleh,Baker Mohammad,Mohammed Ismailty and model the structures of the input dictionaries as an optimization problem whose solution produces optimally correct target bilingual lexicon. In addition, we enable created bilingual lexicons of low-resource languages accessible through service grid federation.
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Temesghen Tekeste Habte,Hani Saleh,Baker Mohammad,Mohammed Ismaillop a new, improved EC regulatory approach in order to overcome today’s legal short-comings. The evaluation of that objective, in other words an analysis of change, is also the main purpose of the present study. As a consequence the first chapter focuses on today’s legal status-quo, hereby presentin
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Temesghen Tekeste Habte,Hani Saleh,Baker Mohammad,Mohammed Ismail
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1872-082X al processing techniques for ECG processing;.Features ultra-low power circuit design techniques;.Enables design of ECG processing architectures and their respective on-chip implementation..978-3-030-07285-8978-3-319-97016-5Series ISSN 1872-082X Series E-ISSN 2197-1854
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ACLT-Based QRS Detection and ECG Compression Architecture,e proposed architecture that uses the ECG signal first derivative and variable-bit-length encoding. An average compression ratio of 2.05 was achieved when evaluated using the MIT-BIH database. The proposed QRS architecture was implemented using a 65 nm GF low-power process, it consumed an ultra-low
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