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Circuits and systems for biomedical applications / editors, Hadi Heidari, Sara Ghoreishizadeh.

Contributor(s): Material type: TextTextSeries: Tutorials in circuits and systemsPublisher: Aalborg, Denmark : River Publishers, [2018]Description: 1 online resource (184 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 8770220522
  • 9788770220521
Subject(s): Genre/Form: Additional physical formats: Print version:: Circuits and Systems for Biomedical Applications: UKCAS 2018.DDC classification:
  • 610.28 23
LOC classification:
  • R856 .C57 2018
Online resources:
Contents:
Introduction 7 1. Integrated Circuits for Addressable Biosensing 9 2. Construction of an Endoscopic Capsule for the Diagnostics of Dysmotilities in the Gastro-intestinal Track 31 3. Harnessing the Power of the Brain with Memory-resitors 49 4. Analogue Building Blocks for Neural-inspired Circuits 71 5. Circuits for Bio. Potential Recording from the Brain 89 6. Advances in Scalable Implantable Stimulation Systems for Neuro-prostheses using Networked ASICs 105 7. CAS for Control of Prosthetic Hands 131 8. Genetically Enhanced Brain-implants for Neuro-rehabilitation 149 About the Editors 167 About the Authors 171.
Summary: Circuits and Systems for Biomedical Applications-UKCAS 2018 covers several advanced topics in the area of Devices, Analog and Mixed-Signal Circuits and Systems for Biomedical Applications. The fundamental aspects of these topics are discussed, and state-of-the-art developments are presented. The book proceeds the 1st United Kingdom Circuits and Systems (UKCAS 2018) Workshop. It addresses multidisciplinary theme areas such as Biosensing, Memristors, next-generation medical diagnostics, neural-inspired circuits, neural implants, neuro-prostheses, prosthetic hand and neuro-rehabilitation. Having perceived the device and circuit assets for such technologies and knowing what challenges these present for the biomedical scientists and engineers, integrated circuits for addressable biosensing are reviewed in the first chapter. The Second Chapter is harnessing the power of the brain using metal-oxide Memristors. The third chapter contains construction of an endoscopic capsule for the diagnostics of dysmotilities in the gastro-intestinal track. The next three chapters are on neural interfaces: analogue building blocks of neural inspired circuits are described in the fourth chapter while chapter five focuses on circuits for bio-potential recording from the brain. Networked Integrated circuits and their use in creating advanced implantable stimulation systems will be discussed in chapter six. This topic will be completed by circuits and systems for control of Prosthetic Hands in seventh chapter and genetically enhanced brain-implants for neuro-rehabilitation in chapter eight.
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Online resource; title from digital title page (viewed on May 03, 2019).

Circuits and Systems for Biomedical Applications-UKCAS 2018 covers several advanced topics in the area of Devices, Analog and Mixed-Signal Circuits and Systems for Biomedical Applications. The fundamental aspects of these topics are discussed, and state-of-the-art developments are presented. The book proceeds the 1st United Kingdom Circuits and Systems (UKCAS 2018) Workshop. It addresses multidisciplinary theme areas such as Biosensing, Memristors, next-generation medical diagnostics, neural-inspired circuits, neural implants, neuro-prostheses, prosthetic hand and neuro-rehabilitation. Having perceived the device and circuit assets for such technologies and knowing what challenges these present for the biomedical scientists and engineers, integrated circuits for addressable biosensing are reviewed in the first chapter. The Second Chapter is harnessing the power of the brain using metal-oxide Memristors. The third chapter contains construction of an endoscopic capsule for the diagnostics of dysmotilities in the gastro-intestinal track. The next three chapters are on neural interfaces: analogue building blocks of neural inspired circuits are described in the fourth chapter while chapter five focuses on circuits for bio-potential recording from the brain. Networked Integrated circuits and their use in creating advanced implantable stimulation systems will be discussed in chapter six. This topic will be completed by circuits and systems for control of Prosthetic Hands in seventh chapter and genetically enhanced brain-implants for neuro-rehabilitation in chapter eight.

Introduction 7 1. Integrated Circuits for Addressable Biosensing 9 2. Construction of an Endoscopic Capsule for the Diagnostics of Dysmotilities in the Gastro-intestinal Track 31 3. Harnessing the Power of the Brain with Memory-resitors 49 4. Analogue Building Blocks for Neural-inspired Circuits 71 5. Circuits for Bio. Potential Recording from the Brain 89 6. Advances in Scalable Implantable Stimulation Systems for Neuro-prostheses using Networked ASICs 105 7. CAS for Control of Prosthetic Hands 131 8. Genetically Enhanced Brain-implants for Neuro-rehabilitation 149 About the Editors 167 About the Authors 171.

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