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Implantable biomedical microsystems : design principles and applications /
Research and innovation in areas such as circuits, microsystems, packaging, biocompatibility, miniaturization, power supplies, remote control, reliability, and lifespan are leading to a rapid increase in the range of devices and corresponding applications in the field of wearable and implantable bio...
| Clasificación: | Libro Electrónico |
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| Otros Autores: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Waltham, MA :
William Andrew, an imprint of Elsevier,
[2015]
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| Colección: | Micro & nano technologies.
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| Temas: | |
| Acceso en línea: | Texto completo |
MARC
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| 245 | 0 | 0 | |a Implantable biomedical microsystems : |b design principles and applications / |c edited by Swarup Bhunia, Steve Majerus, Mohamad Sawan. |
| 264 | 1 | |a Waltham, MA : |b William Andrew, an imprint of Elsevier, |c [2015] | |
| 264 | 4 | |c �2015 | |
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| 520 | |a Research and innovation in areas such as circuits, microsystems, packaging, biocompatibility, miniaturization, power supplies, remote control, reliability, and lifespan are leading to a rapid increase in the range of devices and corresponding applications in the field of wearable and implantable biomedical microsystems, which are used for monitoring, diagnosing, and controlling the health conditions of the human body. This book provides comprehensive coverage of the fundamental design principles and validation for implantable microsystems, as well as several major application areas. Each component in an implantable device is described in details, and major case studies demonstrate how these systems can be optimized for specific design objectives. The case studies include applications of implantable neural signal processors, brain-machine interface (BMI) systems intended for both data recording and treatment, neural prosthesis, bladder pressure monitoring for treating urinary incontinence, implantable imaging devices for early detection and diagnosis of diseases as well as electrical conduction block of peripheral nerve for chronic pain management. Implantable Biomedical Microsystems is the first comprehensive coverage of bioimplantable system design providing an invaluable information source for researchers in Biomedical, Electrical, Computer, Systems, and Mechanical Engineering as well as engineers involved in design and development of wearable and implantable bioelectronic devices and, more generally, teams working on low-power microsystems and their corresponding wireless energy and data links. | ||
| 505 | 0 | |a Front cover; Implantable Biomedical Microsystems: Design Principles and Applications; Copyright; Contents; Contributors; Preface; Part I: Design Principles for Bioimplantable Systems; Chapter 1: Introduction; Part I: Design Principles for Bioimplantable Systems; Chapter 2: Electrical Interfaces for Recording, Stimulation, and Sensing; Chapter 3: Analogue Front-End and Telemetry Systems; Chapter 4: Signal processing hardware; Chapter 5: Energy Management Integrated Circuits for Wireless Power Transmission; Chapter 6: System Integration and Packaging | |
| 505 | 8 | |a Chapter 7: Clinical and Regulatory Considerations of Implantable Medical DevicesChapter 8: Reliability and Security of Implantable and Wearable Medical Devices; Part II: Applications of Bioimplantable Systems; Chapter 9: Electrical biosensors: peripheral nerve sensors; Chapter 10: Electrodes for Electrical Conduction Block of Peripheral Nerve; Chapter 11: Implantable Bladder Pressure Sensor for Chronic Application; Chapter 12: Neural Recording Interfaces for Intracortical Implants; Chapter 13: Implantable Imaging System for Automated Monitoring of Internal Organs; References | |
| 505 | 8 | |a Chapter 2: Electrical interfaces for recording, stimulation, and sensing2.1. Introduction; 2.2. Electrode Design Considerations; 2.3. Electrode Designs; 2.3.1. Microwire Probes; 2.3.2. Silicon-Based Devices; 2.3.3. Polymer-Based Devices; 2.3.3.1. General considerations; 2.3.3.2. Polyimide; 2.3.3.3. Polydimethylsiloxane; 2.3.3.4. Parylene; 2.3.3.5. Liquid crystal polymer; 2.3.3.6. Polymer nanocomposites; 2.3.3.7. Issues; 2.4. Emerging Design Trends; 2.4.1. New Materials and Designs for Enhanced Bio-integration; 2.4.2. Waveguides for Implanted Optogenetic Stimulation Systems; References | |
| 505 | 8 | |a Chapter 3: Analog front-end and telemetry systems3.1. Introduction; 3.2. Analog Front-End System; 3.3. Front-End Amplifier Design; 3.4. Simulation Circuit Design; 3.5. Telemetry System Introduction; 3.6. RF Power Transfer Circuit; 3.7. Data Telemetry Circuit; 3.8. Summary; Acknowledgment; Chapter 4: Signal processing hardware; 4.1. Introduction; 4.2. Hardware Architecture of the Signal Processing Systems; 4.3. Analog, Digital, and Mixed-Signal Processors; 4.3.1. Signal Processing Using Analog Circuits; 4.3.1.1. Analog signal processing of neural signals | |
| 505 | 8 | |a Low-power analog processor for automatic neural spike detectionLow-power analog processor for decoding of neural signals from the motor cortex; Other analog processors of neural signals; 4.3.1.2. Low-power analog processor for cochlear implants; 4.3.1.3. Ultralow-power analog processor for ECG acquisition and feature extraction; 4.3.2. Digital Signal Processing; 4.3.2.1. Choosing the right processor for digital signal processing; General-purpose processors (GPPs); Microcontrollers (MCU); Digital signal processors (DSPs); Application-specific standard products (ASSPs) | |
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| 700 | 1 | |a Bhunia, Swarup, |e editor. | |
| 700 | 1 | |a Majerus, Steve, |e editor. | |
| 700 | 1 | |a Sawan, Mohamad, |e editor. | |
| 776 | 0 | 8 | |i Print version: |a Bhunia, Swarup. |t Implantable Biomedical Microsystems : Design Principles and Applications. |d Burlington : Elsevier Science, �2015 |z 9780323262088 |
| 830 | 0 | |a Micro & nano technologies. | |
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