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Author: Masoud Rezaei
Publisher:
ISBN:
Category :
Languages : en
Pages : 66
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Book Description
Studying brain functionality to help patients suffering from neurological diseases needs fully implantable brain interface to enable access to neural activities as well as read and analyze them. In this thesis, ultra-low power implantable brain-machine-interfaces (BMIs) that are based on several innovations on circuits and systems are studied for use in neural recording applications. Such a system is intended to collect information on neural activity emitted by several hundreds of neurons, while activating them on demand using actuating means like electro- and/or photo-stimulation. Such a system must provide several recording channels, while consuming very low energy, and have an extremely small size for safety and biocompatibility. Typically, a brain interfacing microsystem includes several building blocks, such as an analog front-end (AFE), an analog-to-digital converter (ADC), digital signal processing modules, and a wireless data transceiver. A BMI extracts neural signals from noise, digitizes them, and transmits them to a base station without interfering with the natural behavior of the subject. This thesis focuses on ultra-low power front-ends to be utilized in a BMI, and presents front-ends with several innovative strategies to consume less power, while enabling high-resolution and high-quality of data. First, we present a new front-end structure using a current-reuse scheme. This structure is scalable to huge numbers of recording channels, owing to its small implementation silicon area and its low power consumption. The proposed current-reuse AFE, which includes a low-noise amplifier (LNA) and a programmable gain amplifier (PGA), employs a new fully differential current-mirror topology using fewer transistors. This is an improvement over several design parameters, in terms of power consumption and noise, over previous current-reuse amplifier circuit implementations. In the second part of this thesis, we propose a new multi-channel sigma-delta converter that converts several channels independently using a single op-amp and several charge storage capacitors. Compared to conventional techniques, this method applies a new interleaved multiplexing scheme, which does not need any reset phase for the integrator while it switches to a new channel; this enhances its resolution. When the chip area is not a priority, other approaches can be more attractive, and we propose a new power-efficient strategy based on a new in-channel ultra-low power sigma-delta converter designed to decrease further power consumption. This new converter uses a low-voltage architecture based on an innovative feed-forward topology that minimizes the nonlinearity associated with low-voltage supply.
Author: Masoud Rezaei
Publisher:
ISBN:
Category :
Languages : en
Pages : 66
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Book Description
Studying brain functionality to help patients suffering from neurological diseases needs fully implantable brain interface to enable access to neural activities as well as read and analyze them. In this thesis, ultra-low power implantable brain-machine-interfaces (BMIs) that are based on several innovations on circuits and systems are studied for use in neural recording applications. Such a system is intended to collect information on neural activity emitted by several hundreds of neurons, while activating them on demand using actuating means like electro- and/or photo-stimulation. Such a system must provide several recording channels, while consuming very low energy, and have an extremely small size for safety and biocompatibility. Typically, a brain interfacing microsystem includes several building blocks, such as an analog front-end (AFE), an analog-to-digital converter (ADC), digital signal processing modules, and a wireless data transceiver. A BMI extracts neural signals from noise, digitizes them, and transmits them to a base station without interfering with the natural behavior of the subject. This thesis focuses on ultra-low power front-ends to be utilized in a BMI, and presents front-ends with several innovative strategies to consume less power, while enabling high-resolution and high-quality of data. First, we present a new front-end structure using a current-reuse scheme. This structure is scalable to huge numbers of recording channels, owing to its small implementation silicon area and its low power consumption. The proposed current-reuse AFE, which includes a low-noise amplifier (LNA) and a programmable gain amplifier (PGA), employs a new fully differential current-mirror topology using fewer transistors. This is an improvement over several design parameters, in terms of power consumption and noise, over previous current-reuse amplifier circuit implementations. In the second part of this thesis, we propose a new multi-channel sigma-delta converter that converts several channels independently using a single op-amp and several charge storage capacitors. Compared to conventional techniques, this method applies a new interleaved multiplexing scheme, which does not need any reset phase for the integrator while it switches to a new channel; this enhances its resolution. When the chip area is not a priority, other approaches can be more attractive, and we propose a new power-efficient strategy based on a new in-channel ultra-low power sigma-delta converter designed to decrease further power consumption. This new converter uses a low-voltage architecture based on an innovative feed-forward topology that minimizes the nonlinearity associated with low-voltage supply.
Author: Dhondup Pemba
Publisher:
ISBN: 9781303001031
Category :
Languages : en
Pages : 197
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Book Description
Neuroprostheses allow the possibility of restoring lost sensory and motor function by directly interfacing with the nervous system. The multi-electrode array serves as a key component of the neural interface system that allows the recoding from and stimulation of the nervous system. Three neural electrode systems were developed in this work (1) Three dimensional bulk micromachined electrode array (2) Silicon-SU8 neural electrode with embedded microchannels for drug and growth factor delivery (3) A flexible SU-8 neural electrode with simultaneous fluidic delivery and electrical stimulation and recording capabilities. A three dimensional electrode array that depend only MEMS processes was developed to improve on several key fabrication steps involved in the manufacturing of the current state of the art intraneural electrodes which rely heavily on non-IC processes. A silicon and SU-8 neural probe with an embedded fluidic channel is developed to deliver growth factors and drugs that would mitigate the cellular responses that have limited the chronic implementation of current multielectrode arrays. In addition to delivering drugs and growth factors, a flexible SU-8 based neural probe with fluidic and electrical capabilities was developed to further extend the longevity of neural electrodes by reducing the tissue/electrode mechanical mismatch of traditional silicon based neural electrodes.
Author: Joseph N. Y. Aziz
Publisher:
ISBN: 9780494273159
Category :
Languages : en
Pages : 122
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Book Description
THIS thesis presents two 0.35mum CMOS prototypes of multichannel integrated neural interfaces for distributed recording of neural activity in the brain. Each integrated neural interface contains 256 continuous-time recording channels, each comprised of a two-stage programmable gain amplifier and a bandpass filter with tunable cut-off frequencies. A parallel VLSI architecture with in-channel analog memory allows for truly simultaneous signal sampling. In-channel and peripheral switched capacitor circuits perform on-sensory-plane computationally expensive spatio-temporal signal processing in real time for applications such as data compression and pattern recognition. The circuits are optimized for low noise, low power and high density of integration as necessary for implantation. Golden and platinum 3-D electrode arrays are fabricated directly on the die surface for in vitro and in vivo experiments. An implantable microsystem comprised of an integrated neural interface prototype interfaced with a low-power high-throughput VLSI signal processor is validated in off-line epileptic seizure prediction.
Author: Amir Sodagar
Publisher: Wiley
ISBN: 9781118353905
Category : Technology & Engineering
Languages : en
Pages : 500
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Book Description
Author: Robert K. Shepherd
Publisher: John Wiley & Sons
ISBN: 1118816145
Category : Science
Languages : en
Pages : 358
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Book Description
Technological advances have greatly increased the potential for, and practicability of, using medical neurotechnologies to revolutionize how a wide array of neurological and nervous system diseases and dysfunctions are treated. These technologies have the potential to help reduce the impact of symptoms in neurological disorders such as Parkinson’s Disease and depression as well as help regain lost function caused by spinal cord damage or nerve damage. Medical Neurobionics is a concise overview of the biological underpinnings of neurotechnologies, the development process for these technologies, and the practical application of these advances in clinical settings. Medical Neurobionics is divided into three sections. The first section focuses specifically on providing a sound foundational understanding of the biological mechanisms that support the development of neurotechnologies. The second section looks at the efforts being carried out to develop new and exciting bioengineering advances. The book then closes with chapters that discuss practical clinical application and explore the ethical questions that surround neurobionics. A timely work that provides readers with a useful introduction to the field, Medical Neurobionics will be an essential book for neuroscientists, neuroengineers, biomedical researchers, and industry personnel.
Author: Arthur Edouard Hirsch
Publisher:
ISBN:
Category :
Languages : en
Pages : 122
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Book Description
Mots-clés de l'auteur: neural interfaces ; implant ; ECoG ; spinal cord stimulation ; biointegration ; e-dura ; stretchable electronics ; thermal evaporation ; micro-cracked gold ; gallium.
Author: Vahid Majidzadeh Bafar
Publisher: Springer Science & Business Media
ISBN: 1461467020
Category : Technology & Engineering
Languages : en
Pages : 204
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Book Description
Wireless Cortical Implantable Systems examines the design for data acquisition and transmission in cortical implants. The first part of the book covers existing system level cortical implants, as well as future devices. The authors discuss the major constraints in terms of microelectronic integrations are presented. The second part of the book focuses on system-level as well as circuit and system level solutions to the development of ultra low-power and low-noise microelectronics for cortical implants. Existing solutions are presented and novel methods and solutions proposed. The third part of the book focuses on the usage of digital impulse radio ultra wide band transmission as an efficient method to transmit cortically neural recorded data at high data rate to the outside world. Original architectural and circuit and system solutions are discussed.
Author: Ki Yong Kwon
Publisher:
ISBN: 9781321163957
Category : Electronic dissertations
Languages : en
Pages : 161
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Book Description
Author: Thomas D. Coates,Jr.
Publisher: Springer Nature
ISBN: 3031016408
Category : Technology & Engineering
Languages : en
Pages : 107
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Book Description
In the past 50 years there has been an explosion of interest in the development of technologies whose end goal is to connect the human brain and/or nervous system directly to computers. Once the subject of science fiction, the technologies necessary to accomplish this goal are rapidly becoming reality. In laboratories around the globe, research is being undertaken to restore function to the physically disabled, to replace areas of the brain damaged by disease or trauma and to augment human abilities. Building neural interfaces and neuro-prosthetics relies on a diverse array of disciplines such as neuroscience, engineering, medicine and microfabrication just to name a few. This book presents a short history of neural interfacing (N.I.) research and introduces the reader to some of the current efforts to develop neural prostheses. The book is intended as an introduction for the college freshman or others wishing to learn more about the field. A resource guide is included for students along with a list of laboratories conducting N.I. research and universities with N.I. related tracks of study. Table of Contents: Neural Interfaces Past and Present / Current Neuroprosthesis Research / Conclusion / Resources for Students
Author: Laurent A. Francis
Publisher: CRC Press
ISBN: 1351832077
Category : Technology & Engineering
Languages : en
Pages : 637
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Book Description
Microsystems technologies have found their way into an impressive variety of applications, from mobile phones, computers, and displays to smart grids, electric cars, and space shuttles. This multidisciplinary field of research extends the current capabilities of standard integrated circuits in terms of materials and designs and complements them by creating innovative components and smaller systems that require lower power consumption and display better performance. Novel Advances in Microsystems Technologies and their Applications delves into the state of the art and the applications of microsystems and microelectronics-related technologies. Featuring contributions by academic and industrial researchers from around the world, this book: Examines organic and flexible electronics, from polymer solar cell to flexible interconnects for the co-integration of micro-electromechanical systems (MEMS) with complementary metal oxide semiconductors (CMOS) Discusses imaging and display technologies, including MEMS technology in reflective displays, the fabrication of thin-film transistors on glass substrates, and new techniques to display and quickly transmit high-quality images Explores sensor technologies for sensing electrical currents and temperature, monitoring structural health and critical industrial processes, and more Covers biomedical microsystems, including biosensors, point-of-care devices, neural stimulation and recording, and ultra-low-power biomedical systems Written for researchers, engineers, and graduate students in electrical and biomedical engineering, this book reviews groundbreaking technology, trends, and applications in microelectronics. Its coverage of the latest research serves as a source of inspiration for anyone interested in further developing microsystems technologies and creating new applications.
