High-Density Integrated Electrocortical Neural Interfaces (e-bog) af Cauwenberghs, Gert
Cauwenberghs, Gert (forfatter)

High-Density Integrated Electrocortical Neural Interfaces e-bog

1021,49 DKK (inkl. moms 1276,86 DKK)
High-Density Integrated Electrocortical Neural Interfaces provides a basic understanding, design strategies and implementation applications for electrocortical neural interfaces with a focus on integrated circuit design technologies. A wide variety of topics associated with the design and application of electrocortical neural implants are covered in this book. Written by leading experts in the ...
E-bog 1021,49 DKK
Forfattere Cauwenberghs, Gert (forfatter)
Udgivet 3 august 2019
Længde 210 sider
Genrer Biomedical engineering
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9780128151167
High-Density Integrated Electrocortical Neural Interfaces provides a basic understanding, design strategies and implementation applications for electrocortical neural interfaces with a focus on integrated circuit design technologies. A wide variety of topics associated with the design and application of electrocortical neural implants are covered in this book. Written by leading experts in the field- Dr. Sohmyung Ha, Dr. Chul Kim, Dr. Patrick P. Mercier and Dr. Gert Cauwenberghs -the book discusses basic principles and practical design strategies of electrocorticography, electrode interfaces, signal acquisition, power delivery, data communication, and stimulation. In addition, an overview and critical review of the state-of-the-art research is included. These methodologies present a path towards the development of minimally invasive brain-computer interfaces capable of resolving microscale neural activity with wide-ranging coverage across the cortical surface. Written by leading researchers in electrocorticography in brain-computer interfaces Offers a unique focus on neural interface circuit design, from electrode to interface, circuit, powering, communication and encapsulation Covers the newest ECoG interface systems and electrode interfaces for ECoG and biopotential sensing