The Performance Cortex


Book Description

“A must-read for the cerebral sports fan . . . like Moneyball except nerdier. Much nerdier.” —Sports Illustrated Why couldn’t Michael Jordan, master athlete that he was, crush a baseball? Why can’t modern robotics come close to replicating the dexterity of a five-year-old? Why do great quarterbacks always seem to know where their receivers are? On a quest to discover what actually drives human movement and its spectacular potential, journalist, sports writer, and fan Zach Schonbrun interviewed experts on motor control around the world. The trail begins with the groundbreaking work of two neuroscientists in Major League Baseball who are upending the traditional ways scouts evaluate the speed with which great players read a pitch. Across all sports, new theories and revolutionary technology are revealing how the brain’s motor control system works in extraordinarily talented athletes like Stephen Curry, Tom Brady, Serena Williams, and Lionel Messi; as well as musical virtuosos, dancers, rock climbers, race-car drivers, and more. Whether it is timing a 95 mph fastball or reaching for a coffee mug, movement requires a complex suite of computations that many take for granted—until they read The Performance Cortex. Zach Schonbrun ushers in a new way of thinking about the athletic gifts we marvel over and seek to develop in our own lives. It’s not about the million-dollar arm anymore. It’s about the million-dollar brain.




The Cortex and the Critical Point


Book Description

How the cerebral cortex operates near a critical phase transition point for optimum performance. Individual neurons have limited computational powers, but when they work together, it is almost like magic. Firing synchronously and then breaking off to improvise by themselves, they can be paradoxically both independent and interdependent. This happens near the critical point: when neurons are poised between a phase where activity is damped and a phase where it is amplified, where information processing is optimized, and complex emergent activity patterns arise. The claim that neurons in the cortex work best when they operate near the critical point is known as the criticality hypothesis. In this book John Beggs—one of the pioneers of this hypothesis—offers an introduction to the critical point and its relevance to the brain. Drawing on recent experimental evidence, Beggs first explains the main ideas underlying the criticality hypotheses and emergent phenomena. He then discusses the critical point and its two main consequences—first, scale-free properties that confer optimum information processing; and second, universality, or the idea that complex emergent phenomena, like that seen near the critical point, can be explained by relatively simple models that are applicable across species and scale. Finally, Beggs considers future directions for the field, including research on homeostatic regulation, quasicriticality, and the expansion of the cortex and intelligence. An appendix provides technical material; many chapters include exercises that use freely available code and data sets.




Cortex Cerebri


Book Description

The cortex continues to be the subject of intense scientfic curiosity, as it has been for the past 30 years. It is the most highly developed part of the brain, yet the youngest in evolutionary terms. It is fundamental to human behavior, thinking, and self-understanding, and a study of its structure and performance must encompass aspects of anatomy, physiology, psychology, and neurology. This book providees a unique account of the structural and functional organization of the cerebral cortex from the point of view of one of the pioneers in the field. It is a revised and updated translation of the author's classic German text, and brings together for the first time the biological, psychological, and philosophical strands of enquiry relating to this fascinating area of the brain. The author's outstanding scientific reputation, combined with a subject of intense interest to researchers, will ensure that this book will be valued both for its scientific and historical contributions.




ARM-Based Microcontroller Multitasking Projects


Book Description

Most microcontroller-based applications nowadays are large, complex, and may require several tasks to share the MCU in multitasking applications. Most modern high-speed microcontrollers support multitasking kernels with sophisticated scheduling algorithms so that many complex tasks can be executed on a priority basis. ARM-based Microcontroller Multitasking Projects: Using the FreeRTOS Multitasking Kernel explains how to multitask ARM Cortex microcontrollers using the FreeRTOS multitasking kernel. The book describes in detail the features of multitasking operating systems such as scheduling, priorities, mailboxes, event flags, semaphores etc. before going onto present the highly popular FreeRTOS multitasking kernel. Practical working real-time projects using the highly popular Clicker 2 for STM32 development board (which can easily be transferred to other boards) together with FreeRTOS are an essential feature of this book. Projects include: LEDs flashing at different rates; Refreshing of 7-segment LEDs; Mobile robot where different sensors are controlled by different tasks; Multiple servo motors being controlled independently; Multitasking IoT project; Temperature controller with independent keyboard entry; Random number generator with 3 tasks: live, generator, display; home alarm system; car park management system, and many more. - Explains the basic concepts of multitasking - Demonstrates how to create small multitasking programs - Explains how to install and use the FreeRTOS on an ARM Cortex processor - Presents structured real-world projects that enables the reader to create their own




The Prefrontal Cortex


Book Description




The Neurobiology of Brain and Behavioral Development


Book Description

The Neurobiology of Brain and Behavioral Development provides an overview of the process of brain development, including recent discoveries on how the brain develops. This book collates and integrates these findings, weaving the latest information with core information on the neurobiology of brain development. It focuses on cortical development, but also features discussions on how the other parts of the brain wire into the developing cerebral cortex. A systems approach is used to describe the anatomical underpinnings of behavioral development, connecting anatomical and molecular features of brain development with behavioral development.The disruptors of typical brain development are discussed in appropriate sections, as is the science of epigenetics that presents a novel and instructive approach on how experiences, both individual and intergenerational, can alter features of brain development. What distinguishes this book from others in the field is its focus on both molecular mechanisms and behavioral outcomes. This body of knowledge contributes to our understanding of the fundamentals of brain plasticity and metaplasticity, both of which are also showcased in this book. - Provides an up-to-date overview of the process of brain development that is suitable for use as a university textbook at an early graduate or senior undergraduate level - Breadth from molecular level (Chapters 5-7) to the behavioral/cognitive level (Chapters 8-12), beginning with Chapters 1-4 providing a historical context of the ideas - Integrates the neurobiology of brain development and behavior, promoting the idea that animal models inform human development - Presents an emphasis on the role of epigenetics and brain plasticity in brain development and behavior




Rewire Your Anxious Brain


Book Description

Do you ever wonder what is happening inside your brain when you feel anxious, panicked, and worried? In Rewire Your Anxious Brain, psychologist Catherine Pittman and author Elizabeth Karle offer a unique, evidence-based solution to overcoming anxiety based in cutting-edge neuroscience and research. In the book, you will learn how the amygdala and cortex (both important parts of the brain) are essential players in the neuropsychology of anxiety. The amygdala acts as a primal response, and oftentimes, when this part of the brain processes fear, you may not even understand why you are afraid. By comparison, the cortex is the center of “worry.” That is, obsessing, ruminating, and dwelling on things that may or may not happen. In the book, Pittman and Karle make it simple by offering specific examples of how to manage fear by tapping into both of these pathways in the brain. As you read, you’ll gain a greater understanding how anxiety is created in the brain, and as a result, you will feel empowered and motivated to overcome it. The brain is a powerful tool, and the more you work to change the way you respond to fear, the more resilient you will become. Using the practical self-assessments and proven-effective techniques in this book, you will learn to literally “rewire” the brain processes that lie at the root of your fears.




Handbook of Integrated Circuit Industry


Book Description

Written by hundreds experts who have made contributions to both enterprise and academics research, these excellent reference books provide all necessary knowledge of the whole industrial chain of integrated circuits, and cover topics related to the technology evolution trends, fabrication, applications, new materials, equipment, economy, investment, and industrial developments of integrated circuits. Especially, the coverage is broad in scope and deep enough for all kind of readers being interested in integrated circuit industry. Remarkable data collection, update marketing evaluation, enough working knowledge of integrated circuit fabrication, clear and accessible category of integrated circuit products, and good equipment insight explanation, etc. can make general readers build up a clear overview about the whole integrated circuit industry. This encyclopedia is designed as a reference book for scientists and engineers actively involved in integrated circuit research and development field. In addition, this book provides enough guide lines and knowledges to benefit enterprisers being interested in integrated circuit industry.




System-on-Chip Design with Arm® Cortex®-M Processors


Book Description

The Arm(R) Cortex(R)-M processors are already one of the most popular choices for loT and embedded applications. With Arm Flexible Access and DesignStart(TM), accessing Arm Cortex-M processor IP is fast, affordable, and easy. This book introduces all the key topics that system-on-chip (SoC) and FPGA designers need to know when integrating a Cortex-M processor into their design, including bus protocols, bus interconnect, and peripheral designs. Joseph Yiu is a distinguished Arm engineer who began designing SoCs back in 2000 and has been a leader in this field for nearly twenty years. Joseph's book takes an expert look at what SoC designers need to know when incorporating Cortex-M processors into their systems. He discusses the on-chip bus protocol specifications (AMBA, AHB, and APB), used by Arm processors and a wide range of on-chip digital components such as memory interfaces, peripherals, and debug components. Software development and advanced design considerations are also covered. The journey concludes with 'Putting the system together', a designer's eye view of a simple microcontroller-like design based on the Cortex-M3 processor (DesignStart) that uses the components that you will have learned to create.




The Cerebral Cortex in Neurodegenerative and Neuropsychiatric Disorders


Book Description

The Cerebral Cortex in Neurodegenerative and Neuropsychiatric Disorders: Experimental Approaches to Clinical Issues focuses on how pre-clinical investigations are addressing the clinical issues surrounding the involvement of the cerebral cortex in selected conditions of the nervous system, including Alzheimer's Disease, Parkinson's, addiction, and cardiovascular dysregulation. Each chapter is written by an expert in his/her field who provides a comprehensive review of the clinical manifestations of cortical involvement and experimental techniques currently available to tackle cortical issues in disease. Thus, this present title provides a link between cortical clinical problems and investigational approaches to help foster future research with high translational value. - Offers a comprehensive overview on the best available in vivo and in vitro models to study cortical involvement - Presents models and specific techniques that help to guide investigators in their choices on how to address research questions experimentally - Provides expert commentary and a perspective on future trends at the end of each chapter - Addresses translational advances and promising therapeutic options - Includes references to key articles for additional detailed study