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Tag: Neuroscience

  • The Computational Brain (Computational Neuroscience)

    The Computational Brain (Computational Neuroscience)


    Price: $92.95
    (as of Dec 27,2024 00:26:05 UTC – Details)




    Publisher ‏ : ‎ Bradford Books; First Edition (June 12, 1992)
    Language ‏ : ‎ English
    Hardcover ‏ : ‎ 560 pages
    ISBN-10 ‏ : ‎ 0262031884
    ISBN-13 ‏ : ‎ 978-0262031882
    Item Weight ‏ : ‎ 3 pounds
    Dimensions ‏ : ‎ 7.5 x 1.5 x 10.75 inches


    The Computational Brain: Unraveling the Mysteries of the Mind through Computational Neuroscience

    Have you ever wondered how the human brain processes information, makes decisions, and controls our actions? Computational neuroscience is a field that seeks to understand the complex workings of the brain by using computational models and simulations.

    By studying the brain as a computational system, researchers can gain insights into how neurons communicate, how networks of neurons form patterns of activity, and how these patterns give rise to behavior and cognition. This interdisciplinary field brings together experts in neuroscience, computer science, mathematics, and physics to tackle some of the biggest questions about the brain and mind.

    Through the use of sophisticated mathematical models and computer simulations, computational neuroscientists are able to test hypotheses about how the brain functions, predict how neural circuits will respond to different stimuli, and even develop new treatments for neurological disorders.

    The computational brain is a powerful metaphor that highlights the parallels between the brain and a computer – both are complex systems that process information, learn from experience, and adapt to changing environments. By studying the brain through the lens of computation, we can unlock the secrets of the mind and pave the way for new advancements in artificial intelligence, robotics, and brain-computer interfaces.

    Join us on a journey into the fascinating world of computational neuroscience, where cutting-edge research is revolutionizing our understanding of the brain and paving the way for a future where we can unlock the full potential of our most complex organ – the human brain.
    #Computational #Brain #Computational #Neuroscience

  • Computational Neuroscience of Vision by Rolls, Deco [2006]

    Computational Neuroscience of Vision by Rolls, Deco [2006]



    Computational Neuroscience of Vision by Rolls, Deco [2006]

    Price : 24.99 – 22.49

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    In this post, we will explore the groundbreaking work of Gustavo Deco and Edmund T. Rolls in their 2006 book “Computational Neuroscience of Vision.” This book delves into the intricate workings of the brain and how it processes visual information, providing key insights into the neural mechanisms underlying vision.

    Deco and Rolls are renowned for their expertise in computational neuroscience, a field that combines neuroscience and computer science to study how the brain processes information. In their book, they examine how the brain encodes and processes visual stimuli, shedding light on how we perceive the world around us.

    One of the key concepts discussed in the book is the role of neuronal networks in visual processing. The authors delve into how different regions of the brain communicate and interact to create our visual experience, highlighting the importance of neural connectivity in shaping our perception.

    Furthermore, Deco and Rolls discuss the role of attention in visual processing, exploring how our focus and awareness influence the way our brains interpret visual stimuli. By studying the neural mechanisms underlying attention, the authors provide valuable insights into how we allocate our cognitive resources to different aspects of our visual environment.

    Overall, “Computational Neuroscience of Vision” by Deco and Rolls is a must-read for anyone interested in understanding the complex interplay between the brain and vision. Their groundbreaking research provides a comprehensive overview of the neural processes that underlie our visual experience, offering valuable insights into the mysteries of the mind.
    #Computational #Neuroscience #Vision #Rolls #Deco

  • Neurobiology of Neural Networks (Computational Neuroscience)

    Neurobiology of Neural Networks (Computational Neuroscience)


    Price: $30.00
    (as of Dec 26,2024 12:59:50 UTC – Details)



    Neurobiology of Neural Networks: A Dive into Computational Neuroscience

    Computational neuroscience is a field that seeks to understand the complex interactions of neurons in the brain and how they give rise to higher cognitive functions. At the heart of this field is the study of neural networks, which are interconnected groups of neurons that work together to process information and generate behaviors.

    The neurobiology of neural networks is a fascinating area of research that delves into the intricate mechanisms by which neurons communicate with each other. At the cellular level, neurons transmit information through electrical signals called action potentials. These signals travel down the length of the neuron and are passed on to other neurons through synapses, which are specialized junctions where communication between neurons occurs.

    Within neural networks, information is processed through a series of interconnected pathways that allow for the integration of sensory inputs, decision-making, and motor output. These pathways are constantly changing and adapting in response to experience, a phenomenon known as synaptic plasticity. This ability to rewire neural circuits is crucial for learning and memory formation.

    The study of neural networks in computational neuroscience has led to the development of computer models that simulate the behavior of neurons and their interactions. These models have provided valuable insights into how neural networks process information and how disruptions in these networks can lead to neurological disorders such as epilepsy, Parkinson’s disease, and Alzheimer’s disease.

    By understanding the neurobiology of neural networks, researchers hope to unravel the mysteries of the brain and develop new treatments for neurological disorders. The study of computational neuroscience continues to push the boundaries of our understanding of the brain and its intricate neural networks, paving the way for future breakthroughs in neuroscience and artificial intelligence.
    #Neurobiology #Neural #Networks #Computational #Neuroscience

  • Computational Explorations in Cognitive Neuroscience: Understanding the Mind by Simulating the Brain

    Computational Explorations in Cognitive Neuroscience: Understanding the Mind by Simulating the Brain


    Price: $85.00
    (as of Dec 25,2024 02:03:53 UTC – Details)




    ASIN ‏ : ‎ 0262650541
    Publisher ‏ : ‎ MIT Press; First Edition (September 4, 2000)
    Language ‏ : ‎ English
    Paperback ‏ : ‎ 512 pages
    ISBN-10 ‏ : ‎ 9780262650540
    ISBN-13 ‏ : ‎ 978-0262650540
    Item Weight ‏ : ‎ 2.1 pounds
    Dimensions ‏ : ‎ 8 x 1.33 x 9 inches


    Computational Explorations in Cognitive Neuroscience: Understanding the Mind by Simulating the Brain

    Cognitive neuroscience is a field that seeks to understand the inner workings of the human mind by studying the neural processes that underlie cognition. One powerful tool in this pursuit is computational modeling, which allows researchers to simulate the complex interactions of neurons and brain regions in order to better understand how they give rise to our thoughts, emotions, and behaviors.

    By creating computer models that mimic the structure and function of the brain, researchers can test hypotheses about how different neural circuits contribute to specific cognitive functions. These models can also be used to predict how changes in the brain – such as damage from injury or disease – might affect behavior and cognition.

    One key advantage of computational modeling in cognitive neuroscience is its ability to bridge the gap between levels of analysis. By incorporating data from molecular and cellular studies, brain imaging, and behavioral experiments, researchers can develop models that capture the multi-scale complexity of brain function.

    Ultimately, the goal of computational explorations in cognitive neuroscience is to gain a deeper understanding of the mind-brain relationship. By simulating the brain, researchers can uncover the underlying mechanisms that give rise to our mental experiences, paving the way for new insights into cognition and potential treatments for neurological and psychiatric disorders.
    #Computational #Explorations #Cognitive #Neuroscience #Understanding #Mind #Simulating #Brain

  • Toward Human-Level Artificial Intelligence: How Neuroscience Can Inform the Pursuit of Artificial General Intelligence or General AI

    Toward Human-Level Artificial Intelligence: How Neuroscience Can Inform the Pursuit of Artificial General Intelligence or General AI


    Price: $54.95 – $43.96
    (as of Dec 25,2024 01:11:52 UTC – Details)




    Publisher ‏ : ‎ CRC Press; 1st edition (September 18, 2024)
    Language ‏ : ‎ English
    Paperback ‏ : ‎ 176 pages
    ISBN-10 ‏ : ‎ 1032829079
    ISBN-13 ‏ : ‎ 978-1032829074
    Item Weight ‏ : ‎ 11.6 ounces
    Dimensions ‏ : ‎ 0.41 x 6.14 x 9.21 inches


    In recent years, the field of artificial intelligence (AI) has made significant advancements, with machines now able to perform complex tasks such as image recognition, natural language processing, and playing games at a level that rivals or surpasses human performance. However, despite these achievements, we are still far from achieving artificial general intelligence (AGI) or what is often referred to as human-level AI.

    One approach that holds great promise in advancing the development of AGI is to draw inspiration from the field of neuroscience. By studying how the human brain processes information, learns, and makes decisions, we can gain valuable insights into the underlying principles that govern intelligence. This knowledge can then be used to inform the design and development of AI systems that are capable of exhibiting similar levels of flexibility, adaptability, and generalization as human intelligence.

    Neuroscience can help us understand how the brain encodes and represents information, how it learns from experience, and how it performs complex cognitive tasks such as reasoning, problem-solving, and decision-making. By incorporating these insights into AI algorithms and architectures, we can build systems that are not only capable of performing specific tasks but also of learning new tasks and adapting to new environments in a way that is more human-like.

    Moreover, neuroscience can also provide valuable guidance on how to ensure that AI systems are safe, transparent, and ethical. By understanding how the human brain processes emotions, values, and ethical principles, we can design AI systems that are aligned with human values and that can interact with humans in a more natural and empathetic manner.

    In conclusion, by leveraging the insights and principles from neuroscience, we can make significant progress toward the development of AGI or human-level AI. This interdisciplinary approach holds the key to unlocking the full potential of AI and creating intelligent systems that can truly understand, interact with, and ultimately benefit humanity.
    #HumanLevel #Artificial #Intelligence #Neuroscience #Inform #Pursuit #Artificial #General #Intelligence #General

  • Unsupervised Learning: Foundations of Neural Computation (Computational Neuroscience)

    Unsupervised Learning: Foundations of Neural Computation (Computational Neuroscience)


    Price: $50.00
    (as of Dec 24,2024 01:32:46 UTC – Details)




    Publisher ‏ : ‎ MIT Press; First Edition (June 11, 1999)
    Language ‏ : ‎ English
    Paperback ‏ : ‎ 398 pages
    ISBN-10 ‏ : ‎ 026258168X
    ISBN-13 ‏ : ‎ 978-0262581684
    Reading age ‏ : ‎ 18 years and up
    Grade level ‏ : ‎ 12 and up
    Item Weight ‏ : ‎ 1.2 pounds
    Dimensions ‏ : ‎ 9.15 x 6.07 x 0.85 inches


    Unsupervised Learning: Foundations of Neural Computation (Computational Neuroscience)

    Unsupervised learning is a fundamental concept in the field of computational neuroscience, playing a crucial role in understanding the brain’s ability to learn and adapt to new information without explicit instruction. This form of learning involves the discovery of patterns and relationships within data, without the need for labeled examples or feedback from a supervisor.

    In the realm of neural computation, unsupervised learning algorithms are inspired by the way the brain processes information and forms connections between neurons. These algorithms aim to mimic the brain’s ability to organize and interpret complex data, leading to the development of intelligent systems that can learn and improve over time.

    By studying unsupervised learning in computational neuroscience, researchers can gain insights into how the brain processes sensory information, forms memories, and adapts to new environments. This foundational knowledge has implications for various fields, including artificial intelligence, machine learning, and cognitive science.

    Overall, understanding the principles of unsupervised learning is essential for unlocking the mysteries of neural computation and advancing our understanding of the brain’s remarkable capabilities.
    #Unsupervised #Learning #Foundations #Neural #Computation #Computational #Neuroscience

  • Mind Magic: The Neuroscience of Manifestation and How It Changes Everything

    Mind Magic: The Neuroscience of Manifestation and How It Changes Everything


    Price: $0.00
    (as of Dec 17,2024 10:48:31 UTC – Details)


    Customers say

    Customers find the book insightful and useful, providing practical strategies to focus attention and release negative self-beliefs. They describe it as a great read that explains difficult concepts clearly. The layout makes referencing exercises easy, and the author’s approach is simple and grounded. Readers appreciate the actionable steps presented without excessive details.

    AI-generated from the text of customer reviews


    Have you ever wondered how our thoughts and beliefs can shape our reality? The field of neuroscience has been uncovering the powerful connection between our minds and the world around us, showing us just how much influence we have over our own lives.

    Manifestation, the practice of turning our thoughts and desires into reality, has been gaining popularity in recent years as people tap into the power of their minds to create the life they want. But what exactly is happening in our brains when we manifest our desires?

    Recent studies have shown that our thoughts and beliefs can actually change the structure of our brains, creating new neural pathways that shape our perception of reality. This means that when we focus on positive thoughts and beliefs, we are literally rewiring our brains to see a world full of possibilities and opportunities.

    So how can we harness the power of our minds to manifest our desires? It all starts with belief. By truly believing in the possibility of our desires coming true, we send a signal to our brains that sets off a chain reaction of neural activity that aligns us with our goals.

    But it doesn’t stop there. The key to manifestation is also taking action towards our goals, as our thoughts alone are not enough to bring them to life. By combining belief with action, we can create a powerful synergy that propels us towards our dreams.

    So next time you find yourself doubting your ability to manifest your desires, remember the power of your mind to shape your reality. By understanding the neuroscience of manifestation, you can unlock your full potential and create a life filled with abundance and joy.
    #Mind #Magic #Neuroscience #Manifestation

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