050 🧠 Neuroscience

Neuroscience untersucht das Nervensystem auf allen Ebenen — von einzelnen Synapsen bis zu kognitiven Prozessen wie Bewusstsein, Gedächtnis und Emotion.

→ Untergebiete: 051 ☣Neurobiology · 052 🫧Hormone und Neurotransmitter

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🧩 Kernthemen

Gehirnregionen & Struktur

• Brain Organization · Neocortex · cerebral cortex
• Amygdala · Hippocampus · PFC · frontal lobe
• Temporal lobe · Parietal lobe · Visual cortex
• Broca’s and Wernicke’s Area · Temporo parietal junction
• Brodmann Area · raphe nucleus

Kognition & Wahrnehmung

• Attention Systems · Attentional Space · Bottom-up Processing
• Alerting Systems, The Awakening of the Brain
• Theory of Mind and Mentalizing · Consciousness
• Vision · corollary discharge · Active Inference

Gedächtnis & Lernen

• memory processing · About sleep’s role in memory
• Active Engagement, A passive Organism doesn’t learn
• CNP - Memory Encoding and Storage · CNP - Memory Retention and Retrieval

Emotion & Verhalten

• Emotion · Affective Neuroscience · Anxiety
• Stress-Response · Adolescent Risk Taking
• Affect or Cognition

Methoden & Tools

• fMRI · advanced fmri · Brain Connectivity

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📋 Alle Notizen

• [[Tools extend tactile perception beyond the body]]
• A Synapse must be open or closed
• About sleep’s role in memory
• Acetylcholine (ACh)
• Acting on Environment
• Active Engagement, A passive Organism doesn’t learn
• Active Inference
• Actually doing Something
• ADHD
• Adolescent Risk Taking
• advanced fmri
• Affect or Cognition
• Affective Neuroscience
• akinesis
• Alerting Systems, The Awakening of the Brain
• Amyloid beta, structure, biology and structure-based therapeutic development
• Anterior Cingulate Cortex
• Anwendung im Alltag
• Anxiety
• Any Kind of Mother in a Storm
• Are neural Oscillations necessary or an epiphenomenon?
• Attention Systems
• Attentional Space
• Axonal Plasticity
• Border cells
• Bottom-up Processing
• Brain Connectivity
• Brain Organization
• brain stem
• BrainEncoding26 – Research Ideas & Implementation
• BrainEncoding26 Challenge – Course Overview
• Broca’s and Wernicke’s Area
• Brodmann Area
• Building Machines that learn and think like people
• Cellular and Molecular Neuroscience
• Central Nervous System (CNS)
• Cerebellar Cortex
• Cerebellum
• cerebral cortex
• childhood adversity
• Cingulate Cortex
• Cingulate Gyrus
• CNP - Memory Encoding and Storage
• CNP - Memory Retention and Retrieval
• CNP - Neuroscience - Signal Processing
• Cognition
• Cognitive Computational Neuroscience
• Communication in different species
• Communication through Coherence
• Complementary Learning Systems
• Computational Neuroscience
• Computational Neuroscience (Master)
• congential adrenal hyerplasia (CAH)
• Connectome
• Consciousness
• corollary discharge
• Course on Neuroscience chatGPT
• Creative Thinking
• Curiosity and How to Pique It
• Das richtige tun
• decision making
• declarative memory
• Deep Brain Stimulation (DBS)
• Deep Learning the good, the bad and the ugly
• Deep Neural Networks
• Deep Neural Networks in Computational Neuroscience
• Deep research neural oscillations necessary or epiphenomenon?
• Deeper Processing, better Learning
• Dendrites
• Die Entwicklung des Gehirns
• different types of parenting
• Directions in the brain
• Discoveries during Sleep
• Do we really know how the brain works?
• Dorsal Pathway
• Eigener Podcast
• Einführung in die Funktionalität des Gehirns
• elicit activity of V4 in monkey
• Emotion
• Emotional Regulation
• Empathy, Sympathy, and Moral Reasoning
• Entorhinal Cortex
• Episodic Memory
• Executive Control, The Brain’s Switchboard
• Experience (Erfahrung)
• Fear Network
• Feeling someone else’s pain
• four stages of cognitive development
• Frage Limbisches System und aggressives Verhalten
• Freeing Up Brain Resources
• Frontal Cortex
• Frontal Cortical Changes in Cognition in Adolescence
• Frontal Cortical Maturation
• Frontal Metabolism and an Implicit Vulnerability
• Functional Connectivity and Functional Networks
• Gedächtnis und Lernen
• Gehirn vs Maschine
• Grades and Error Feedback
• Grid cells
• gustatory system
• Head Direction cells
• High-performing neural network models of visual cortex benefit from high latent dimensionality
• Hippocampal activity during sleep
• Hippocampus
• Homonculus
• Hopfield Networks
• How a neuron cell is working
• How can deep learning help us understand the brain?
• How can RDMs help us understand the Brain?
• How can we mimic the brain?
• How can you mimic the human visual cortex?
• How Do FEF and IFJ Tune the Brain with Beta- vs. Gamma-Band Waves?
• How does our brain process images?
• How good are we at explaining human cognition?
• How Memories are created
• Huntington’s Disease
• Idea by ChatGPT project proposal for ML4CCN
• If deep learning is the answer, what is the question?
• Implicit learning
• Inferior colliculus
• Inferior Frontal Cortex
• Inferring Intentions from Actions
• Inhibition of Return
• insular cortex (insula)
• Interoceptive Information
• Is the fusiform face area really only face selective?
• Können Blinde sehen
• Language Highways
• Large Language Models
• Lateral inhibition
• Lateral Intraparietal Cortex (LIP)
• Learned Helplessness
• Learning is inferring the grammar of a domain
• Learning is reasoning as a scientist
• Learning to Attend
• Let’s start at the very Beginning The Importance of Mothers
• LinkedIn Posts
• Locus Coeruleus (blauer Kern)
• Lower Motor Neurons
• Mathematics Recycles the Circuits for Approximate Number
• Memory in Sleep
• memory processing
• Mental Imagery
• Microsaccades
• Mind (Verstand)
• Minimal criteria for a sensory encoding model
• Mirror Neurons (MN)
• ML4CCN VL10 auditory cortex and semantics
• Modulation of Learning
• moral decision making
• Motion-induced-Blindness
• Motivational Enhancement Therapy
• Multimodal Learning
• Multiscale codes in the nervous system; The problem of noise correlations and the ambiguity of periodic scales
• Nebennierenrinde
• Neocognitron
• Networks across the Life Span
• Neural Aspects of Prediction
• Neural Encoding with Deep Neural Networks
• Neuroconnectionism and TNNs
• Neurodynamics
• Neurogenesis
• Neuroinformatics
• Neurotransmission
• Non-REM Sleep
• Noradrenaline
• nulceus accumbens circuitry
• Numbers in Neuroscience to learn by heart
• Nutrition as a Key Element of Learning
• Nutrition as a Key Element of Learning 2
• olfactory system
• Optical Illusions
• orbitofrontal cortex
• Orienting, the Brain’s Filter
• Outline Seminar Paper Brain Connectivity
• Owls and larks do not exist, COVID-19 quarantine sleep habits
• Pain Perception
• Parahippocampal Place Area PPA
• Parietal lobe
• Peers, Social Acceptance, and Social Exclusion
• Perception
• periaqueductal brain region
• perirhinal cortex
• Phobias, stress and hippocampus
• Place Cells
• Plasticity
• preattentive processing
• Predictability and Control
• Predicting upcoming words
• Prediction Error
• Predictive Coding
• Prefrontal-Subcortical Pathways Mediating Successful Emotion Regulation
• premotor cortex
• Primary Motor Cortex
• Priming
• Priming 2
• Principal Component Analysis (PCA)
• Procedural Memory
• Project Proposal ML4CCN by Maximilian Herrmann
• Projekt, Virtuelle Implantate im Resting-State fMRI
• Pursuit
• Putamen
• Questions CNM 01_Introduction_1
• Questions ML4CCN VL1
• Questions ML4CCN VL10
• Questions ML4CCN VL11
• Questions ML4CCN VL2
• Questions ML4CCN VL3
• Questions ML4CCN VL4
• Questions ML4CCN VL5
• Questions ML4CCN VL6
• Questions ML4CCN VL7
• Questions ML4CCN VL8
• Questions ML4CCN VL9
• RDMs and RSA
• read people’s mind
• Receiver Operator Characteristics
• Reconciliation
• Recycle your Brain
• Recycle your Brain 2
• Reflexe
• Relational Memory
• Representational Dissimilarity Matrix (RDM)
• Representational geometry; integrating cognition, computation, and the brain
• Representational Similarity Analysis (RSA)
• resilience
• Route Maps
• Self-Efficacy, Dopamine and the Power of Confidence
• Self-Supervised Learning
• Semantic Memory
• Sensory Cortex 2
• Simulating the Future
• Sleep and Stress
• Sleep Drives Metabolite Clearance from the Adult Brain
• sleep rhythm and siestas
• Sleep, Childhood, and School
• social cognition
• social success
• Somatosensory Cortex
• Speed cells
• Spinal cord
• Stress and Depression
• Stress and Memory
• Stress-Response
• Striatum
• Submission and Freedom
• Substantia Nigra
• Supplementary motor area (SMA)
• Surprise, The Driving Force of Learning
• Synapse
• Tasks that pair well
• Temporal lobe
• Temporal Processing
• Temporo parietal junction
• Test Thyself
• Thalamus
• The Amazing Brain of Blind People
• The Art of Being Bored
• The Autonomic Nervous System and the Ancient Core Regions of the Brain
• The Brain Swarms with Error Messages
• The Brain Swarms with Error Messages 2
• The Default Mode Network and Mind Wandering
• The Dynamics of Cognition and Shifting connections
• The Golden Rule, Spacing Out the Learning
• The Golden Rule, Spacing Out the Learning 2
• The hidden Mind and Blindsight
• The Interface Between the Limbic System and the Cortex
• The Key Role of Sleep
• The many Faces of Prediction
• The Moving Eyes
• The neuroconnectionist research programme
• The Origins of Individuality
• The Origins of Individuality 2
• The Portrait of a Memory
• The Power and Limits of Synaptic Plasticity
• The Power and Limits of Synaptic Plasticity 2
• The Self-Organization of the Cortex
• The Self-Organization of the Cortex 2
• The Seven Definitions of Learning
• The significance of microsaccades for vision and oculomotor control
• The Sleeping Brain Relives the Previous Day
• The Sleeping Brain Relives the Previous Day 2
• Theory of Mind and Mentalizing
• Thinking to the Muscles
• Thirteen Take-Home Messages to optimize Children’s Potential
• Thirteen Take-Home Messages to optimize Children’s Potential 2
• Three Metaphorical (but not literal) Layers
• Three Ways school can kill Curiosity
• Tipps für meinen Content
• Top-down Processing
• True Synapses and False Memories
• True Synapses and False Memories 2
• Tuning Curves and decodability
• Tutor Script – AC MS Lecture 1 Intro Spinal Cord
• Tutor Script – AC MS Lecture 2 Cerebellum Classical Conditioning
• Tutor Script – AC MS Lecture 2 Integrate-and-Fire Neuron
• Tutor Script – AC MS Lecture 3 Basal Ganglia
• Tutor Script – AC MS Lecture 4 Motor Cortex
• Tutor Script – AC MS Lecture 5 Mirror Neurons
• Tutor Script – AC MS Lecture 6 Decisions
• Tutor Script – AC MS Lecture 9 Reward
• Twentieth-Century Developments
• Under the Radar, Subliminal and Unconscious Cuing
• Ventral Visual Pathway
• Ventromedial PFC
• Verarbeitungszeiten im visuell-motorischen System
• Vision
• Visual cortex
• Visual hypothesis for mirror neurons
• Wanting to Know, The Source of Motivation
• Was ist Intelligenz?
• Was passiert, wenn Gehirnimplantate mainstream werden
• Wernicke’s area
• What if you didn’t have mirror neurons?
• What is a sensitive period?
• What is a sensitive period? 2
• What is Artificial Intelligence Missing?
• What is Artificial Intelligence Missing? 2
• What is more powerful than pleasure
• What is the Cerebellum for?
• What-pathway
• When does a decision begin?
• Why Neurons have Thousands of Synapses (Article)
• Why we have alternating sleep phases
• Wie Teile des Gehirns Aufgaben fremde Aufgaben übernehmen
• Wie werden auditive Reize im Gehirn verarbeitet?
• Working Memory
• X posts

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