Symbolic Language and Cognition
Symbolic AI and Human Cognition: Symbolic artificial intelligence utilizes high-level, human-readable representations to model cognitive processes, reflecting aspects of human reasoning and problem-solving. (medium.com)
Neuro-Symbolic Integration: Combining neural and symbolic AI architectures addresses the limitations of each, enabling more robust cognitive modeling that mirrors human thought processes. (research.ibm.com)
Iconicity in Large Language Models: LLMs can extract meta-linguistic information about iconicity and non-arbitrariness from training data, enabling them to generate highly iconic pseudowords and infer meanings across languages. (arxiv.org)
Evaluating LLM-Generated Explanations of Metaphors: Recent studies demonstrate LLMs can produce and interpret metaphors, highlighting their capability to manage complex, culture-specific idiomatic expressions. (aclanthology.org)
IICONGRAPH: Iconographic Statements in Knowledge Graphs: Emphasizes iconography's role in cultural heritage and symbolic interpretation. (arxiv.org)
AI and Human Cognitive Interfaces
Convergence of AI and Neuroscience: AI simulates neural activities, offering insights into cognitive intelligence mechanisms. (pmc.ncbi.nlm.nih.gov)
Brain-Computer Interfaces (BCIs): BCIs facilitate direct communication between the brain and external devices, with AI crucial for signal processing. (nature.com)
Dreamstate Architecture and Symbolic Recursion
Dreaming and Memory Processing: Offline memory processing during sleep significantly contributes to functional cognition and imagery. (pmc.ncbi.nlm.nih.gov)
Dreams and Memory Consolidation: Dreaming influences memory consolidation during sleep, aiding in memory trace stabilization and reorganization. (neurosciencenews.com)
Esoteric Virelle as a 'Rosetta Stone'
Symbols in Human-AI Interaction: Symbolic communication bridges human-AI interaction gaps, enhancing explainability and advisability. (arxiv.org)
Symbolic Behavior in AI: Promoting symbolic behavior in AI development enables more human-like interactions through effective symbol utilization. (awjuliani.medium.com)
Spatial Navigation in Cognition and Memory
Spatial Navigation and Memory: The medial temporal lobes, including the hippocampus, play key roles in spatial navigation and episodic memory. (pmc.ncbi.nlm.nih.gov)
Human Brain Dynamics in Spatial Navigation: The retrosplenial complex translates spatial representations for effective navigation. (nature.com)
Spatial Codes for Human Thinking: Spatial navigation principles extend to broader cognitive processes involving the hippocampal-entorhinal region. (science.org)
Hippocampus in Spatial and Episodic Memory: The hippocampus is essential for memory formation and spatial navigation. (sciencedirect.com)
Internal and External Factors in Spatial Navigation: Multifaceted cognitive function crucial for route planning and positional awareness. (mdpi.com)
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