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Attribute Unconscious Mind Generative AI
Information Processing Processes vast amounts of information rapidly and automatically, often without conscious awareness (From the first studies of the unconscious mind to consumer neuroscience: A systematic literature review, 2023) Processes large datasets quickly, extracting patterns and generating outputs without explicit programming for each task (Deep Learning, 2015)
Pattern Recognition Recognizes complex patterns in sensory input and past experiences, influencing behavior and decision-making (Analysis of Sources about the Unconscious Hypothesis of Freud, 2017) Excels at identifying patterns in training data, forming the basis for generating new content or making predictions (A Survey on Deep Learning in Medical Image Analysis, 2017)
Creativity Contributes to creative insights and problem-solving through unconscious incubation and associative processes (The Study of Cognitive Psychology in Conjunction with Artificial Intelligence, 2023) Generates novel combinations and ideas by recombining elements from training data in unexpected ways (e.g., GANs in art generation) (Generative Adversarial Networks, 2014)
Emotional Processing Processes emotional information rapidly, influencing mood and behavior before conscious awareness (Unconscious Branding: How Neuroscience Can Empower (and Inspire) Marketing, 2012) Can generate text or images with emotional content based on patterns in training data, but lacks genuine emotions (Language Models are Few-Shot Learners, 2020)
Memory Consolidation Plays a crucial role in memory consolidation during sleep, strengthening neural connections (The Role of Sleep in Memory Consolidation, 2001) Analogous processes in some AI systems involve memory consolidation and performance improvement (In search of dispersed memories: Generative diffusion models are associative memory networks, 2024)
Implicit Learning Acquires complex information without conscious awareness, as in procedural learning (Implicit Learning and Tacit Knowledge, 1994) Learns complex patterns and rules from data without explicit programming, similar to implicit learning in humans (Deep Learning for Natural Language Processing, 2018)
Bias and Heuristics Employs cognitive shortcuts and biases that can lead to systematic errors in judgment (Thinking, Fast and Slow, 2011) Can amplify biases present in training data, leading to skewed outputs or decision-making (Mind vs. Mouth: On Measuring Re-judge Inconsistency of Social Bias in Large Language Models, 2023)
Associative Networks Forms complex networks of associations between concepts, influencing thought and behavior (The associative basis of the creative process, 2010) Creates dense networks of associations between elements in training data, enabling complex pattern completion and generation tasks (Attention Is All You Need, 2017)
Parallel Processing Processes multiple streams of information simultaneously (Parallel Distributed Processing: Explorations in the Microstructure of Cognition, 1986)) Utilizes parallel processing architecture (e.g., neural networks) to handle multiple inputs and generate outputs (Next Generation of Neural Networks, 2021)
Intuition Generates rapid, automatic judgments based on unconscious processing of past experiences (Blink: The Power of Thinking Without Thinking, 2005) Produces quick outputs based on learned patterns, which can appear intuitive but lack genuine understanding (BERT: Pre-training of Deep Bidirectional Transformers for Language Understanding, 2019)
Priming Effects Unconscious exposure to stimuli influences subsequent behavior and cognition (Attention and Implicit Memory: Priming-Induced Benefits and Costs, 2016) Training on specific datasets can "prime" generative AI to produce biased or contextually influenced outputs (AI Fairness 360: An Extensible Toolkit for Detecting, Understanding, and Mitigating Unwanted Algorithmic Bias, 2018)
Symbol Grounding Grounds abstract symbols in sensorimotor experiences and emotions (The Symbol Grounding Problem, 1990) Struggles with true symbol grounding, relying instead on statistical correlations in text or other data (Symbol Grounding Through Cumulative Learning, 2006)
Metaphorical Thinking Uses embodied metaphors to understand and reason about abstract concepts (Metaphors We Live By, 1980) Can generate and use metaphors based on learned patterns but lacks deep understanding of their embodied nature (Deep Learning-Based Knowledge Injection for Metaphor Detection, 2023)
Dream Generation Produces vivid, often bizarre narratives and imagery during REM sleep (The Interpretation of Dreams, 1900) Some generative models can produce dream-like, surreal content (Video generation models as world simulators, 2024)
Cognitive Dissonance Automatically attempts to reduce inconsistencies between beliefs and behaviors (A Theory of Cognitive Dissonance, 1957) MoE architectures can handle a wider range of inputs without ballooning model size, suggesting potential for resolving conflicts between different AI components by synthesizing expert opinions into a coherent whole​ (Optimizing Generative AI Networking, 2024).
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[-] randon31415@lemmy.world 0 points 4 months ago

Even if it doesn't work the same way, humans anthropomorphing pattern detection will grapple on to it as "same function, so same thing". As we slowly build general AI, other "things that don't work that way" will be attached on to it until we have a full general AI whose brain works nothing like humans but has pieces that work in similar fashions.

Sort of like how 60 Watt LED light bulbs don't use 60 Watts. "They produce the same about of light, so they must use the same amount of energy!"

[-] Hackworth@lemmy.world 3 points 4 months ago* (last edited 4 months ago)

On the flip side of that, the discoveries that accompanied attention transformers are changing the way we think about our own neurology:

A new study bridging neuroscience and machine learning offers insights into the potential role of astrocytes in the human brain.

Convergence of Artificial Intelligence and Neuroscience towards the Diagnosis of Neurological Disorders

And how we study it:

Artificial Intelligence shaping the future of neurology practice

I try not to be quick to assume that intuitions around similarities are correct or incorrect, but I trust they are worth exploring.

this post was submitted on 28 Jul 2024
-23 points (33.3% liked)

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