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![Page 1: 1 The LIDA model’s hypotheses on the cognitive cycle, high-level cognitive processes, and brain rhythms Stan Franklin.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f1e5503460f94c35c51/html5/thumbnails/1.jpg)
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The LIDA model’s hypotheses on the cognitive cycle,
high-level cognitive processes, and brain rhythms
Stan Franklin
![Page 2: 1 The LIDA model’s hypotheses on the cognitive cycle, high-level cognitive processes, and brain rhythms Stan Franklin.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f1e5503460f94c35c51/html5/thumbnails/2.jpg)
Cognitive Architecture
• Attempts to mirror the structure of cognitive systems (e.g. humans)
• So as to produce behaviors mirroring those of cognitive systems
• Can be conceptual or computational or both
• LIDA is a cognitive architecture
October 19, 2007
Univ of Memphis — Computer Science Department 2
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LIDA based on Cognitive Science
• LIDA implements central ideas from Global Workspace Theory (Baars 1988)
• LIDA also implements central ideas from other cognitive theories– Embodied cognition (Glenberg & Robertson 2000)
– Perceptual symbol systems (Barsalou 1999)
– Long-term working memory (Ericsson & Kintsch 1995)
– Transient episodic memory (Conway 2001)
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Univ of Memphis — Computer Science Department 3
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LIDA Cognitive Architecture
• Basic assumptions– Every autonomous agent operates by frequent
iteration of sense-process-act cycles– A LIDA controlled agent functions via a
continual cascade of cognitive cycles– High-level cognitive processes are produced by
sequences of these cognitive cycles
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Univ of Memphis — Computer Science Department 4
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Functions of a Cognitive Cycle
• Sense the environment (internal or external)
• Understand the current situation
• Decide what part to attend to
• Select an appropriate action to take• Execute the action (internal or external)
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LIDA Cognitive Cycle
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LIDA’s Workspace
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Workspace
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Human Cognitive Cycle Processing• Hypothesis— Human cognitive processing is via
a continuing iteration of Cognitive Cycles
• Duration— Each cognitive cycle takes roughly 200 ms
• Cascading— Several cycles may have parts running simultaneously in parallel
• Seriality— Consciousness maintains serial order and the illusion of continuity
• Cycle— The cognitive cycle corresponds to the action/perception cycle
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Feelings & Emotions
• Feelings – thirst, pain, anxiety, boredom
• Emotions – fear, shame, confusion
– Emotions = feelings with cognitive content• Feelings (including emotions) serve to
– Implement motivations– Modulate learning– Bias sensory-motor actions
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Learning in LIDA
• Learning takes place during each cycle
• Learning is a function of attention and
of arousal level
• Feelings and emotions modulate learning
• Modes of learning
– Perceptual
– Episodic
– Procedural
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Selectionist & Instructionalist Learning
• Selectionist Learning– selected for reinforcement
from a redundant repertoire
• Instructionalist Learning– new representations constructed
• LIDA learns by both methods
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Modifying Base-level Activation
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Decay Curve
• Low base-level activation — rapid decay• Saturated base-level activation —
almost no decay
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High-level Cognitive Processes
• Requires multiple cognitive cycles• Examples
– Volitional decision making– Planning– Scheduling– Problem solving– Imagination– Theory of mind– Metacognition
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High-level Cognitive Process Hypothesis
• Each such high-level process operates via a sequence of cognitive cycles
• Each is implement by a collection of behavior streams – partially ordered sets of behaviors
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High-level, broad, integrative, cognitive models
• Include processes from sensation to action, including learning
• Empirically grounded in cognitive science and neuroscience
• Provide hypotheses to guide research
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Univ of Memphis — Computer Science Department 17
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Cell Assembly Level(Neuroscience)
Attractor Landscape Level(Non-linear Dynamics)
Cognitive Model Level(Cognitive Science)
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Neural Correlates of LIDA Components
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Available online at http://ccrg.cs.memphis.edu/tutorial/correlates.html
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Action-Perception Cycle (Intentional Arc)
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Freeman, W J. 1995. Societies of brains. Hillsdale NJ: Lawrence Erlbaum.
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Theta-Gamma Coupling
Jensen, O & LL Colgin. 2007. Cross-frequency coupling between neuronal oscillations. TRENDS in Cognitive Sciences 11, no. 7: 267-269.Canolty et al. 2006. High gamma power is phase-locked to theta oscillations in human neocortex. Science 313: 1626–1628.
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Dreaming Rhythms Hypothesis
• Dreaming occurs during REM and NREM sleep
• Hypothesis: Dreaming is characterized by theta coupled with gamma AM modulation (somewhere ?)
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Univ of Memphis — Computer Science Department 23
Email and Web Addresses
• Stan Franklin – [email protected]– www.cs.memphis.edu/~franklin
• Cognitive Computing Research Group– http://ccrg.cs.memphis.edu/