1
From: "Human Potential & Development."
Split Justification: Development fundamentally involves both our inner landscape (**Internal World**) and our interaction with everything outside us (**External World**). (Ref: Subject-Object Distinction)..
2
From: "Internal World (The Self)"
Split Justification: The Internal World involves both mental processes (**Cognitive Sphere**) and physical experiences (**Somatic Sphere**). (Ref: Mind-Body Distinction)
3
From: "Cognitive Sphere"
Split Justification: Cognition operates via deliberate, logical steps (**Analytical Processing**) and faster, intuitive pattern-matching (**Intuitive/Associative Processing**). (Ref: Dual Process Theory)
4
From: "Intuitive/Associative Processing"
Split Justification: Intuitive/associative processing fundamentally operates in two distinct, yet complementary, modes: either by rapidly identifying and utilizing pre-existing patterns and associations (often automatically and implicitly), or by forming new, non-obvious connections that lead to emergent insights and novel ideas. These two categories comprehensively cover the scope of how this cognitive function processes information.
5
From: "Pattern Matching & Implicit Activation"
Split Justification: ** This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of patterns based on direct sensory input (e.g., recognizing faces, sounds, immediate environmental threats) from the rapid, often automatic, identification and utilization of patterns based on abstract meaning, categories, semantic knowledge, and higher-level schema (e.g., understanding language, social cues, expert intuition). These two categories delineate distinct levels of information abstraction in pattern processing, comprehensively covering the scope of how pre-existing patterns are implicitly identified and utilized.
6
From: "Perceptual Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of patterns derived from external sensory input (e.g., visual scenes, sounds, tactile sensations from the environment) from those derived from internal bodily sensations (e.g., proprioception, interoception, vestibular sense). These two categories comprehensively cover all sources of direct sensory input for pattern processing.
7
From: "Interoceptive & Proprioceptive Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of patterns based on internal physiological states (interoception) from those based on body position, movement, and muscle tension (proprioception). These two categories represent distinct sensory systems within the internal body, comprehensively covering the scope of how these specific types of perceptual patterns are implicitly identified and utilized.
8
From: "Interoceptive Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates interoceptive pattern matching that primarily concerns the regulation of internal bodily states to maintain homeostasis and address basic physiological needs (e.g., hunger, thirst, temperature, pain, fatigue) from interoceptive pattern matching that primarily concerns the recognition and implicit interpretation of bodily sensations that constitute or accompany affective and emotional states (e.g., heart rate changes associated with anxiety, gut feelings associated with fear or excitement). These two categories comprehensively cover the primary functional domains of interoceptive pattern recognition and activation.
9
From: "Homeostatic & Physiological Need Pattern Matching"
Split Justification: ** This dichotomy fundamentally separates interoceptive pattern matching concerning the body's internal chemical balance and energy status (e.g., nutrients, water, oxygen, metabolic byproducts, energy levels) from interoceptive pattern matching concerning the body's physical integrity, defense mechanisms, and protection from internal threats or structural deviations (e.g., damage, infection, inflammation, temperature regulation). These two categories comprehensively cover the primary domains of homeostatic and physiological need recognition.
10
From: "Chemical & Energetic Homeostasis Pattern Matching"
Split Justification: This dichotomy fundamentally separates interoceptive pattern matching concerning the detection and implicit interpretation of insufficient levels of essential chemical resources or energy (e.g., low nutrients, dehydration, hypoxia, energy depletion) from that concerning the detection and implicit interpretation of excessive levels or accumulation of metabolic byproducts or other chemicals that disrupt internal balance (e.g., hypercapnia from CO2 buildup, acidosis, accumulation of waste products). These two categories comprehensively cover the primary ways chemical and energetic homeostasis is monitored through implicit pattern recognition.
11
From: "Chemical & Energetic Excess & Byproduct Pattern Matching"
Split Justification: ** This dichotomy fundamentally separates interoceptive pattern matching concerning the detection and implicit interpretation of metabolic byproducts and other internally generated substances whose accumulation is inherently detrimental and primarily triggers elimination or detoxification processes, from that concerning the detection and implicit interpretation of excessive levels of essential chemical resources (nutrients, water, energy substrates) or endogenous signaling molecules whose imbalance disrupts homeostasis and primarily triggers regulation, storage, or compensatory adjustment processes.
12
From: "Nutrient, Energy & Signaling Molecule Excess Pattern Matching"
Split Justification: This dichotomy fundamentally separates interoceptive pattern matching concerning the detection and implicit interpretation of an excess of the body's direct material resources and energy substrates (e.g., glucose, lipids, stored energy) from that concerning the detection and implicit interpretation of an excess of molecules whose primary function is to regulate and communicate within and between physiological systems (e.g., hormones, neurotransmitters, cytokines). These two categories comprehensively cover the types of substances encompassed by the parent node whose excess triggers homeostatic regulation, storage, or compensatory adjustment.
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Topic: "Nutrient & Energy Substrate Excess Pattern Matching" (W5667)