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: "Exteroceptive Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of patterns derived from senses that perceive stimuli at a distance (e.g., vision, audition for environmental scanning and distant object recognition) from those that require direct physical contact or very close proximity (e.g., touch, taste, smell for immediate object properties and direct interaction). These two categories comprehensively cover all sources of exteroceptive sensory input by distinguishing between information gathered about the broader, remote environment and information gathered through immediate, close-range interaction with objects or substances.
8
From: "Distal Exteroceptive Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of patterns derived from visual sensory input (e.g., recognizing faces, objects, scenes, motion from light) from those derived from auditory sensory input (e.g., recognizing voices, sounds, music, environmental noises from sound waves). These two categories comprehensively cover the primary modes of distal exteroceptive pattern processing in humans.
9
From: "Auditory Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of auditory patterns specifically structured for and interpreted as language (e.g., phonemes, words, prosody in speech) from those not structured for or interpreted as language (e.g., music, environmental sounds, animal vocalizations, alarms). These two categories comprehensively cover the primary functional domains of human auditory pattern processing.
10
From: "Non-Linguistic Auditory Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of non-linguistic auditory patterns originating directly from living organisms (e.g., animal vocalizations, human non-verbal vocalizations like crying or laughter, sounds of biological processes) from those originating from non-living sources or physical processes (e.g., environmental phenomena like wind or thunder, mechanical sounds, instrumental music, alarms, sounds of objects interacting). These two categories comprehensively cover all sources of non-linguistic auditory input by distinguishing between animate and inanimate sound production.
11
From: "Physicogenic Non-Linguistic Auditory Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of non-linguistic auditory patterns originating from natural physical processes and phenomena (e.g., wind, rain, thunder, geological sounds, unmanipulated material interactions) from those originating from human-made objects, structures, or engineered processes (e.g., machinery, vehicles, tools, alarms, musical instruments, sounds of built environments). These two categories comprehensively cover all sources of physicogenic auditory input by distinguishing between sounds produced by the natural world and those produced by human artifice.
12
From: "Anthropogenic Physicogenic Non-Linguistic Auditory Pattern Matching & Activation"
Split Justification: This dichotomy fundamentally separates the rapid, often automatic, identification and utilization of anthropogenic physicogenic non-linguistic auditory patterns that are deliberately designed and produced for their auditory characteristics (e.g., alarms, music, signals, jingles) from those that are unintended byproducts or incidental emanations of human-made objects or systems performing their primary, non-auditory functions (e.g., machinery noise, vehicle sounds, tool sounds, structural creaks). These two categories comprehensively cover all sources of anthropogenic physicogenic non-linguistic auditory patterns by distinguishing between sounds created as primary outputs and sounds as secondary consequences of function.
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Topic: "Designed Auditory Output Pattern Matching & Activation" (W6019)