Dynamic Diagonal Model (DDM): A Testable Hypothesis for Efficient Human Coordination
Dynamic Diagonal Model (DDM): A Testable Hypothesis for Efficient Human Coordination
The Dynamic Diagonal Model (DDM) proposes that the human neuromuscular system can access a distinct coordination regime characterized by spiral fascial organization, deep stabilizer prioritization, and lower metabolic cost. Key predictions: - ≥5% reduction in VO₂ during standard motor tasks - Decreased EMG amplitude in postural muscles - Improved kinematic coherence - Reduced perceived effort This document establishes priority for the DDM hypothesis and invites scientific collaboration for rigorous validation.
Dynamic Diagonal Model (DDM) Movement Efficiency Motor Control Biomechanics Coordination Dynamics Diagonal Coordination Synergy Complex Systems Complexity Theory Dynamic Systems Theory Self-Organization Human Motor System Postural Stability Energy Expenditure Metabolic Cost (VO2) Electromyography (EMG) Fascial Biomechanics Center of Mass Control Resonant Coordination Spiral Dynamics
Dynamic Diagonal Model (DDM) Movement Efficiency Motor Control Biomechanics Coordination Dynamics Diagonal Coordination Synergy Complex Systems Complexity Theory Dynamic Systems Theory Self-Organization Human Motor System Postural Stability Energy Expenditure Metabolic Cost (VO2) Electromyography (EMG) Fascial Biomechanics Center of Mass Control Resonant Coordination Spiral Dynamics
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