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This monograph is the eighth in the Somatic Cybernetics Technical Monograph Series, building on The Body as an Execution System, Why Physical State Directly Affects What Actions a Person Can Perform, The Body as a Regulatory System, Somatic Stability, Physical Rhythm, Physical Noise, and Somatic Compensation. It introduces fatigue as a regulatory signal—information about the physical system's current condition that helps regulate how activity continues—rather than merely a limitation. The work systematically establishes that fatigue reflects changes in physical resources: energy available for muscle contraction, oxygen delivery to working tissues, coordination capacity across muscle groups, and stability of movement patterns. As resources gradually decline, fatigue signals that the system is approaching its current resource limits. When fatigue begins to appear, the body adjusts effort application—reducing movement speed, lowering force output, modifying pacing, shifting effort across muscle groups—allowing continued functioning while managing available resources. Fatigue promotes temporary reduction of activity through slowing during sustained tasks, pausing during repetitive work, or reducing intensity, helping prevent excessive strain and allowing the body to stabilize internal conditions. As fatigue develops, the body adjusts coordination patterns by recruiting additional muscles, modifying joint angles, and altering muscle activation timing—compensatory changes that help the system continue operating despite increasing fatigue, though coordination may become less precise. Fatigue influences movement precision, producing reduced stability during balance tasks, increased movement timing variability, and minor coordination errors as fatigue affects consistent movement control. The body's regulatory systems use fatigue signals to prevent damage or excessive strain, encouraging slowing, redistribution of physical effort, and rest periods to protect muscles, joints, and other structures from overload. Fatigue accumulates progressively during activity: early signs include subtle increases in required effort, slight slowing of reaction time, small reductions in coordination precision; these changes become more noticeable as fatigue accumulates. Recovery processes restore energy reserves, muscle efficiency, coordination stability, and overall execution capacity when activity decreases or pauses, gradually decreasing fatigue signals and allowing the body to return to a state supporting stable movement. Fatigue is not only a sign of physical limitation but a regulatory signal that helps manage the body's resources during activity. Understanding fatigue as a regulatory signal explains how the body manages its physical limits during sustained activity.