Abstract
<jats:p>Abstract The back squat is a foundational strength movement, yet it remains one of the most mechanically complex resistance patterns due to large inter-individual variability in anthropometry, joint constraints, trunk strategy, and load-transfer routing. Traditional “form cues” fail because they describe appearance rather than internal load distribution. This position paper presents the MMSx Authority Gold Standard framework for back squat analysis as a measurable system: (i) structural determinants that bias segment geometry and moment arms, (ii) kinematic integrity across planes, (iii) kinetic signatures including vertical and horizontal ground reaction behavior and torque distribution, (iv) neuromuscular control principles including bracing and timing, and (v) fault thresholds that translate directly into practical correction decisions. The model integrates an A–Z applied blueprint, linking bar-path displacement to lumbar loading sensitivity, defining threshold-based interpretation of common faults (dynamic valgus, posterior pelvic tilt/lumbar flexion at depth, asymmetric weight shift), and outlining a real-time feedback architecture using IMUs, force plates, and EMG with sensor fusion for field-level decision support. The goal is to standardize squat interpretation beyond aesthetics toward quantifiable load-path clarity that improves performance while reducing cumulative joint and spinal exposure.</jats:p>