GPS-based protocol for tracking individual external training load and movement metrics.
Objectives of GPS Use Quantify external training load Evaluate distances and speeds by zones Analyze high-intensity efforts (HIA, sprints)Optimize programming and recovery Prevent overtraining and injuries Key Measured Variables Total Distance (DT) DI = ∑n di⚡ High-Intensity Distance (DHI) DHI =∑v>v di Number of Sprints (NS) NS=nbredesegmentsoùv>Vsprintpendantt>tmin⚙️ Accelerations / Decelerations (Acc / Dec) A=Δv, avec|A|>Aseuil PlayerLoad™ PL=√(ax)2+(ay)2+(az)2Intensity Exposure (EI) ET =DHItotale ×100External Workload (CLE) CLE=Dtotale+α⋅NS+β⋅Acc+γ⋅DecSpeed Zones Zone Intensity % VMA Speed (km/h) Z1 Walking / Jogging 0–50% < 9 km/h Z2 Moderate running 50–75% 9–13.5 km/h Z3 Sustained running 75–90% 13.5–16.2 km/h Z4 High intensity 90–100% 16.2–18 km/h Z5 Sprinting >100% >18 km/h
Advanced Indicators Locomotor Explosiveness (EL) Intensity Variability (VI) High-Intensity Effort Repetition Index (REHI) Time in each Zone Comparison with Match Data Correlations with Internal Load External Load Correlated with... Distance > 20 km/h Heart rate Number of sprints RPE, blood lactate Player Load CMJ, neuromuscular test Acc / Dec DOMS, TMG
Typical Periodization (Football / Soccer Example) Day Objective Targeted GPS Indicators MD-4 Technical volume D totale, Acc/Dec faibles MD-3 Threshold intensity DHI, zones 4 & 5 MD-2 Specific sprint Sprints, Vmax, REHI MD-1 Activation / recovery D légère, Z1-Z2 MD Match Performance reference
Conclusion GPS is an indispensable tool for monitoring and optimizing performance. It provides a comprehensive and precise overview of external load, which is essential for tailored planning, smart recovery, and effective injury prevention.