Unlike standard smartwatches, HDSwim sensors capture high-frequency motion data at thousands of samples per second.
Detects asymmetric movement patterns that often lead to "swimmer's shoulder" before pain begins.
To integrate HDSwim into a session, coaches often use a : Baseline 4 x 50m at 80% effort Capture "natural" state data. Analysis 2-minute review on the Hub Identify the top 2 technical flaws. Correction 8 x 25m with real-time HUD Use visual cues to adjust entry angle. Validation 2 x 50m at 95% effort Confirm if corrections held under fatigue. If you're looking for more specific details, let me know: HDSwim
Shows exactly where in the stroke a swimmer is generating the most power, allowing them to shorten "dead spots."
Low-profile housing ensures the sensors do not interfere with natural water flow or increase drag. 2. The HD-Hub (Processing Unit) Analysis 2-minute review on the Hub Identify the
HDSwim shifts the focus from traditional "yardage" to "precision metrics." The system operates on the principle that small, measurable improvements in body position and stroke efficiency lead to exponential gains in speed.
Identifies micro-oscillations in the hips that cause turbulence. If you're looking for more specific details, let
The HDSwim ecosystem typically consists of three primary layers: 1. Wearable Sensor Array