Sport Monitoring

Sport Monitoring

Real-time ski performance analysis using GPS and IMU sensors. Tracking speed, altitude, and impact forces on the skier’s boots to assess slope dynamics, terrain interaction, and energy absorption. Advanced sport monitoring for optimizing technique and equipment performance.

Why Sport Monitoring Matters

Success in sports isn’t just about talent—it’s about understanding the details that shape performance. Our Sport Monitoring service transforms raw data into actionable insights, helping athletes and teams refine technique, optimize endurance, and enhance competitive strategy.

We go beyond traditional performance tracking by combining high-resolution GPS, multi-axis IMU sensors, and 360° video analysis, delivering a comprehensive view of movement, fatigue, and impact exposure. By capturing real-world dynamics in both training and competition, we empower athletes and federations with objective, data-driven decision-making tools.

Whether on snow or asphalt, trails or circuits, our system adapts to the specific demands of skiers, snowboarders, and cyclists, ensuring precision in every turn, jump, and pedal stroke.

  • Multiple compact IMU sensors from Sport Dynamics Lab arranged on a white surface. These high-precision motion sensors are used for sports performance monitoring and dynamic analysis.
  • Snowboarder fastening an IMU sensor to the power strap of a snowboard boot. The sensor, branded with the Sport Dynamics Lab logo, is used for motion tracking, analyzing flexion, impact forces, and riding dynamics in snowboarding.
  • Ski boot equipped with a high-precision IMU sensor mounted on the power strap. The sensor, branded with the Sport Dynamics Lab logo, captures motion data, including flexion, rotation, and impact forces, to analyze skiing performance and biomechanics.
  • Skier in a white suit carving on a snowy slope, leaning into the turn with an edge angle of 65° and a load distribution of 72%, as displayed on the screen. The image includes visual telemetry overlays analyzing ski dynamics and technique performance.
  • High-precision GNSS module for sport monitoring and GPS-SSR tracking. The device is enclosed in a transparent protective case, displaying speed, satellite count, and fix status on a small screen. Designed for accurate motion tracking in sports applications.
  • Snowboarder wearing a black backpack equipped with a high-precision GPS device for tracking movement. An inset zooms into the backpack’s interior, revealing the GPS unit inside a protective case. The image highlights the use of advanced positioning technology for sports performance analysis.
  • Split image showcasing two winter sports: on the left, a skier in black gear executing a high-speed carving turn, kicking up snow; on the right, a snowboarder performing an inverted aerial trick, grabbing the board while mid-air above a snow-covered slope. The image highlights dynamic movement in skiing and snowboarding.
  • First-person view of a cyclist riding on a rugged dirt trail, with embedded telemetry graphs displaying speed, acceleration, and impact data. The left graph compares ride-up and ride-down speeds, while the right graphs analyze high-impact events and cumulative exposure. The setup highlights real-time data collection for cycling performance and terrain analysis.
  • Close-up of a high-precision IMU sensor mounted on a bicycle wheel hub. The sensor, branded with the Sport Dynamics Lab logo, is designed to capture real-time motion dynamics, including acceleration, rotation, and vibration, for advanced cycling performance analysis.

How Sport Monitoring Drives Results

  • Optimize Performance: Identify speed trends, acceleration patterns, and fatigue indicators to refine technique and maximize efficiency. Whether it’s a skier fine-tuning edge control and weight distribution or a cyclist optimizing cadence and terrain handling, our data highlights key areas for improvement.
  • Enhance Competitive Strategy: Compare performance data across training sessions, team members, or different conditions to identify winning patterns.
  • Prevent Injuries & Manage Fatigue: Quantify the cumulative impact load and exposure time to understand athlete endurance thresholds and detect early signs of overload.
  • Gain Unmatched Objectivity: Move beyond subjective perception and obtain real-time, high-resolution data on sport execution, allowing for precise technique evaluation, equipment assessment, and training adaptation.
  • Technology Tailored to Your Needs: Our advanced monitoring solution adapts to your specific performance objectives. Whether integrating custom sensors for in-depth biomechanical analysis or leveraging existing telemetry systems, we ensure that athletes gain precise, actionable metrics that go beyond conventional data.

Real-Time Performance Mapping

Our interactive mapping system brings performance data to life. Analyze speed zones, impact hotspots, and terrain variations with real-time visual overlays. By correlating GPS trajectory, sensor data, and gradient maps, we provide a dynamic view of athlete movement and environmental response. From competition tracks to training sessions, our system transforms raw data into clear, actionable intelligence, enhancing both technique refinement and strategic planning.

These insights help athletes and coaches:

  • Optimize trajectory choices to minimize energy loss and maximize efficiency.
  • Identify critical performance shifts by comparing multiple runs.
  • Detect risk areas where impact accumulation may affect endurance.
  • Assess execution angles and symmetry to refine biomechanical performance.

Data That Unveils the Unseen

  • Satellite image with mapped descent and climb trajectories of a winding mountain road. The descent path is marked with a gray line, while the climbing path is represented by a brown line. The visualization highlights differences in route dynamics for cycling or sports performance analysis.
  • Graph titled 'Altitude and Speed Profile' showing altitude (m) and speed (km/h) over cumulative distance. The top chart displays overall altitude descent (blue line) and speed variations (red dashed line). The bottom zoomed-in segment highlights oscillations in altitude and speed, indicating dynamic terrain adaptation.
  • Ski/snowboard speed profile analysis along a run, showing acceleration and deceleration phases. The mapped trajectory highlights deceleration zones (red) at turn transitions and acceleration phases (orange) as the skier exits each turn. The pattern indicates a stable carving technique with regular oscillations.
  • Line chart titled 'Snowboard Turn Dynamics,' analyzing angular velocity (°/s) and snowboard inclination (°) over time. The graph shows frontside and backside turns, with turn speed (blue line) and snowboard inclination (brown line) plotted. Trend lines indicate the overall behavior of each parameter during turns.
  • Bar chart titled 'Snowboard Front Boot Impact Analysis,' showing the acceleration (m/s²) of impacts on the front boot. The graph compares frontside and backside impacts, with 21 frontside impacts (blue) and 40 backside impacts (brown). Trend lines indicate variations in impact intensity over time.
  • Infographic explaining the Fatigue Exposure Index (FEI), which quantifies physical effort based on mechanical load, duration of effort, and intensity of effort. Includes a bar chart comparing FEI values across three days and three smaller graphs breaking down contributing factors. The analysis highlights how workload variations affect fatigue, training optimization, and injury prevention.

Transforming Data into Actionable Results

  • Optimize Line Selection & Turn Efficiency: Analyze how trajectory choices and braking strategies impact speed, control, and overall performance. Identify the most efficient line to minimize energy loss and optimize execution.
  • Measure Impact & Fatigue Accumulation: Quantify how repetitive shocks and high-impact events affect both the athlete and equipment over time. Understand cumulative fatigue patterns to refine training loads and enhance injury prevention strategies.
  • Detect Asymmetries in Movement & Technique: Uncover imbalances in pedaling cadence, edge angles, or weight distribution that can lead to inefficiencies or increased injury risk. Optimize real-time adjustments for better biomechanics.
  • Benchmark Runs & Environmental Conditions: Compare multiple attempts under varying conditions to identify trends, performance bottlenecks, or technical weaknesses. Use objective data to refine consistency and execution.
  • Correlate Terrain Dynamics with Performance: Understand how changes in suspension settings, incline angles, terrain roughness, and external forces influence stability, traction, and overall efficiency.
  • Validate Setup & Equipment Adjustments: Evaluate how fine-tuning suspension, ski tuning, or bike fitting impacts handling, responsiveness, and energy transfer, ensuring configurations align with performance goals.

Ready to Elevate Your Performance?

Take training and competition to the next level with unparalleled insights and scientific precision. Whether you’re an elite athlete, a performance-driven team, or a federation, our technology is your key to unlocking maximum potential.